Method and reagent for the treatment of diseases or conditions related to levels of vascular endothelial growth factor receptor

Abstract

The present invention relates to nucleic acid molecules which modulate the synthesis, expression and/or stability of an mRNA encoding one or more receptors of vascular endothelial growth factor.

Description

This application is a continuation of U.S. patent application Ser. No. 09/685,664 filed Oct. 10, 2000, which is a continuation of U.S. patent application Ser. No. 08/584,040 filed Jan. 11, 1996 now U.S. Pat. No. 6,346,395, which claims the benefit of U.S. Provisional Application No. 60/005,974 filed Oct. 26, 1995, all of which are hereby incorporated by reference.

The Sequence Listing file named “MBHB00-876-K SequenceListing.txt” (2,337,188 bytes in size) submitted on Compact Disc-Recordable (CD-R) medium (“010706_—1627”) in compliance with 37 C.F.R. §1.52(e) is incorporated herein by reference.”

BACKGROUND OF THE INVENTION

This invention relates to methods and reagents for the treatment of diseases or conditions relating to the levels of expression of vascular endothelial growth factor (VEGF) receptor(s).

The following is a discussion of relevant art, none of which is admitted to be prior art to the present invention.

VEGF, also referred to as vascular permeability factor (VPF) and vasculotropin, is a potent and highly specific mitogen of vascular endothelial cells (for a review see Ferrara, 1993 Trends Cardiovas. Med. 3, 244; Neufeld et al., 1994 Prog. Growth Factor Res. 5, 89). VEGF induced neovascularization is implicated in various pathological conditions such as tumor angiogenesis, proliferative diabetic retinopathy, hypoxia-induced angiogenesis, rheumatoid arthritis, psoriasis, wound healing and others.

VEGF, an endothelial cell-specific mitogen, is a 34-45 kDa glycoprotein with a wide range of activities that include promotion of angiogenesis, enhancement of vascular-permeability and others. VEGF belongs to the platelet-derived growth factor (PDGF) family of growth factors with approximately 18% homology with the A and B chain of PDGF at the amino acid level. Additionally, VEGF contains the eight conserved cysteine residues common to all growth factors belonging to the PDGF family (Neufeld et al., supra). VEGF protein is believed to exist predominantly as disulfide-linked homodimers; monomers of VEGF have been shown to be inactive (Plouet et al., 1989 EMBO J. 8, 3801).

VEGF exerts its influence on vascular endothelial cells by binding to specific high-affinity cell surface receptors. Covalent cross-linking experiments with ¹²⁵I-labeled VEGF protein have led to the identification of three high molecular weight complexes of 225, 195 and 175 kDa presumed to be VEGF and VEGF receptor complexes (Vaisman et al., 1990 J. Biol. Chem. 265, 19461). Based on these studies VEGF-specific receptors of 180, 150 and 130 kDa molecular mass were predicted. In endothelial cells, receptors of 150 and the 130 kDa have been identified. The VEGF receptors belong to the superfamily of receptor tyrosine kinases (RTKs) characterized by a conserved cytoplasmic catalytic kinase domain and a hydrophylic kinase sequence. The extracellular domains of the VEGF receptors consist of seven immunoglobulin-like domains that are thought to be involved in VEGF binding functions.

The two most abundant and high-affinity receptors of VEGF are fit-1 (fms-like tyrosine kinase) cloned by Shibuya et al., 1990 Oncogene 5, 519 and KDR (kinase-insert-domain-containing receptor) cloned by Terman et al., 1991 Oncogene 6, 1677. The murine homolog of KDR, cloned by Mathews et al., 1991, Proc. Natl. Acad. Sci., USA, 88, 9026, shares 85% amino acid homology with KDR and is termed as flk-1 (fetal liver kinase-1). Recently it has been shown that the high-affinity binding of VEGF to its receptors is modulated by cell surface-associated heparin and heparin-like molecules (Gitay-Goren et al., 1992 J. Biol. Chem. 267, 6093).

VEGF expression has been associated with several pathological states such as tumor angiogenesis, several forms of blindness, rheumatoid arthritis, psoriasis and others. Following is a brief summary of evidence supporting the involvement of VEGF in various diseases:

1) Tumor angiogenesis: Increased levels of VEGF gene expression have been reported in vascularized and edema-associated brain tumors (Berkman et al., 1993 J. Clini. Invest. 91, 153). A more direct demostration of the role of VEGF in tumor angiogenesis was demonstrated by Jim Kim et al., 1993 Nature 362,841 wherein, monoclonal antibodies against VEGF were successfully used to inhibit the growth of rhabdomyosarcoma, glioblastoma multiforme cells in nude mice. Similarly, expression of a dominant negative mutated form of the fit-1 VEGF receptor inhibits vascularization induced by human gliobiastoma cells in nude mice (Millauer et al., 1994, Nature 367, 576).

2) Ocular diseses: Aiello et al., 1994 New Engl. J. Med. 331, 1480, showed that the ocular fluid, of a majority of patients suffering from diabetic retinopathy and other retinal disorders, contains a high concentration of VEGF. Miller et al., 1994 Am. J. Pathol. 145, 574, reported elevated levels of VEGF mRNA in patients suffering from retinal ischemia. These observations support a direct role for VEGF in ocular diseases.

3) Psoriasis: Detmar et al., 1994 J. Exp. Med. 180, 1141 reported that VEGF and its receptors were over-expressed in psoriatic skin and psoriatic dermal microvessels, suggesting that VEGF plays a significant role in psoriasis.

4) Rheumatoid arthritis: Immunohistochemistry and in situ hybridization studies on tissues from the joints of patients suffering from rheumatoid arthritis show an increased level of VEGF and its receptors (Fava et al., 1994 J. Exp. Med. 180, 341). Additionally, Koch et al., 1994 J. Immunol. 152, 4149, found that VEGF-specific antibodies were able to significantly reduce the mitogenic activity of synovial tissues from patients suffering from rheumatoid arthritis. These observations support a direct role for VEGF in rheumatoid arthritis.

In addition to the above data on pathological conditions involving excessive angiogenesis, a number of studies have demonstrated that VEGF is both necessary and sufficient for neovascularization. Takashita et al., 1995 J. Clin. Invest. 93, 662, demonstrated that a single injection of VEGF augmented collateral vessel development in a rabbit model of ischemia. VEGF also can induce neovascularization when injected into the cornea. Expression of the VEGF gene in CHO cells is sufficient to confer tumorigenic potential to the cells. Kim et al., supra and Millauer et al., supra used monoclonal antibodies against VEGF or a dominant negative form of flk-1 receptor to inhibit tumor-induced neovascularization.

During development, VEGF and its receptors are associated with regions of new vascular growth (Millauer et al., 1993 Cell 72, 835; Shalaby et al., 1993 J. Clin. Invest. 91, 2235). Furthermore, transgenic mice lacking either of the VEGF receptors are defective in blood vessel formation, infact these mouse do not survive; flk-1 appears to be required for differentiation of endothelial cells, while fit-1 appears to be required at later stages of vessel formation (Shalaby et al., 1995 Nature 376, 62; Fung et al., 1995 Nature 376, 66). Thus, these receptors must be present to properly signal endothelial cells or their precursors to respond to vascularization-promoting stimuli.

All of the conditions listed above, involve extensive vascularization. This hyper-stimulation of endothelial cells may be alleviated by VEGF antagonists. Thus most of the therapeutic efforts for the above conditions have concentrated on finding inhibitors of the VEGF protein.

Kim et al., 1993 Nature 362, 841 have been successful in inhibiting VEGF-induced tumor growth and angiogenesis in nude mice by treating the mice with VEGF-specific monoclonal antibody.

Koch et al., 1994 J. Immunol. 152, 4149 showed that the mitogenic activity of microvascular endothelial cells found in rheumatoid arthritis (RA) synovial tissue explants and the chemotactic property of endothelial cells from RA synovial fluid can be neutralized significantly by treatment with VEGF-specific antibodies.

Ullrich et al., International PCT Publication No. WO 94/11499 and Millauer et al., 1994 Nature 367, 576 used a soluble form of flk-1 receptor (dominant-negative mutant) to prevent VEGF-mediated tumor angiogenesis in immunodeficient mice.

Kendall and Thomas, International PCT Publication No. WO 94/21679 describe the use of naturally occuring or recombinantly-engineered soluble forms of VEGF receptors to inhibit VEGF activity.

Robinson, International PCT Publication No. WO 95/04142 describes the use of antisense oligonucleotides targeted against VEGF RNA to inhibit VEGF expression.

Jellinek et al., 1994 Biochemistry 33, 10450 describe the use of VEGF-specific high-affinity RNA aptamers to inhibit the binding of VEGF to its receptors.

Rockwell and Goldstein, International PCT Publication No. WO 95/21868, describe the use of anti-VEGF receptor monoclonal antibodies to neutralize the the effect of VEGF on endothelial cells.

SUMMARY OF THE INVENTION

The invention features novel nucleic acid-based techniques [e.g., enzymatic nucleic acid molecules (ribozymes), antisense nucleic acids, 2-5A antisense chimeras, triplex DNA, antisense nucleic acids containing RNA cleaving chemical groups (Cook et al., U.S. Pat. No. 5,359,051)] and methods for their use to down regulate or inhibit the expression of receptors of VEGF (VEGF-R).

In a preferred embodiment, the invention features use of one or more of the nucleic acid-based techniques to inhibit the expression of fit-1 and/or flk-1/KDR receptors.

By “inhibit” it is meant that the activity of VEGF-R or level of mRNAs or equivalent RNAs encoding VEGF-R is reduced below that observed in the absence of the nucleic acid. In one embodiment, inhibition with ribozymes preferably is below that level observed in the presence of an enzymatically inactive RNA molecule that is able to bind to the same site on the mRNA, but is unable to cleave that RNA. In another embodiment, inhibition with antisense oligonucleotides is preferably below that level observed in the presence of for example, an oligonucleotide with scrambled sequence or with mismatches.

By “enzymatic nucleic acid molecule” it is meant an RNA molecule which has complementarity in a substrate binding region to a specified gene target, and also has an enzymatic activity which is active to specifically cleave target RNA. That is, the enzymatic RNA molecule is able to intermolecularly cleave RNA and thereby inactivate a target RNA molecule. This complementary regions allow sufficient hybridization of the enzymatic RNA molecule to the target RNA and thus permit cleavage. One hundred percent complementarity is preferred, but complementarity as low as 50-75% may also be useful in this invention. By “equivalent” RNA to VEGF-R is meant to include those naturally occurring RNA molecules in various animals, including human, mice, rats, rabbits, primates and pigs.

By “antisense nucleic acid” it is meant a non-enzymatic nucleic acid molecule that binds to target RNA by means of RNA-RNA or RNA-DNA or RNA-PNA (protein nucleic acid; Egholm et al., 1993 Nature 365, 566) interactions and alters the activity of the target RNA (for a review see Stein and Cheng, 1993 Science 261, 1004).

By “2-5A antisense chimera” it is meant, an antisense oligonucleotide containing a 5′ phosphorylated 2′-5′-linked adenylate residues. These chimeras bind to target RNA in a sequence-specific manner and activate a cellular 2-5A-dependent ribonuclease which, in turn, cleaves the target RNA (Torrence et al., 1993 Proc. Natl. Acad. Sci. USA 90, 1300).

By “triplex DNA” it is meant an oligonucleotide that can bind to a double-stranded DNA in a sequence-specific manner to form a triple-strand helix. Formation of such triple helix structure has been shown to inhibit transcription of the targeted gene (Duval-Valentin et al., 1992 Proc. Natl. Acad. Sci. USA 89, 504).

By “gene” it is meant a nucleic acid that encodes an RNA.

By “complementarity” is meant that a nucleic acid can form hydrogen bond(s) with another RNA sequence by either traditional Watson-Crick or other non-traditional types (for example, Hoogsteen type) of base-paired interactions.

Six basic varieties of naturally-occurring enzymatic RNAs are known presently. Each can catalyze the hydrolysis of RNA phosphodiester bonds in trans (and thus can cleave other RNA molecules) under physiological conditions. Table I summarizes some of the characteristics of these ribozymes. In general, enzymatic nucleic acids act by first binding to a target RNA. Such binding occurs through the target binding portion of a enzymatic nucleic acid which is held in close proximity to an enzymatic portion of the molecule that acts to cleave the target RNA. Thus, the enzymatic nucleic acid first recognizes and then binds a target RNA through complementary base-pairing, and once bound to the correct site, acts enzymatically to cut the target RNA. Strategic cleavage of such a target RNA will destroy its ability to direct synthesis of an encoded protein. After an enzymatic nucleic acid has bound and cleaved its RNA target, it is released from that RNA to search for another target and can repeatedly bind and cleave new targets. Thus, a single ribozyme molecule is able to cleave many molecules of target RNA. In addition, the ribozyme is a highly specific inhibitor of gene expression, with the specificity of inhibition depending not only on the base-pairing mechanism of binding to the target RNA, but also on the mechanism of target RNA cleavage. Single mismatches, or base-substitutions, near the site of cleavage can completely eliminate catalytic activity of a ribozyme.

Ribozymes that cleave the specified sites in VEGF-R mRNAs represent a novel therapeutic approach to treat tumor angiogenesis, ocular diseases, rhuematoid arthritis, psoriasis and others. Applicant indicates that ribozymes are able to inhibit the activity of VEGF-R (specifically fit-1 and flk-1/KDR) and that the catalytic activity of the ribozymes is required for their inhibitory effect. Those of ordinary skill in the art will find that it is clear from the examples described that other ribozymes that cleave VEGF-R mRNAs may be readily designed and are within the invention.

In preferred embodiments of this inventions, the enzymatic nucleic acid molecule is formed in a hammerhead or hairpin motif, but may also be formed in the motif of a hepatitis delta virus, group I intron or RNaseP RNA (in association with an RNA guide sequence) or Neurospora VS RNA. Examples of such hammerhead motifs are described by Rossi et al., 1992, AIDS Research and Human Retroviruses 8, 183, of hairpin motifs by Hampel et al., EP0360257, Hampel and Tritz, 1989 Biochemistry 28, 4929, and Hampel et al., 1990 Nucleic Acids Res. 18, 299, and an example of the hepatitis delta virus motif is described by Perrotta and Been, 1992 Biochemistry 31, 16; of the RNaseP motif by Guerrier-Takada et al., 1983 Cell 35, 849, Neurospora VS RNA ribozyme motif is described by Collins (Saville and Collins, 1990 Cell 61, 685-696; Saville and Collins, 1991 Proc. Natl. Acad. Sci. USA 88, 8826-8830; Collins and Olive, 1993 Biochemistry 32, 2795-2799) and of the Group I intron by Cech et al., U.S. Pat. No. 4,987,071. The specific motifs are not limiting in the invention and those skilled in the art will recognize that all that is important in an enzymatic nucleic acid molecule of this invention is that it has a specific substrate binding site which is complementary to one or more of the target gene RNA regions, and that it have nucleotide sequences within or surrounding that substrate binding site which impart an RNA cleaving activity to the molecule.

In a preferred embodiment the invention provides a method for producing a class of enzymatic cleaving agents which exhibit a high degree of specificity for the RNA of a desired target. The enzymatic nucleic acid molecule is preferably targeted to a highly conserved sequence region of target mRNAs encoding VEGF-R proteins (specifically fit-1 and flk-1/KDR) such that specific treatment of a disease or condition can be provided with either one or several enzymatic nucleic acids. Such enzymatic nucleic acid molecules can be delivered exogenously to specific tissue or cellular targets as required. Alternatively, the ribozymes can be expressed from DNA and/or RNA vectors that are delivered to specific cells.

Synthesis of nucleic acids greater than 100 nucleotides in length is difficult using automated methods, and the therapeutic cost of such molecules is prohibitive. In this invention, small nucleic acid motifs (e.g., antisense oligonucleotides, hammerhead or the hairpin ribozymes) are used for exogenous delivery. The simple structure of these molecules increases the ability of the nucleic acid to invade targeted regions of the mRNA structure. However, these nucleic acid molecules can also be expressed within cells from eukaryotic promoters (e.g., Izant and Weintraub, 1985 Science 229, 345; McGarry and Lindquist, 1986 Proc. Natl. Acad. Sci. USA 83, 399; SullengerScanlon et al., 1991, Proc. Natl. Acad. Sci. USA, 88, 10591-5; Kashani-Sabet et al., 1992 Antisense Res. Dev., 2, 3-15; Dropulic et al., 1992 J. Virol, 66, 1432-41; Weerasinghe et al., 1991 J. Virol, 65, 5531-4; Ojwang et al., 1992 Proc. Natl. Acad. Sci. USA 89, 10802-6; Chen et al., 1992 Nucleic Acids Res., 20, 4581-9; Sarver et al., 1990 Science 247, 1222-1225; Thompson et al., 1995 Nucleic Acids Res. 23, 2259). Those skilled in the art realize that any nucleic acid can be expressed in eukaryotic cells from the appropriate DNA/RNA vector. The activity of such nucleic acids can be augmented by their release from the primary transcript by a ribozyme (Draper et al., PCT WO93/23569, and Sullivan et al., PCT WO94/02595, both hereby incorporated in their totality by reference herein; Ohkawa et al., 1992 Nucleic Acids Svmp. Ser., 27, 15-6; Taira et al., 1991, Nucleic Acids Res., 19, 5125-30; Ventura et al., 1993 Nucleic Acids Res. 21, 3249-55; Chowrira et al., 1994 J. Biol. Chem. 269, 25856).

Such nucleic acid molecules are useful for the prevention of the diseases and onditions discussed above, and any other diseases or conditions that are related to the evels of VEGF-R (specifically fit-1 and flk-1/KDR) in a cell or tissue.

By “related” is meant that the reduction of VEGF-R (specifically fit-1 and flk-1/KDR) RNA levels and thus reduction in the level of the respective protein will relieve, to some extent, the symptoms of the disease or condition.

Ribozymes are added directly, or can be complexed with cationic lipids, packaged within liposomes, or otherwise delivered to target cells or tissues. The nucleic acid or nucleic acid complexes can be locally administered to relevant tissues ex vivo, or in vivo through injection, infusion pump or stent, with or without their incorporation in biopolymers. In preferred embodiments, the ribozymes have binding arms which are complementary to the sequences in Tables II to IX. Examples of such ribozymes also are shown in Tables II to IX. Examples of such ribozymes consist essentially of sequences defined in these Tables. By “consists essentially of” is meant that the active ribozyme contains an enzymatic center or core equivalent to those in the examples, and binding arms able to bind mRNA such that cleavage at the target site occurs. Other sequences may be present which do not interfere with such cleavage.

In another aspect of the invention, ribozymes that cleave target RNA molecules and inhibit VEGF-R (specifically fit-1 and flk-1/KDR) activity are expressed from transcription units inserted into DNA or RNA vectors. The recombinant vectors are preferably DNA plasmids or viral vectors. Ribozyme expressing viral vectors could be constructed based on, but not limited to, adeno-associated virus, retrovirus, adenovirus, or alphavirus. Preferably, the recombinant vectors capable of expressing the ribozymes are delivered as described above, and persist in target cells. Alternatively, viral vectors may be used that provide for transient expression of ribozymes. Such vectors might be repeatedly administered as necessary. Once expressed, the ribozymes cleave the target mRNA. Delivery of ribozyme expressing vectors could be systemic, such as by intravenous or intramuscular administration, by administration to target cells ex-planted from the patient followed by reintroduction into the patient, or by any other means that would allow for introduction into the desired target cell.

By “vectors” is meant any nucleic acid- and/or viral-based technique used to deliver a desired nucleic acid.

Other features and advantages of the invention will be apparent from the following description of the preferred embodiments thereof, and from the claims.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

First the drawings will be described briefly.

DRAWINGS

FIG. 1 is a diagrammatic representation of the hammerhead ribozyme domain known in the art. Stem II can be ≧2 base-pair long.

FIG. 2a is a diagrammatic representation of the hammerhead ribozyme domain known in the art; FIG. 2b is a diagrammatic representation of the hammerhead ribozyme as divided by Uhlenbeck (1987, Nature, 327, 596-600) into a substrate and enzyme portion; FIG. 2c is a similar diagram showing the hammerhead divided by Haseloff and Gerlach (1988, Nature, 334, 585-591) into two portions; and FIG. 2d is a similar diagram showing the hammerhead divided by Jeffries and Symons (1989, Nucl. Acids. Res., 17, 1371-1371) into two portions.

FIG. 3 is a diagramatic representation of the general structure of a hairpin ribozyme. Helix 2 (H₂) is provided with a least 4 base pairs (i.e., n is 1, 2, 3 or 4) and helix 5 can be optionally provided of length 2 or more bases (preferably 3-20 bases, i.e., m is from 1-20 or more). Helix 2 and helix 5 may be covalently linked by one or more bases (i.e., r is ≧1 base). Helix 1, 4 or 5 may also be extended by 2 or more base pairs (e.g., 4-20 base pairs) to stabilize the ribozyme structure, and preferably is a protein binding site. In each instance, each N and N′ independently is any normal or modified base and each dash represents a potential base-pairing interaction. These nucleotides may be modified at the sugar, base or phosphate. Complete base-pairing is not required in the helices, but is preferred. Helix 1 and 4 can be of any size (i.e., o and p is each independently from 0 to any number, e.g., 20) as long as some base-pairing is maintained. Essential bases are shown as specific bases in the structure, but those in the art will recognize that one or more may be modified chemically (abasic, base, sugar and/or phosphate modifications) or replaced with another base without significant effect. Helix 4 can be formed from two separate molecules, i.e., without a connecting loop. The connecting loop when present may be a ribonucleotide with or without modifications to its base, sugar or phosphate. “q” is ≧2 bases. The connecting loop can also be replaced with a non-nucleotide linker molecule. H refers to bases A, U, or C. Y refers to pyrimidine bases. “______” refers to a covalent bond.

FIG. 4 is a representation of the general structure of the hepatitis delta virus ribozyme domain known in the art.

FIG. 5 is a representation of the general structure of the VS RNA ribozyme domain.

FIG. 6 is a schematic representation of an RNAseH accessibility assay. Specifically, the left side of FIG. 6 is a diagram of complementary DNA oligonucleotides bound to accessible sites on the target RNA. Complementary DNA oligonucleotides are represented by broad lines labeled A, B, and C. Target RNA is represented by the thin, twisted line. The right side of FIG. 6 is a schematic of a gel separation of uncut target RNA from a cleaved target RNA. Detection of target RNA is by autoradiography of body-labeled, T7 transcript. The bands common to each lane represent uncleaved target RNA; the bands unique to each lane represent the cleaved products.

FIG. 7 shows the effect of hammerhead ribozymes targeted against fit-1 receptor on the binding of VEGF to the surface of human microvascular endothelial cells. Sequences of the ribozymes used are shown in Table II; the length of stem II region is 3 bp. The hammerhead ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions (see FIG. 11); U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions; four nucleotides at the 5′ terminus contains phosphorothioate substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose. The results of two separate experiments are shown as separate bars for each set. Each bar represents the average of triplicate samples. The standard deviation is shown with error bars. For the fit-1 data, 500 nM ribozyme (3:1 charge ratio with LipofectAMINE®) was used. Control 1-10 is the control for ribozymes 307-2797, control 11-20 is the control for ribozymes 3008-5585. The Control 1-10 and Control 11-20 represent the treatment of cells with LipofectAMINE® alone without any ribozymes.

FIG. 8 shows the effect of hammerhead ribozymes targeted against KDR receptor on the binding of VEGF to KDR on the surface of human microvascular endothelial cells. Sequences of the ribozymes used are shown in Table IV; the length of stem II region is 3 bp. The hammerhead ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions (see FIG. 11); U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions; four nucleotides at the 5′ terminus contains phosphorothioate substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose. The Control 1-10 and Control 11-20 represent the treatment of cells with LipofectAMINE® alone without any ribozymes. Irrel. RZ, is a control experiment wherein the cells are treated with a non-KDR-targeted ribozyme complexed with Lipofectamine®. 200 nM ribozyme (3:1 charge ratio with LipofectAMINE®) was used. In addition to the KDR-targeted ribozymes, the effect on VEGF binding of a ribozyme targeted to an irrelevant mRNA (irrel. RZ) is also shown. Because the affinity of KDR for VEGF is about 10-fold lower than the affinity of fit-1 for VEGF, a higher concentration of VEGF was used in the binding assay.

FIG. 9 shows the specificity of hammerhead ribozymes targeted against fit-1 receptor. Inhibition of the binding of VEGF, urokinase plasminogen activator (UPA) and fibroblast growth factor (FGF) to their corresponding receptors as a function of anti-FLT ribozymes is shown. The sequence and description of the ribozymes used are as described under FIG. 7 above. The average of triplicate samples is given; percent inhibition as calculated below.

FIG. 10 shows the inhibition of the proliferation of Human aortic endothelial cells (HAEC) mediated by phosphorothioate antisense oligodeoxynucleotides targeted against human KDR receptor RNA. Cell proliferation (O.D. 490) as a function of antisense oligodeoxynucleotide concentration is shown. KDR 21AS represents a 21 nt phosphorothioate antisense oligodeoxynucleotide targeted against KDR RNA. KDR 21 Scram represents a 21 nt phosphorothioate oligodeoxynucleotide having a scrambled sequence. LF represents the lipid carrier Lipofectin.

FIG. 11 shows in vitro cleavage of fit-1 RNA by hammerhead ribozymes. A) diagrammatic representation of hammerhead ribozymes targeted against fit-1 RNA. The hammerhead (HH) ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions; U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions; four nucleotides at the 5′ terminus contains phosphorothioate substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose (designated as 3′-1H). 1358 HH-A and 4229 HH-A contain 3 base-paired stem II region. 1358 HH-B and 4229 HH-B contain 4 base-paired stem II region. B) and C) shows in vitro cleavage kinetics of HH ribozymes targeted against sites 1358 and 4229 within the fit-1 RNA.

FIG. 12 shows inhibition of human microvascular endothelial cell proliferation mediated by anti-fit-1 hammerhead ribozymes. A) Diagrammatic representation of hammerhead (HH) ribozymes targeted against sites 1358 and 4229 within the the fit-1 RNA. B) Graphical representation of the inhibition of cell proliferation mediated by 1358HH and 4229HH ribozymes.

FIG. 13 shows inhibition of human microvascular endothelial cell proliferation mediated by anti-KDR hammerhead ribozymes. The figure is a graphical representation of the inhibition of cell proliferation mediated by hammerhead ribozymes targeted against sites 527, 730, 3702 and 3950 within the KDR RNA. Irrelevant HH RZ is a hammerhead ribozyme targeted to an irrelevant target. All of these ribozymes, including the Irrelevant HH RZ, were chemically modified such that the ribozyme consists of ribose residues at five positions; U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions; four nucleotides at the 5′ termini contain phosphorothioate substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose (3′-1H).

FIG. 14 shows in vitro cleavage of KDR RNA by hammerhead ribozymes. The hammerhead (HH) ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions; U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-Omethyl substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose (designated as 3′-1H). 726 HH and 527 HH contain 4 base-paired stem II region. Percentin vitro cleavage kinetics as a function of time of HH ribozymes targeted against sites 527 and 726 within the KDR RNA is shown.

FIG. 15 shows in vitro cleavage of KDR RNA by hammerhead ribozymes. The hammerhead (HH) ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions; U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose (designated as 3′-1H). 3702 HH and 3950 HH contain 4 base-paired stem II region. Percentin vitro cleavage kinetics as a function of time of HH ribozymes targeted against sites 3702 and 3950 within the KDR RNA is shown.

FIG. 16 shows in vitro cleavage of RNA by hammerhead ribozymes that are targeted to sites that are conserved between fit-1 and KDR RNA. The hammerhead (HH) ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions; U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose (designated as 3′-1H). FLT/KDR-1 HH ribozyme was synthesized with either a 4 base-paired or a 3 base-paired stem II region. FLT/KDR-1HH can cleave site 3388 within fit-1 RNA and site 3151 within KDR RNA. Percentin vitro cleavage kinetics as a function of time of HH ribozymes targeted against sites 3702 and 3950 within the KDR RNA is shown.

FIG. 17 shows inhibition of human microvascular endothelial cell proliferation mediated by anti-KDR and anti-fit-1 hammerhead ribozymes. The figure is a graphical representation of the inhibition of cell proliferation mediated by hammerhead ribozymes targeted against sites KDR sites-527, 726 or 3950 or fit-1 site 4229. The figure also shows enhanced inhibition of cell proliferation by a combination of fit-1 and KDR hammerhead ribozymes. 4229+527, indicates the treatment of cells with both the fit 4229 and the KDR 527 ribozymes. 4229+726, indicates the treatment of cells with both the fit 4229 and the KDR 726 ribozymes. 4229+3950, indicates the treatment of cells with both the fit 4229 and the KDR 3950 ribozymes. VEGF−, indicates the basal level of cell proliferation in the absence of VEGF. A, indicates catalytically active ribozyme; I, indicates catalytically inactive ribozyme. All of these ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions; U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions; four nucleotides at the 5′ termini contain phosphorothioate substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose (3′-1H).

FIG. 18 shows the inhibition of VEGF-induced angiogenesis in rat cornea mediated by anti-fit-1 hammerhead ribozyme. All of these ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions; U4 position contains 2′-C-allyl modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions; four nucleotides at the 5′ termini contain phosphorothioate substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose (3′-1H). A decrease in the Surface Area corresponds to a reduction in angiogenesis. VEGF alone, corresponds to treatment of the cornea with VEGF and no ribozymes. Vehicle alone, corresponds to the treatment of the cornea with the carrier alone and no VEGF. This control gives a basal level of Surface Area. Active 4229 HH, corresponds to the treatment of cornea with the fit-1 4229 HH ribozyme in the absence of any VEGF. This control also gives a basal level of Surface Area. Active 4229 HH+VEGF, corresponds to the co-treatment of cornea with the fit-1 4229 HH ribozyme and VEGF. Inactive 4229 HH+VEGF, corresponds to the co-treatment of cornea with a catalytically inactive version of 4229 HH ribozyme and VEGF.

Ribozymes

Ribozymes of this invention block to some extent VEGF-R (specifically fit-1 and flk-1/KDR) production and can be used to treat disease or diagnose such disease. Ribozymes will be delivered to cells in culture, to cells or tissues in animal models of angiogenesis and/or RA and to human cells or tissues ex vivo or in vivo. Ribozyme cleavage of VEGF-R RNAs (specifically RNAs that encode fit-1 and flk-1/KDR) in these systems may alleviate disease symptoms.

Target Sites

Targets for useful ribozymes can be determined as disclosed in Draper et al., International PCT Publication No. WO 95/13380, and hereby incorporated by reference herein in totality. Other examples include the following PCT applications which concern inactivation of expression of disease-related genes: WO 95/23225, WO 95/13380, WO 94/02595, incorporated by reference herein. Rather than repeat the guidance provided in those documents here, below are provided specific examples of such methods, not limiting to those in the art. Ribozymes to such targets are designed as described in those applications and synthesized to be tested in vitro and in vivo, as also described.

The sequence of human and mouse fit-1, KDR and/or flk-1 mRNAs were screened for optimal ribozyme target sites using a computer folding algorithm. Hammerhead or hairpin ribozyme cleavage sites were identified. These sites are shown in Tables II to IX (all sequences are 5′ to 3′ in the tables; X can be any base-paired sequence, the actual sequence is not relevant here). The nucleotide base position is noted in the Tables as that site to be cleaved by the designated type of ribozyme. While mouse and human sequences can be screened and ribozymes thereafter designed, the human targeted sequences are of most utility. However, as discussed in Stinchcomb et al., “Method and Composition for Treatment of Restenosis and Cancer Using Ribozymes,” filed May 18, 1994, U.S. Ser. No. 08/245,466, mouse targeted ribozymes may be useful to test efficacy of action of the ribozyme prior to testing in humans. The nucleotide base position is noted in the Tables as that site to be cleaved by the designated type of ribozyme.

Hammerhead or hairpin ribozymes were designed that could bind and cleave target RNA in a sequence-specific manner. The ribozymes were individually analyzed by computer folding (Jaeger et al., 1989 Proc. Natl. Acad. Sci. USA, 86, 7706) to assess whether the ribozyme sequences fold into the appropriate secondary structure. Those ribozymes with unfavorable intramolecular interactions between the binding arms and the catalytic core were eliminated from consideration. Varying binding arm lengths can be chosen to optimize activity.

Referring to FIG. 6, mRNA is screened for accessible cleavage sites by the method described generally in Draper et al., PCT WO93/23569, hereby incorporated by reference herein. Briefly, DNA oligonucleotides complementary to potential hammerhead or hairpin ribozyme cleavage sites were synthesized. A polymerase chain reaction is used to generate substrates for T7 RNA polymerase transcription from human and mouse fit-1, KDR and/or flk-1 cDNA clones. Labeled RNA transcripts are synthesized in vitro from the templates. The oligonucleotides and the labeled transcripts were annealed, RNAseH was added and the mixtures were incubated for the designated times at 37° C. Reactions are stopped and RNA separated on sequencing polyacrylamide gels. The percentage of the substrate cleaved is determined by autoradiographic quantitation using a Phosphorlmaging system. From these data, hammerhead or hairpin ribozyme sites are chosen as the most accessible.

Ribozymes of the hammerhead or hairpin motif were designed to anneal to various sites in the mRNA message. The binding arms are complementary to the target site sequences described above. The ribozymes were chemically synthesized. The method of synthesis used follows the procedure for normal RNA synthesis as described below and in Usman et al., 1987 J. Am. Chem. Soc., 109, 7845; Scaringe et al., 1990 Nucleic Acids Res., 18, 5433; and Wincott et al., 1995 Nucleic Acids Res. 23, 2677-2684 and make use of common nucleic acid protecting and coupling groups, such as dimethoxytrityl at the 5′-end, and phosphoramidites at the 3′-end. Small scale synthesis were conducted on a 394 Applied Biosystems, Inc. synthesizer using a modified 2.5 pmol scale protocol with a 5 min coupling step for alkylsilyl protected nucleotides and 2.5 min coupling step for 2′-O-methylated nucleotides. Table XI outlines the amounts, and the contact times, of the reagents used in the synthesis cycle. A 6.5-fold excess (163 μL of 0.1 M=16.3 pmol) of phosphoramidite and a 24-fold excess of S-ethyl tetrazole (238 μL of 0.25 M=59.5 pmol) relative to polymer-bound 5′-hydroxyl was used in each coupling cycle. Average coupling yields on the 394 Applied Biosystems, Inc. synthesizer, determined by colorimetric quantitation of the trityl fractions, were 97.5-99%. Other oligonucleotide synthesis reagents for the 394 Applied Biosystems, Inc. synthesizer: detritylation solution was 2% TCA in methylene chloride (ABI); capping was performed with 16% N-methyl imidazole in THF (ABI) and 10% acetic anhydride/10% 2,6-lutidine in THF (ABI); oxidation solution was 16.9 mM 12, 49 mM pyridine, 9% water in THF (Millipore). B & J Synthesis Grade acetonitrile was used directly from the reagent bottle. S-Ethyl tetrazole solution (0.25 M in acetonitrile) was made up from the solid obtained from American International Chemical, Inc.

Deprotection of the RNA was performed as follows. The polymer-bound oligoribonucleotide, trityl-off, was transferred from the synthesis column to a 4 mL glass screw top vial and suspended in a solution of methylamine (MA) at 65° C. for 10 min. After cooling to −20° C., the supernatant was removed from the polymer support. The support was washed three times with 1.0 mL of EtOH:MeCN:H₂O/3:1:1, vortexed and the supernatant was then added to the first supernatant. The combined supernatants, containing the oligoribonucleotide, were dried to a white powder.

The base deprotected oligoribonucleotide was resuspended in anhydrous TEA.HF/NMP solution (250 μL of a solution of 1.5 mL N-methyl-pyrrolidinone, 750 μL TEA and 1.0 mL TEAe3HF to provide a 1.4 M HF concentration) and heated to 65° C. for 1.5 h. The resulting, fully deprotected, oligomer was quenched with 50 mM TEAB (9 mL) prior to anion exchange desalting.

For anion exchange desalting of the deprotected oligomer, the TEAB solution was loaded onto a Qiagen 500® anion exchange cartridge (Qiagen Inc.) that was prewashed with 50 mM TEAB (10 mL). After washing the loaded cartridge with 50 mM TEAB (10 mL), the RNA was eluted with 2 M TEAB (10 mL) and dried to a white powder.

Inactive hammerhead ribozymes were synthesized by substituting a U for G5 and a U for A14 (numbering from Hertel, K. J., et al., 1992, Nucleic Acids Res., 20, 3252).

The average stepwise coupling yields were >98% (Wincott et al., 1995 Nucleic Acids Res. 23, 2677-2684).

Hairpin ribozymes are synthesized in two parts and annealed to reconstruct the active ribozyme (Chowrira and Burke, 1992 Nucleic Acids Res., 20, 2835-2840). Ribozymes are also synthesized from DNA templates using bacteriophage T7 RNA polymerase (Milligan and Uhlenbeck, 1989, Methods Enzymol. 180, 51).

All ribozymes are modified extensively to enhance stability by modification with nuclease resistant groups, for example, 2′-amino, 2′-C-allyl, 2′-flouro, 2′-O-methyl, 2′-H (for a review see Usman and Cedergren, 1992 TIBS 17, 34; Usman et al., 1994 Nucleic Acids Symp. Ser. 31, 163). Ribozymes are purified by gel electrophoresis using general methods or are purified by high pressure liquid chromatography (HPLC; See Usman et al., Synthesis, deprotection, analysis and purification of RNA and ribozymes, filed May 18, 1994, U.S. Ser. No. 08/245,736 Wincott et al., Supra, the totality of which is hereby incorporated herein by reference) and are resuspended in water.

The sequences of the ribozymes that are chemically synthesized, useful in this study, are shown in Tables II to IX. Those in the art will recognize that these sequences are representative only of many more such sequences where the enzymatic portion of the ribozyme (all but the binding arms) is altered to affect activity. Stem-loop IV sequence of hairpin ribozymes listed in for example Table III (5′-CACGUUGUG-3′) can be altered (substitution, deletion, and/or insertion) to contain any sequence, provided a minimum of two base-paired stem structure can form. The sequences listed in Tables II to IX may be formed of ribonucleotides or other nucleotides or non-nucleotides. Such ribozymes are equivalent to the ribozymes described specifically in the Tables.

Optimizing Ribozyme Activity

Ribozyme activity can be optimized as described by Stinchcomb et al., supra. The details will not be repeated here, but include altering the length of the ribozyme binding arms (stems I and III, see FIG. 2c), or chemically synthesizing ribozymes with modifications that prevent their degradation by serum ribonucleases (see e.g., Eckstein et al., International Publication No. WO 92/07065; Perrault et al., 1990 Nature 344, 565; Pieken et al., 1991 Science 253, 314; Usman and Cedergren, 1992 Trends in Biochem. Sci. 17, 334; Usman et al., International Publication No. WO 93/15187; Rossi et al., International Publication No. WO 91/03162; Beigelman et al., 1995 J. Biol. Chem. in press; as well as Sproat, U.S. Pat. No. 5,334,711 which describe various chemical modifications that can be made to the sugar moieties of enzymatic RNA molecules). Modifications which enhance their efficacy in cells, and removal of stem II bases to shorten RNA synthesis times and reduce chemical requirements are desired. (All these publications are hereby incorporated by reference herein).

Sullivan, et al., supra, describes the general methods for delivery of enzymatic RNA molecules. Ribozymes may be administered to cells by a variety of methods known to those familiar to the art, including, but not restricted to, encapsulation in liposomes, by iontophoresis, or by incorporation into other vehicles, such as hydrogels, cyclodextrins, biodegradable nanocapsules, and bioadhesive microspheres. For some indications, ribozymes may be directly delivered ex vivo to cells or tissues with or without the aforementioned vehicles. Alternatively, the RNA/vehicle combination is locally delivered by direct injection or by use of a catheter, infusion pump or stent. Other routes of delivery include, but are not limited to, intravascular, intramuscular, subcutaneous or joint injection, aerosol inhalation, oral (tablet or pill form), topical, systemic, ocular, intraperitoneal and/or intrathecal delivery. More detailed descriptions of ribozyme delivery and administration are provided in Sullivan et al., supra and Draper et al., supra which have been incorporated by reference herein.

Another means of accumulating high concentrations of a ribozyme(s) within cells is to incorporate the ribozyme-encoding sequences into a DNA or RNA expression vector. Transcription of the ribozyme sequences are driven from a promoter for eukaryotic RNA polymerase I (pol I), RNA polymerase II (pol II), or RNA polymerase III (pol III). Transcripts from pol II or pol III promoters will be expressed at high levels in all cells; the levels of a given pol II promoter in a given cell type will depend on the nature of the gene regulatory sequences (enhancers, silencers, etc.) present nearby. Prokaryotic RNA polymerase promoters are also used, providing that the prokaryotic RNA polymerase enzyme is expressed in the appropriate cells (Elroy-Stein and Moss, 1990 Proc. Natl. Acad. Sci. USA, 87, 6743-7; Gao and Huang 1993 Nucleic Acids Res., 21, 2867-72; Lieber et al., 1993 Methods Enzymol., 217, 47-66; Zhou et al., 1990 Mol. Cell. Biol., 10, 4529-37; Thompson et al., 1995 supra). Several investigators have demonstrated that ribozymes or antisese expressed from such promoters can function in mammalian cells (e.g. Kashani-Sabet et al., 1992 Antisense Res. Dev., 2, 3-15; Ojwang et al., 1992 Proc. Natl. Acad. Sci. USA, 89, 10802-6; Chen et al., 1992 Nucleic Acids Res., 20, 4581-9; Yu et al., 1993 Proc. Natl. Acad. Sci. USA, 90, 6340-4; L'Huillier et al., 1992 EMBO J. 11, 4411-8; Lisziewicz et al., 1993 Proc. Natl. Acad. Sci. U.S.A., 90, 8000-4; Thompson et al., 1995 Nucleic Acids Res. 23, 2259). The above ribozyme transcription units can be incorporated into a variety of vectors for introduction into mammalian cells, including but not restricted to, plasmid DNA vectors, viral DNA vectors (such as adenovirus or adeno-associated virus vectors), or viral RNA vectors (such as retroviral or alphavirus vectors).

In a preferred embodiment of the invention, a transcription unit expressing a ribozyme that cleaves RNAs that encode fit-1, KDR and/or flk-1 are inserted into a plasmid DNA vector or an adenovirus or adeno-associated virus DNA viral vector or a retroviral RNA vector. Viral vectors have been used to transfer genes and lead to either transient or long term gene expression (Zabner et al., 1993 Cell 75, 207; Carter, 1992 Curr. OPi. Biotech. 3, 533). The adenovirus, MV or retroviral vector is delivered as recombinant viral particles. The DNA may be delivered alone or complexed with vehicles (as described for RNA above). The recombinant adenovirus or MV or retroviral particles are locally administered to the site of treatment, e.g., through incubation or inhalation in vivo or by direct application to cells or tissues ex vivo. Retroviral vectors have also been used to express ribozymes in mammalian cells (Ojwang et al., 1992 supra; Thompson et al., 1995 supra).

fit-1, KDR and/or flk-1 are attractive nucleic acid-based therapeutic targets by several criteria. The interaction between VEGF and VEGF-R is well-established. Efficacy can be tested in well-defined and predictive animal models. Finally, the disease conditions are serious and current therapies are inadequate. Whereas protein-based therapies would inhibit VEGF activity nucleic acid-based therapy provides a direct and elegant approach to directly modulate fit-1, KDR and/or flk-1 expression.

Because fit-1 and KDR mRNAs are highly homologous in certain regions, some ribozyme target sites are also homologous (see Table X). In this case, a single ribozyme will target both fit-1 and KDR mRNAs. At partially homologous sites, a single ribozyme can sometimes be designed to accomodate a site on both mRNAs by including G/U basepairing. For example, if there is a G present in a ribozyme target site in KDR mRNA at the same position there is an A in the fit-1 ribozyme target site, the ribozyme can be synthesized with a U at the complementary position and it will bind both to sites. The advantage of one ribozyme that targets both VEGF-R mRNAs is clear, especially in cases where both VEGF receptors may contribute to the progression of angiogenesis in the disease state.

“Angiogenesis” refers to formation of new blood vessels which is an essential process in reproduction, development and wound repair. “Tumor angiogenesis” refers to the induction of the growth of blood vessels from surrounding tissue into a solid tumor. Tumor growth and tumor metastasis are dependent on angiogenesis (for a review see Folkman, 1985 supra; Folkman 1990 J. Natl. Cancer Inst., 82, 4; Folkman and Shing, 1992 J. Biol. Chem. 267, 10931).

Angiogenesis plays an important role in other diseases such as arthritis wherein new blood vessels have been shown to invade the joints and degrade cartilage (Folkman and Shing, supra).

“Retinopathy” refers to inflammation of the retina and/or degenerative condition of the retina which may lead to occlusion of the retina and eventual blindness. In “diabetic retinopathy” angiogenesis causes the capillaries in the retina to invade the vitreous resulting in bleeding and blindness which is also seen in neonatal retinopathy (for a review see Folkman, 1985 supra; Folkman 1990 supra; Folkman and Shing, 1992 supra).

EXAMPLE 1

fit-1. KDR and/or flk-1 ribozymes

By engineering ribozyme motifs applicant has designed several ribozymes directed against fit-1, KDR and/or flk-1 encoded mRNA sequences. These ribozymes were synthesized with modifications that improve their nuclease resistance (Beigelman et al., 1995 J. Biol. Chem. 270, 25702) and enhance their activity in cells. The ability of ribozymes to cleave target sequences in vitro was evaluated essentially as described in Thompson et al., PCT Publication No. WO 93/23057; Draper et al., PCT Publication No. WO 95/04818.

EXAMPLE 2

Effect of ribozymes on the Binding of VEGF to fit-1. KDR and/or flk-1 Receptors

Several common human cell lines are available that express endogenous fit-1, KDR and/or flk-1. fit-1, KDR and/or flk-1 can be detected easily with monoclonal antibodies. Use of appropriate fluorescent reagents and fluorescence-activated cell-sorting (FACS) will permit direct quantitation of surface fit-1, KDR and/or flk-1 on a cell-by-cell basis. Active ribozymes are expected to directly reduce fit-1, KDR and/or flk-1 expression and thereby reduce VEGF binding to the cells. In this example, human umbelical cord microvascular endothelial cells were used.

Cell Preparation:

Plates are coated with 1.5% gelatin and allowed to stand for one hour. Cells (e.g., microvascular endothelial cells derived from human umbilical cord vein) are plated at 20,000 cells/well (24 well plate) in 200 μl growth media and incubated overnight (−1 doubling) to yield ˜40,000 cells (75-80% confluent).

Ribozyme Treatment:

Media is removed from cells and the cells are washed two times with 300 μl 1× PBS: Ca²⁺: Mg²⁺ mixture. A complex of 200-500 nM ribozyme and LipofectAMINE® (3:1 lipid:phosphate ratio) in 200 μl OptiMEM® (5% FBS) was added to the cells. The cells are incubated for 6 hr (equivalent to 2-3 VEGF-R turnovers).

¹²⁵I VEGF Binding Assay:

The assay is carried out on ice to inhibit internalization of VEGF during the experiment. The media containing the ribozyme is removed from the cells and the cells are washed twice with with 300 μl 1×PBS: Ca²⁺: Mg²⁺ mixture containing 1% BSA. Appropriate ¹²⁵I VEGF solution (100,000 cpm/well, +/−10× cold 1×PBS, 1% BSA) was applied to the cells. The cells are incubated on ice for 1 h. ¹²⁵I VEGF-containing solution is removed and the cells are washed three times with with 300 μl 1×PBS: Ca²⁺: Mg²⁺ mixture containing 1% BSA. To each well 300 μl of 100 mM Tris-HCl, pH 8.0, 0.5% Triton X-100 was added and the the mixture was incubated for 2 min. The ¹²⁵I VEGF-binding was quantitated using standard scintillation counting techniques.

Percent inhibition was calculated as follows: $\mathrm{Percent}\mathrm{Inhibition}=\frac{{\mathrm{cpm}}^{125}❘\mathrm{VEGF}\mathrm{bound}\mathrm{by}\mathrm{the}\mathrm{ribozyme}\text{-}\mathrm{treated}\mathrm{samples}}{{\mathrm{cpm}}^{125}❘\mathrm{VEGF}\mathrm{bound}\mathrm{by}\mathrm{the}\mathrm{Control}\mathrm{sample}}\times 100$

EXAMPLE 3

Effect of Hammerhead Ribozymes Targeted Against fit-1 receptor on the Binding of VEGF

Hammerhead ribozymes targeted to twenty sites within fit-1 RNA were synthesized as described above. Sequence of the ribozymes used are shown in Table II; the length of stem II region is 3 bp. The hammerhead ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions; U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions; four nucleotides at the 5′ terminus contains phosphorothioate substitutions. Additionally, 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic ribose.

Referring to FIG. 7, the effect of hammerhead ribozymes targeted against fit-1 receptor on the binding of VEGF to fit-1 on the surface of human microvascular endothelial cells is shown. The majority of the ribozymes tested were able to inhibit the expression of fit-1 and thereby were able to inhibit the binding of VEGF. In order to determine the specificity of ribozymes targeted against fit-1 RNA, the effect of five anti-fit-1 ribozymes on the binding of VEGF, UPA (urokinase plasminogen activator) and FGF (fibroblast growth factor) to their corresponding receptors were assayed. As shown in FIG. 9, there was significant inhibition of VEGF binding to its receptors on cells treated with anti-fit-1 ribozymes. There was no specific inhibition of the binding of UPA and FGF to their corresponding receptors. These data strongly suggest that anti-fit-1 ribozymes specifically cleave fit-1 RNA and not RNAs encoding the receptors for UPA and FGF, resulting in the inhibition of fit-1 receptor expression on the surface of the cells. Thus the ribozymes are responsible for the inhibition of VEGF binding but not the binding of UPA and FGF.

EXAMPLE 4

Effect of Hammerhead Ribozymes Targeted Against KDR Receptor on the Binding of VEGF

Hammerhead ribozymes targeted to twenty one sites within KDR RNA were synthesized as described above. Sequence of the ribozymes used are shown in Table IV; the length of stem II region is 3 bp. The hammerhead ribozymes were chemically modified such that the ribozyme consists of ribose residues at five positions; U4 and U7 positions contain 2′-NH₂ modifications, the remaining nucleotide positions contain 2′-O-methyl substitutions; four nucleotides at the 5′ terminus contains phosphorothioate substitutions. Additionally, the 3′ end of the ribozyme contains a 3′-3′ linked inverted abasic deoxyribose.

Referring to FIG. 8, the effect of hammerhead ribozymes targeted against KDR receptor on the binding of VEGF to KDR on the surface of human microvascular endothelial cells is shown. A majority of the ribozymes tested were able to inhibit the expression of KDR and thereby were able to inhibit the binding of VEGF. As a control, the cells were treated with a ribozyme that is not targeted towards KDR RNA (irrel. RZ); there was no specific inhibition of VEGF binding. The results from this control experiment strongly suggest that the inhibition of VEGF binding observed with anti-KDR ribozymes is a ribozyme-mediated inhibition.

EXAMPLE 5

Effect of Ribozymes Targeted Against VEGF Receptors on Cell Proliferation

Cell Preparation:

24-well plates are coated with 1.5% gelatin (porcine skin 300 bloom). After 1 hr, excess gelatin is washed off of the plate. Microvascular endothelial cells are plated at 5,000 cells/well (24 well plate) in 200 p I growth media. The cells are allowed to grow for ˜18 hr (˜1 doubling) to yield ˜10,000 cells (25-30% confluent).

Ribozyme Treatment:

Media is removed from the cells, and the cells are washed two times with 300 p I 1×PBS: Ca²⁺: Mg²⁺ mixture.

For anti-fit-1 HH ribozyme experiment (FIG. 12) a complex of 500 nM ribozyme; 15 μM LFA (3:1 lipid:phosphate ratio) in 200 μl OptiMEM (5% FCS) media was added to the cells. Incubation of cells is carried out for 6 hr (equivalent to 2-3 VEGF receptor turnovers).

For anti-KDR HH ribozyme experiment (FIG. 13) a complex of 200 nM ribozyme; 5.25 μM LFA (3:1 lipid:phosphate ratio) in 200 μl OptiMEM (5% FCS) media was added to the cells. Incubation of cells is carried out for 3 hr.

Proliferation:

After three or six hours, the media is removed from the cells and the cells are washed with 300 μl 1×PBS: Ca²⁺: Mg²⁺ mixture. Maintenance media (contains dialyzed 10% FBS)+/−VEGF or basic FGF at 10 ng/ml is added to the cells. The cells are incubated for 48 or 72 h. The cells are trypsinized and counted (Coulter counter). Trypan blue is added on one well of each treatment as control.

As shown in FIG. 12B, VEGF and basic FGF can stimulate human microvascular endothelial cell proliferation. However, treatment of cells with 1358 HH or 4229 HH ribozymes, targeted against fit-1 mRNA, results in a significant decrease in the ability of VEGF to stimulate endothelial cell proliferation. These ribozymes do not inhibit the FGF-mediated stimulation of endothelial cell proliferation.

Human microvascular endothalial cells were also treated with hammerhead ribozymes targeted against sites 527, 730, 3702 or 3950 within the KDR mRNA. As shown in FIG. 13, all four ribozymes caused significant inhibition of VEGF-mediated induction of cell proliferation. No significant inhibition of cell proliferation was observed when the cells were treated with a hammerhead ribozyme targeted to an irrelevant RNA. Additionally, none of the ribozymes inhibited FGF-mediated stimulation of cell proliferation.

These results strongly suggest that hammerhead ribozymes targeted against either fit-1 or KDR mRNA can specifically inhibit VEGF-mediated induction of endothelial cell proliferation.

EXAMPLE 6

Effect of Antisense Oligonucleotides Targeted Against VEGF Receptors on Cell Proliferation (Colorimetric Assay)

Following are some of the reagents used in the proliferation assay:

Cells: Human aortic endothelial cells (HAEC) from Clonetics®. Cells at early passage are preferably used.

Uptake Medium: EBM (from Clonetics®); 1% L-Glutamine; 20 mM Hepes; No serum; No antibiotics.

Growth Medium: EGM (from Clonetics®); FBS to 20%; 1% L-Glutamine; 20 mM Hepes.

Cell Plating: 96-well tissue culture plates are coated with 0.2% gelatin (50 μl/well). The gelatin is incubated in the wells at room temperature for 15-30 minutes. The gelatin is removed by aspiration and the wells are washed with PBS:Ca²⁺: Mg²⁺ mixture. PBS mixture is left in the wells until cells are ready to be added. HAEC cells were detached by trypsin treatment and resuspended at 1.25×10⁴/ml in growth medium. PBS is removed from plates and 200 μl of cells (i.e. 2.5×10³ cells/well) are added to each well. The cells are allowed to grow for 48 hours before the proliferation assay.

Assay: Growth medium is removed from the wells. The cells are washed twice with PBS:Ca²⁺: Mg²⁺ mixture without antibiotics. A formulation of lipid/antisense oligonucleotide (antisense oligonucleotide is used here as a non-limiting example) complex is added to each well (100 μl/well) in uptake medium. The cells are incubated for 2-3 hours at 37° C. in CO₂ incubator. After uptake, 100 μl/well of growth medium is added (gives final FBS concentration of 10%). After approximately 72 hours, 40 μl MTS® stock solution (made as described by manufacturer) was added to each well and incubated at 37° C. for 1-3 hours, depending on the color development. (For this assay, 2 hours was sufficient). The intensity of color formation was determined on a plate reader at 490 nM.

Phosphorothioate-substituted antisense oligodeoxynucleotides were custom synthesized by The Midland Certified Reagent Company®, Midland, Tex. Following non-limiting antisense oligodeoxynucleotides targeted against KDR RNA were used in the proliferation assay:

KDR 21 AS:
(SEQ ID NO. 8230)
5′-GCA GCA CCT TGC TCT CCA TCC-3′
SCRAMBLED CONTROL:
(SEQ ID NO. 8231)
5′-CTG CCA ACT TCC CAT GCC TGC-3′

As shown in FIG. 10, proliferation of HAEC cells are specifically inhibited by increasing concentrations of the phosphorothioate anti-KDR-antisense oligodeoxynucleotide. The scrambled antisense oligonucleotide is not expected to bind the KDR RNA and therefore is not expected to inhibit KDR expression. As expected, there is no detectable inhibition of proliferation of HAEC cells treated with a phosphorothioate antisense oligonucleotide with scrambled sequence.

EXAMPLE 7

In Vitro Cleavage of fit-1 RNA by Hammerhead Ribozymes

Referring to FIG. 11A, hammerhead ribozymes (HH) targeted against sites 1358 and 4229 within the fit-1 RNA were synthesized as described above.

RNA Cleavage Assay In Vitro:

Substrate RNA was 5′ end-labeled using [γ-³²P] ATP and T4 polynucleotide kinase (US Biochemicals). Cleavage reactions were carried out under ribozyme “excess” conditions. Trace amount (≦1 nM) of 5′ end-labeled substrate and 40 nM unlabeled ribozyme were denatured and renatured separately by heating to 90° C. for 2 min and snap-cooling on ice for 10-15 min. The ribozyme and substrate were incubated, separately, at 37° C. for 10 min in a buffer containing 50 mM Tris-HCl and 10 mM MgCl2. The reaction was initiated by mixing the ribozyme and substrate solutions and incubating at 37° C. Aliquots of 5 μl are taken at regular intervals of time and the reaction is quenched by mixing with equal volume of 2× formamide stop mix. The samples are resolved on 20% denaturing polyacrylamide gels. The results were quantified and percentage of target RNA cleaved is plotted as a function of time.

Referring to FIG. 11B and 11C, hammerhead ribozymes targeted against sites 1358 and 4229 within the fit-1 RNA are capable of cleaving target RNA efficiently in vitro.

EXAMPLE 8

In Vitro Cleavage of KDR RNA by Hammerhead Ribozymes

In this non-limiting example, hammerhead ribozymes targeted against sites 726, 527, 3702 and 3950 within KDR RNA were synthesized as described above. RNA cleavage reactions were carried out in vitro essentially as described under Example 7.

Referring to FIGS. 14 and 15, all four ribozymes were able to cleave their cognate target RNA efficiently in a sequence-specific manner.

EXAMPLE 9

In Vitro Cleavage of RNA by Hammerhead Ribozymes Targeted Against Cleavage Sites that are Homologous between KDR and fit-1 mRNA

Because fit-1 and KDR mRNAs are highly homologous in certain regions, some ribozyme target sites are also homologous (see Table X). In this case, a single ribozyme will target both fit-1 and KDR mRNAs. Hammerhead ribozyme (FLT/KDR-1) targeted against one of the homologous sites between fit-1 and KDR (fit-1 site 3388 and KDR site 3151) was synthesized as described above. Ribozymes with either a 3 bp stem II or a 4 bp stem II were synthesized. RNA cleavage reactions were carried out in vitro essentially as described under Example 7.

Referring to FIG. 16, FLT/KDR-1 ribozyme with either a 3 or a 4 bp stem II was able to cleave its target RNA efficiently in vitro.

EXAMPLE 10

Effect of Multiple Ribozymes Targeted Against both fit-1 and KDR RNA on Cell Proliferation

Since both fit-1 and KDR receptors of VEGF are involved in angiogenesis, the inhibition of the expression of both of these genes may be an effective approach to inhibit angiogenesis.

Human microvascular endothalial cells were treated with hammerhead ribozymes targeted against sites fit-1 4229 alone, KDR 527 alone, KDR 726 alone, KDR 3950 alone, fit-1 4229+KDR 527, fit-1 4229+KDR 726 or fit-1 4229+KDR 3950. As shown in FIG. 17, all the combinations of active ribozymes (A) caused significant inhibition of VEGF-mediated induction of cell proliferation. No significant inhibition of cell proliferation was observed when the cells were treated with a catalytically inactive (I) hammerhead ribozymes. Additionally, cells treated with ribozymes targeted against both fit-1 and KDR RNAs-fit-1 4229+KDR 527; fit-1 4229+KDR 726; fit-1 4229+KDR 3950, were able to cause a greater inhibition of VEGF-mediated induction of cell proliferation when compared with individual ribozymes targeted against either fit-1 or KDR RNA (see fit-1 4229 alone; KDR 527 alone; KDR 726 alone; KDR 3950 alone). This strongly suggests that treatment of cells with multiple ribozymes may be a more effective means of inhibition of gene expression.

Animal Models

There are several animal models in which the anti-angiogenesis effect of nucleic acids of the present invention, such as ribozymes, directed against VEGF-R mRNAs can be tested. Typically a corneal model has been used to study angiogenesis in rat and rabbit since recruitment of vessels can easily be followed in this normally avascular tissue (Pandey et al., 1995 Science 268: 567-569). In these models, a small Teflon or Hydron disk pretreated with an angiogenesis factor (e.g. bFGF or VEGF) is inserted into a pocket surgically created in the cornea. Angiogenesis is monitored 3 to 5 days later. Ribozymes directed against VEGF-R mRNAs would be delivered in the disk as well, or dropwise to the eye over the time course of the experiment. In another eye model, hypoxia has been shown to cause both increased expression of VEGF and neovascularization in the retina (Pierce et al., 1995 Proc. Natl. Acad. Sci. USA. 92: 905-909; Shweiki et al., 1992 J. Clin. Invest. 91: 2235-2243).

In human glioblastomas, it has been shown that VEGF is at least partially responsible for tumor angiogenesis (Plate et al., 1992 Nature 359, 845). Animal models have been developed in which glioblastoma cells are implanted subcutaneously into nude mice and the progress of tumor growth and angiogenesism is studied (Kim et al., 1993 supra; Millauer et al., 1994 supra).

Another animal model that addresses neovascularization involves Matrigel, an extract of basement membrane that becomes a solid gel when injected subcutaneously (Passaniti et al., 1992 Lab. Invest. 67: 519-528). When the Matrigel is supplemented with angiogenesis factors such as VEGF, vessels grow into the Matrigel over a period of 3 to 5 days and angiogenesis can be assessed. Again, ribozymes directed against VEGF-R mRNAs would be delivered in the Matrigel.

Several animal models exist for screening of anti-angiogenic agents. These include corneal vessel formation following corneal injury (Burger et al., 1985 Cornea 4: 35-41; Lepri, et al., 1994 J. Ocular Pharmacol. 10: 273-280; Ormerod et al., 1990 Am. J. Pathol. 137: 1243-1252) or intracorneal growth factor implant (Grant et al., 1993 Diabetologia 36: 282-291; Pandey et al. 1995 supra; Zieche et al., 1992 Lab. Invest. 67: 711-715), vessel growth into Matrigel matrix containing growth factors (Passaniti et al., 1992 supra), female reproductive organ neovascularization following hormonal manipulation (Shweiki et al., 1993 Clin. Invest. 91: 2235-2243), several models involving inhibition of tumor growth in highly vascularized solid tumors (O'Reilly et al., 1994 Cell 79: 315-328; Senger et al., 1993 Cancer and Metas. Rev. 12: 303-324; Takahasi et al., 1994 Cancer Res. 54: 4233-4237; Kim et al., 1993 supra), and transient hypoxia-induced neovascularization in the mouse retina (Pierce et al., 1995 Proc. Natl. Acad. Sci. USA. 92: 905-909).

The cornea model, described in Pandey et al. supra, is the most common and well characterized anti-angiogenic agent efficacy screening model. This model involves an avascular tissue into which vessels are recruited by a stimulating agent (growth factor, thermal or alkalai burn, endotoxin). The corneal model would utilize the intrastromal corneal implantation of a Teflon pellet soaked in a VEGF-Hydron solution to recruit blood vessels toward the pellet which can be quantitated using standard microscopic and image analysis techniques. To evaluate their anti-angiogenic efficacy, ribozymes are applied topically to the eye or bound within Hydron on the Teflon pellet itself. This avascular cornea as well as the Matrigel (see below) provide for low background assays. While the corneal model has been performed extensively in the rabbit, studies in the rat have also been conducted.

The mouse model (Passaniti et al., supra) is a non-tissue model which utilizes Matrigel, an extract of basement membrane (Kleinman et al., 1986) or Millipore® filter disk, which can be impregnated with growth factors and anti-angiogenic agents in a liquid form prior to injection. Upon subcutaneous administration at body temperature, the Matrigel or Millipore® filter disk forms a solid implant. VEGF embedded in the Matrigel or Millipore® filter disk would be used to recruit vessels within the matrix of the Matrigel or Millipore® filter disk which can be processed histologically for endothelial cell specific vWF (factor VIII antigen) immunohistochemistry, Trichrome-Masson stain, or hemoglobin content. Like the cornea, the Matrigel or Millipore® filter disk are avascular; however, it is not tissue. In the Matrigel or Millipore® filter disk model, ribozymes are administered within the matrix of the Matrigel or Millipore® filter disk to test their anti-angiogenic efficacy. Thus, delivery issues in this model, as with delivery of ribozymes by Hydron-coated Teflon pellets in the rat cornea model, may be less problematic due to the homogeneous presence of the ribozyme within the respective matrix.

These models offer a distinct advantage over several other angiogenic models listed previously. The ability to use VEGF as a pro-angiogenic stimulus in both models is highly desirable since ribozymes will target only VEGFr mRNA. In other words, the involvement of other non-specific types of stimuli in the cornea and Matrigel models is not advantageous from the standpoint of understanding the pharmacologic mechanism by which the anti-VEGFr mRNA ribozymes produce their effects. In addition, the models will allow for testing the specificity of the anti-VEGFr mRNA ribozymes by using either a- or bFGF as a pro-angiogenic factor. Vessel recruitment using FGF should not be affected in either model by anti-VEGFr mRNA ribozymes. Other models of angiogenesis including vessel formation in the female reproductive system using hormonal manipulation (Shweiki et al., 1993 supra); a variety of vascular solid tumor models which involve indirect correltations with angiogenesis (O'Reilly et al., 1994 supra; Senger et al., 1993 supra; Takahasi et al., 1994 supra; Kim et al., 1993 supra); and retinal neovascularization following transient hypoxia (Pierce et al., 1995 supra) were not selected for efficacy screening due to their non-specific nature, although there is a correlation between VEGF and angiogenesis in these models.

Other model systems to study tumor angiogenesis is reviewed by Folkman, 1985 Adv. Cancer. Res. 43, 175.

fit-1, KDR and/or flk-1 protein levels can be measured clinically or experimentally by FACS analysis. fit-1, KDR and/or flk-1 encoded mRNA levels will be assessed by Northern analysis, RNase-protection, primer extension analysis and/or quantitative RT-PCR. Ribozymes that block fit-1, KDR and/or fik-1 protein encoding mRNAs and therefore result in decreased levels of fit-1, KDR and/or flk-1 activity by more than 20% in vitro will be identified.

Ribozymes and/or genes encoding them are delivered by either free delivery, liposome delivery, cationic lipid delivery, adeno-associated virus vector delivery, adenovirus vector delivery, retrovirus vector delivery or plasmid vector delivery in these animal model experiments (see above).

Patients can be treated by locally administering nucleic acids targeted against VEGF-R by direct injection. Routes of administration may include, but are not limited to, intravascular, intramuscular, subcutaneous, intraarticular, aerosol inhalation, oral (tablet, capsule or pill form), topical, systemic, ocular, intraperitoneal and/or intrathecal delivery.

EXAMPLE 11

Ribozyme-Mediated Inhibition of Angiogenesis In Vivo

The purpose ot this study was to assess the anti-angiogenic activity of hammerhead ribozymes targeted against fit-1 4229 site in the rat cornea model of VEGF induced angiogenesis (see above). These ribozymes have either active or inactive catalytic core and either bind and cleave or just bind to VEGF-R mRNA of the fit-1 subtype. The active ribozymes, that are able to bind and cleave the target RNA, have been shown to inhibit (¹²⁵I-labeled) VEGF binding in cultured endothelial cells and produce a dose-dependent decrease in VEGF induced endothelial cell proliferation in these cells (see Examples 3-5 above). The catalytically inactive forms of these ribozymes, wherein the ribozymes can only bind to the RNA but cannot catalyze RNA cleavage, fail to show these characteristics. The ribozymes and VEGF were co-delivered using the filter disk method: Nitrocellulose filter disks (Millipore®) of 0.057 diameter were immersed in appropriate solutions and were surgically implanted in rat cornea as described by Pandey et al., supra. This delivery method has been shown to deliver rhodamine-labeled free ribozyme to scleral cells and, in all likelihood cells of the pericorneal vascular plexus. Since the active ribozymes show cell culture efficacy and can be delivered to the target site using the disk method, it is essential that these ribozymes be assessed for in vivo anti-angiogenic activity.

The stimulus for angiogenesis in this study was the treatment of the filter disk with 30 p M VEGF which is implanted within the cornea's stroma. This dose yields reproducible neovascularization stemming from the pericorneal vascular plexus growing toward the disk in a dose-response study 5 days following implant. Filter disks treated only with the vehicle for VEGF show no angiogenic response. The ribozymes was co-adminstered with VEGF on a disk in two different ribozyme concentrations. One concern with the simultaneous administration is that the ribozymes will not be able to inhibit angiogenesis since VEGF receptors can be stimulated. However, we have observed that in low VEGF doses, the neovascular response reverts to normal suggesting that the VEGF stimulus is essential for maintaining the angiogenic response. Blocking the production of VEGF receptors using simultaneous administration of anti-VEGF-R mRNA ribozymes could attenuate the normal neovascularization induced by the filter disk treated with VEGF.

Materials and Methods:

• 1. Stock hammerhead ribozyme solutions:
  • a. fit-1 4229 (786 μM) Active
  • b. fIt-1 4229 (736 μM) Inactive
• 2. Experimantal solutions/groups:
• Group 1 Solution 1 Control VEGF solution: 30 μM in 82 mM Tris base
• Group 2 Solution 2 fit-1 4229 (1 μg/μL) in 30 μM VEGF/82 mM Tris base
• Group 3 Solution 3 fit-1 4229 (10 μg/μL) in 30 μM VEGF/82 mM Tris base
• Group 4 Solution 4 No VEGF, fit-1 4229 (10 μg/μL) in 82 mM Tris base
• Group 5 Solution 5 No VEGF, No ribozyme in 82 mM Tris base
  10 eyes per group, 5 animals (Since they have similar molecular weights, the molar concentrations should be essentially similar).

Each solution (VEGF and RIBOZYMES) were prepared as a 2× solution for 1:1 mixing for final concentrations above, with the exception of solution 1 in which VEGF was 2× and diluted with ribozyme diluent (sterile water).

3. VEGF Solutions

The 2×VEGF solution (60 μM) was prepared from a stock of 0.82 μg/μL in 50 mM Tris base. 200 μL of VEGF stock was concentrated by speed vac to a final volume of 60.8 μL, for a final concentration of 2.7 μg/μL or 60 μM. Six 10 μL aliquots was prepared for daily mixing. 2× solutions for VEGF and Ribozyme was stored at 4° C. until the day of the surgery. Solutions were mixed for each day of surgery. Original 2× solutions was prepared on the day before the first day of the surgery.

4. Surgical Solutions:

Anesthesia:

• • stock ketamine hydrochloride 100 mg/mL
  • stock xylazine hydrochloride 20 mg/mL
  • stock acepromazine 10 mg/mL

Final anesthesia solution: 50 mg/mL ketamine, 10 mg/mL xylazine, and 0.5 mg/mL acepromazine

• • 5% povidone iodine for opthalmic surgical wash
  • 2% lidocaine (sterile) for opthalmic administration (2 drops per eye)
  • sterile 0.9% NaCl for opthalmic irrigation
    5. Surgical Methods:

Standard surgical procedure as described in Pandey et al., supra. Filter disks were incubated in 1 μL of each solution for approximately 30 minutes prior to implantation.

5. Experimental Protocol:

The animal cornea were treated with the treatment groups as described above. Animals were allowed to recover for 5 days after treatment with daily observation (scoring 0-3). On the fifth day animals were euthanized and digital images of each eye was obtained for quantitaion using Image Pro Plus. Quantitated neovascular surface area were analyzed by ANOVA followed by two post-hoc tests including Dunnets and Tukey-Kramer tests for significance at the 95% confidence level. Dunnets provide information on the significance between the differences within the means of treatments vs. controls while Tukey-Kramer provide information on the significance of differences within the means of each group.

Results are graphically represented in FIG. 18. As shown in the figure, fit-1 4229 active hammerhead ribozyme at both concentrations was effective at inhibiting angiogenesis while the inactive ribozyme did not show any significant reduction in angiogenesis. A statistically signifiant reduction in neovascular surface area was observed only with active ribozymes. This result clearly shows that the ribozymes are capable of significantly inhibiting angiogenesis in vivo. Specifically, the mechanism of inhibition appears to be by the binding and cleavage of target RNA by ribozymes.

Diagnostic Uses

Ribozymes of this invention may be used as diagnostic tools to examine genetic drift and mutations within diseased cells or to detect the presence of fit-1, KDR and/or flk-1 RNA in a cell. The close relationship between ribozyme activity and the structure of the target RNA allows the detection of mutations in any region of the molecule which alters the base-pairing and three-dimensional structure of the target RNA. By using multiple ribozymes described in this invention, one may map nucleotide changes which are important to RNA structure and function in vitro, as well as in cells and tissues. Cleavage of target RNAs with ribozymes may be used to inhibit gene expression and define the role (essentially) of specified gene products in the progression of disease. In this manner, other genetic targets may be defined as important mediators of the disease. These experiments will lead to better treatment of the disease progression by affording the possibility of combinational therapies (e.g., multiple ribozymes targeted to different genes, ribozymes coupled with known small molecule inhibitors, or intermittent treatment with combinations of ribozymes and/or other chemical or biological molecules). Other in vitro uses of ribozymes of this invention are well known in the art, and include detection of the presence of mRNAs associated with fit-1, KDR and/or flk-1 □ related condition. Such RNA is detected by determining the presence of a cleavage product after treatment with a ribozyme using standard methodology.

In a specific example, ribozymes which can cleave only wild-type or mutant forms of the target RNA are used for the assay. The first ribozyme is used to identify wild-type RNA present in the sample and the second ribozyme will be used to identify mutant RNA in the sample. As reaction controls, synthetic substrates of both wild-type and mutant RNA will be cleaved by both ribozymes to demonstrate the relative ribozyme efficiencies in the reactions and the absence of cleavage of the “non-targeted” RNA species. The cleavage products from the synthetic substrates will also serve to generate size markers for the analysis of wild-type and mutant RNAs in the sample population. Thus each analysis will require two ribozymes, two substrates and one unknown sample which will be combined into six reactions. The presence of cleavage products will be determined using an RNAse protection assay so that full-length and cleavage fragments of each RNA can be analyzed in one lane of a polyacrylamide gel. It is not absolutely required to quantify the results to gain insight into the expression of mutant RNAs and putative risk of the desired phenotypic changes in target cells. The expression of mRNA whose protein product is implicated in the development of the phenotype (i.e., fit-1, KDR and/or flk-1) is adequate to establish risk. If probes of comparable specific activity are used for both transcripts, then a qualitative comparison of RNA levels will be adequate and will decrease the cost of the initial diagnosis. Higher mutant form to wild-type ratios will be correlated with higher risk whether RNA levels are compared qualitatively or quantitatively.

TABLE II
Human flt1 VEGF Receptor-Hammerhead Ribozyme and Substrate
Sequence
		Seq		Seq
		ID		ID
Pos	Substrate	No	HH Ribozyme	No
10	CGGACACUC CUCUCGGC	1	GCCGAGAG CUGAUGAGGNNNNNNNNCCGAA AGUGUCCG	4157
13	ACACUCCUC UCGGCUCC	2	GGAGCCGA CUGAUGAGGNNNNNNNNCCGAA AGGAGUGU	4158
15	ACUCCUCUC GGCUCCUC	3	GAGGAGCC CUGAUGAGGNNNNNNNNCCGAA AGAGGAGU	4159
20	UCUCGGCUC CUCCCCGG	4	CCGGGGAG CUGAUGAGGNNNNNNNNCCGAA AGCCGAGA	4160
23	CGGCUCCUC CCCGGCAG	5	CUGCCGGG CUGAUGAGGNNNNNNNNCCGAA AGGAGCCG	4161
43	CGGCGGCUC GGAGCGGG	6	CCCGCUCC CUGAUGAGGNNNNNNNNCCGAA AGCCGCCG	4162
54	AGCGGGCUC CGGGGCUC	7	GAGCCCCG CUGAUGAGGNNNNNNNNCCGAA AGCCCGCU	4163
62	CCGGGGCUC GGGUGCAG	8	CUGCACCC CUGAUGAGGNNNNNNNNCCGAA AGCCCCGG	4164
97	GCGAGGAUU ACCCGGGG	9	CCCCGGGU CUGAUGAGGNNNNNNNNCCGAA AUCCUCGC	4165
98	CGAGGAUUA CCCGGGGA	10	UCCCCGGG CUGAUGAGGNNNNNNNNCCGAA AAUCCUCG	4166
113	GAAGUGGUU GUCUCCUG	11	CAGGAGAC CUGAUGAGGNNNNNNNNCCGAA ACCACUUC	4167
116	GUGGUUGUC UCCUGGCU	12	AGCCAGGA CUGAUGAGGNNNNNNNNCCGAA ACAACCAC	4168
118	GGUUGUCUC CUGGCUGG	13	CCAGCCAG CUGAUGAGGNNNNNNNNCCGAA AGACAACC	4169
145	CGGGCGCUC AGGGCGCG	14	CGCGCCCU CUGAUGAGGNNNNNNNNCCGAA AGCGCCCG	4170
185	GACGGACUC UGGCGGCC	15	GGCCGCCA CUGAUGAGGNNNNNNNNCCGAA AGUCCGUC	4171
198	GGCCGGGUC GUUGGCCG	16	CGGCCAAC CUGAUGAGGNNNNNNNNCCGAA ACCCGGCC	4172
201	CGGGUCGUU GGCCGGGG	17	CCCCGGCC CUGAUGAGGNNNNNNNNCCGAA ACGACCCG	4173
240	GGCCGCGUC GCGCUCAC	18	GUGAGCGC CUGAUGAGGNNNNNNNNCCGAA ACGCGGCC	4174
246	GUCGCGCUC ACCAUGGU	19	ACCAUGGU CUGAUGAGGNNNNNNNNCCGAA AGCGCGAC	4175
255	ACCAUGGUC AGCUACUG	20	CAGUAGCU CUGAUGAGGNNNNNNNNCCGAA ACCAUGGU	4176
260	GGUCAGCUA CUGGGACA	21	UGUCCCAG CUGAUGAGGNNNNNNNNCCGAA AGCUGACC	4177
276	ACCGGGGUC CUGCUGUG	22	CACAGCAG CUGAUGAGGNNNNNNNNCCGAA ACCCCGGU	4178
294	GCGCUGCUC AGCUGUCU	23	AGACAGCU CUGAUGAGGNNNNNNNNCCGAA AGCAGCGC	4179
301	UCAGCUGUC UGCUUCUC	24	GAGAAGCA CUGAUGAGGNNNNNNNNCCGAA ACAGCUGA	4180
306	UGUCUGCUU CUCACAGG	25	CCUGUGAG CUGAUGAGGNNNNNNNNCCGAA AGCAGACA	4181
307	GUCUGCUUC UCACAGGA	26	UCCUGUGA CUGAUGAGGNNNNNNNNCCGAA AAGCAGAC	4182
309	CUGCUUCUC ACAGGAUC	27	GAUCCUGU CUGAUGAGGNNNNNNNNCCGAA AGAAGCAG	4183
317	CACAGGAUC UAGUUCAG	28	CUGAACUA CUGAUGAGGNNNNNNNNCCGAA AUCCUGUG	4184
319	CAGGAUCUA GUUCAGGU	29	ACCUGAAC CUGAUGAGGNNNNNNNNCCGAA AGAUCCUG	4185
322	GAUCUAGUU CAGGUUCA	30	UGAACCUG CUGAUGAGGNNNNNNNNCCGAA ACUAGAUC	4186
323	AUCUAGUUC AGGUUCAA	31	UUGAACCU CUGAUGAGGNNNNNNNNCCGAA AACUAGAU	4187
328	GUUCAGGUU CAAAAUUA	32	UAAUUUUG CUGAUGAGGNNNNNNNNCCGAA ACCUGAAC	4188
329	UUCAGGUUC AAAAUUAA	33	UUAAUUUU CUGAUGAGGNNNNNNNNCCGAA AACCUGAA	4189
335	UUCAAAAUU AAAAGAUC	34	GAUCUUUU CUGAUGAGGNNNNNNNNCCGAA AUUUUGAA	4190
336	UCAAAAUUA AAAGAUCC	35	GGAUCUUU CUGAUGAGGNNNNNNNNCCGAA AAUUUUGA	4191
343	UAAAAGAUC CUGAACUG	36	CAGUUCAG CUGAUGAGGNNNNNNNNCCGAA AUCUUUUA	4192
355	AACUGAGUU UAAAAGGC	37	GCCUUUUA CUGAUGAGGNNNNNNNNCCGAA ACUCAGUU	4193
356	ACUGAGUUU AAAAGGCA	38	UGCCUUUU CUGAUGAGGNNNNNNNNCCGAA AACUCAGU	4194
357	CUGAGUUUA AAAGGCAC	39	GUGCCUUU CUGAUGAGGNNNNNNNNCCGAA AAACUCAG	4195
375	CAGCACAUC AUGCAAGC	40	GCUUGCAU CUGAUGAGGNNNNNNNNCCGAA AUGUGCUG	4196
400	CACUGCAUC UCCAAUGC	41	GCAUUGGA CUGAUGAGGNNNNNNNNCCGAA AUGCAGUG	4197
402	CUGCAUCUC CAAUGCAG	42	CUGCAUUG CUGAUGAGGNNNNNNNNCCGAA AGAUGGAG	4198
427	CAGCCCAUA AAUGGUCU	43	AGACCAUU CUGAUGAGGNNNNNNNNCCGAA AUGGGCUG	4199
434	UAAAUGGUC UUUGCCUG	44	CAGGCAAA CUGAUGAGGNNNNNNNNCCGAA ACCAUUUA	4200
436	AAUGGUCUU UGCCUGAA	45	UUCAGGCA CUGAUGAGGNNNNNNNNCCGAA AGACCAUU	4201
437	AUGGUCUUU GCCUGAAA	46	UUUCAGGC CUGAUGAGGNNNNNNNNCCGAA AAGACCAU	4202
454	UGGUGAGUA AGGAAAGC	47	GCUUUCCU CUGAUGAGGNNNNNNNNCCGAA ACUCACCA	4203
477	CUGAGCAUA ACUAAAUC	48	GAUUUAGU CUGAUGAGGNNNNNNNNCCGAA AUGCUCAG	4204
481	GCAUAACUA AAUCUGCC	49	GGCAGAUU CUGAUGAGGNNNNNNNNCCGAA AGUUAUGC	4205
485	AACUAAAUC UGCCUGUG	50	CACAGGCA CUGAUGAGGNNNNNNNNCCGAA AUUUAGUU	4206
512	CAAACAAUU CUGCAGUA	51	UACUGCAG CUGAUGAGGNNNNNNNNCCGAA AUUGUUUG	4207
513	AAACAAUUC UGCAGUAC	52	GUACUGGA CUGAUGAGGNNNNNNNNCCGAA AAUUGUUU	4208
520	UCUGCAGUA CUUUAACC	53	GGUUAAAG CUGAUGAGGNNNNNNNNCCGAA ACUGCAGA	4209
523	GCAGUACUU UAACCUUG	54	CAAGGUUA CUGAUGAGGNNNNNNNNCCGAA AGUACUGC	4210
524	CAGUACUUU AACCUUGA	55	UCAAGGUU CUGAUGAGGNNNNNNNNCCGAA AAGUACUG	4211
525	AGUACUUUA ACCUUGAA	56	UUCAAGGU CUGAUGAGGNNNNNNNNCCGAA AAAGUACU	4212
530	UUUAACCUU GAACACAG	57	CUGUGUUC CUGAUGAGGNNNNNNNNCCGAA AGGUUAAA	4213
541	ACACAGCUC AAGCAAAC	58	GUUUGCUU CUGAUGAGGNNNNNNNNCCGAA AGCUGUGU	4214
560	CACUGGCUU CUACAGCU	59	AGCUGUAG CUGAUGAGGNNNNNNNNCCGAA AGCCAGUG	4215
561	ACUGGCUUC UACAGCUG	60	CAGCUGUA CUGAUGAGGNNNNNNNNCCGAA AAGCCAGU	4216
563	UGGCUUCUA CAGCUGCA	61	UGCAGCUG CUGAUGAGGNNNNNNNNCCGAA AGAAGCCA	4217
575	CUGCAAAUA UCUAGCUG	62	CAGCUAGA CUGAUGAGGNNNNNNNNCCGAA AUUUGCAG	4218
577	GCAAAUAUC UAGCUGUA	63	UACAGCUA CUGAUGAGGNNNNNNNNCCGAA AUAUUUGC	4219
579	AAAUAUCUA GCUGUACC	64	GGUACAGC CUGAUGAGGNNNNNNNNCCGAA AGAUAUUU	4220
585	CUAGCUGUA CCUACUUC	65	GAAGUAGG CUGAUGAGGNNNNNNNNCCGAA ACAGCUAG	4221
589	CUGUACCUA CUUCAAAG	66	CUUUGAAG CUGAUGAGGNNNNNNNNCCGAA AGGUACAG	4222
592	UACCUACUU CAAAGAAG	67	CUUCUUUG CUGAUGAGGNNNNNNNNCCGAA AGUAGGUA	4223
593	ACCUACUUC AAAGAAGA	68	UCUUCUUU CUGAUGAGGNNNNNNNNCCGAA AAGUAGGU	4224
614	AACAGAAUC UGCAAUCU	69	AGAUUGCA CUGAUGAGGNNNNNNNNCCGAA AUUCUGUU	4225
621	UCUGCAAUC UAUAUAUU	70	AAUAUAUA CUGAUGAGGNNNNNNNNCCGAA AUUGCAGA	4226
623	UGCAAUCUA UAUAUUUA	71	UAAAUAUA CUGAUGAGGNNNNNNNNCCGAA AGAUUGCA	4227
625	CAAUCUAUA UAUUUAUU	72	AAUAAAUA CUGAUGAGGNNNNNNNNCCGAA AUAGAUUG	4228
627	AUCUAUAUA UUUAUUAG	73	CUAAUAAA CUGAUGAGGNNNNNNNNCCGAA AUAUAGAU	4229
629	CUAUAUAUU UAUUAGUG	74	CACUAAUA CUGAUGAGGNNNNNNNNCCGAA AUAUAUAG	4230
630	UAUAUAUUU AUUAGUGA	75	UCACUAAU CUGAUGAGGNNNNNNNNCCGAA AAUAUAUA	4231
631	AUAUAUUUA UUAGUGAU	76	AUCACUAA CUGAUGAGGNNNNNNNNCCGAA AAAUAUAU	4232
633	AUAUUUAUU AGUGAUAC	77	GUAUCACU CUGAUGAGGNNNNNNNNCCGAA AUAAAUAU	4233
634	UAUUUAUUA GUGAUACA	78	UGUAUCAC CUGAUGAGGNNNNNNNNCCGAA AAUAAAUA	4234
640	UUAGUGAUA CAGGUAGA	79	UCUACCUG CUGAUGAGGNNNNNNNNCCGAA AUCACUAA	4235
646	AUACAGGUA GACCUUUC	80	GAAAGGUC CUGAUGAGGNNNNNNNNCCGAA ACCUGUAU	4236
652	GUAGACCUU UCGUAGAG	81	CUCUACGA CUGAUGAGGNNNNNNNNCCGAA AGGUCUAC	4237
653	UAGACCUUU CGUAGAGA	82	UCUCUACG CUGAUGAGGNNNNNNNNCCGAA AAGGUCUA	4238
654	AGACCUUUC GUAGAGAU	83	AUCUCUAC CUGAUGAGGNNNNNNNNCCGAA AAAGGUCU	4239
657	CCUUUCGUA GAGAUGUA	84	UACAUCUC CUGAUGAGGNNNNNNNNCCGAA ACGAAAGG	4240
665	AGAGAUGUA CAGUGAAA	85	UUUCACUG CUGAUGAGGNNNNNNNNCCGAA ACAUCUCU	4241
675	AGUGAAAUC CCCGAAAU	86	AUUUCGGG CUGAUGAGGNNNNNNNNCCGAA AUUUCACU	4242
684	CCCGAAAUU AUACACAU	87	AUGUGUAU CUGAUGAGGNNNNNNNNCCGAA AUUUCGGG	4243
685	CCGAAAUUA UACACAUG	88	CAUGUGUA CUGAUGAGGNNNNNNNNCCGAA AAUUUCGG	4244
687	GAAAUUAUA CACAUGAC	89	GUCAUGUG CUGAUGAGGNNNNNNNNCCGAA AUAAUUUC	4245
711	AGGGAGCUC GUCAUUCC	90	GGAAUGAC CUGAUGAGGNNNNNNNNCCGAA AGCUCCCU	4246
714	GAGCUCGUC AUUCCCUG	91	CAGGGAAU CUGAUGAGGNNNNNNNNCCGAA ACGAGCUC	4247
717	CUCGUCAUU CCCUGCCG	92	CGGCAGGG CUGAUGAGGNNNNNNNNCCGAA AUGAGGAG	4248
718	UCGUCAUUC CCUGCCGG	93	CCGGCAGG CUGAUGAGGNNNNNNNNCCGAA AAUGACGA	4249
729	UGCCGGGUU ACGUCACC	94	GGUGACGU CUGAUGAGGNNNNNNNNCCGAA ACCCGGCA	4250
730	GCCGGGUUA CGUCACCU	95	AGGUGACG CUGAUGAGGNNNNNNNNCCGAA AAGCCGGC	4251
734	GGUUACGUC ACCUAACA	96	UGUUAGGU CUGAUGAGGNNNNNNNNCCGAA ACGUAACC	4252
739	CGUCACCUA ACAUCACU	97	AGUGAUGU CUGAUGAGGNNNNNNNNCCGAA AGGUGACG	4253
744	CCUAACAUC ACUGUUAC	98	GUAACAGU CUGAUGAGGNNNNNNNNCCGAA AUGUUAGG	4254
750	AUCACUGUU ACUUUAAA	99	UUUAAAGU CUGAUGAGGNNNNNNNNCCGAA ACAGUGAU	4255
751	UCACUGUUA CUUUAAAA	100	UUUUAAAG CUGAUGAGGNNNNNNNNCCGAA AACAGUGA	4256
754	CUGUUACUU UAAAAAAG	101	CUUUUUUA CUGAUGAGGNNNNNNNNCCGAA AGUAACAG	4257
755	UGUUACUUU AAAAAAGU	102	ACUUUUUU CUGAUGAGGNNNNNNNNCCGAA AAGUAACA	4258
756	GUUACUUUA AAAAAGUU	103	AACUUUUU CUGAUGAGGNNNNNNNNCCGAA AAAGUAAC	4259
764	AAAAAAGUU UCCACUUG	104	CAAGUGGA CUGAUGAGGNNNNNNNNCCGAA ACUUUUUU	4260
765	AAAAAGUUU CCACUUGA	105	UCAAGUGG CUGAUGAGGNNNNNNNNCCGAA AACUUUUU	4261
766	AAAAGUUUC CACUUGAC	106	GUCAAGUG CUGAUGAGGNNNNNNNNCCGAA AAACUUUU	4262
771	UUUCCACUU GACACUUU	107	AAAGUGUC CUGAUGAGGNNNNNNNNCCGAA AGUGGAAA	4263
778	UUGACACUU UGAUCCCU	108	AGGGAUCA CUGAUGAGGNNNNNNNNCCGAA AGUGUCAA	4264
779	UGACACUUU GAUCCCUG	109	CAGGGAUC CUGAUGAGGNNNNNNNNCCGAA AAGUGUCA	4265
783	ACUUUGAUC CCUGAUGG	110	CCAUCAGG CUGAUGAGGNNNNNNNNCCGAA AUCAAAGU	4266
801	AAACGCAUA AUCUGGGA	111	UCCCAGAU CUGAUGAGGNNNNNNNNCCGAA AUGCGUUU	4267
804	CGCAUAAUC UGGGACAG	112	CUGUCCCA CUGAUGAGGNNNNNNNNCCGAA AUUAUGCG	4268
814	GGGACAGUA GAAAGGGC	113	GCCCUUUC CUGAUGAGGNNNNNNNNCCGAA ACUGUCCC	4269
824	AAAGGGCUU CAUCAUAU	114	AUAUGAUG CUGAUGAGGNNNNNNNNCCGAA AGCCCUUU	4270
825	AAGGGCUUC AUCAUAUC	115	GAUAUGAU CUGAUGAGGNNNNNNNNCCGAA AAGCCCUU	4271
828	GGCUUCAUC AUAUCAAA	116	UUUGAUAU CUGAUGAGGNNNNNNNNCCGAA AUGAAGCC	4272
831	UUCAUCAUA UCAAAUGC	117	GCAUUUGA CUGAUGAGGNNNNNNNNCCGAA AUGAUGAA	4273
833	CAUCAUAUC AAAUGCAA	118	UUGCAUUU CUGAUGAGGNNNNNNNNCCGAA AUAUGAUG	4274
845	UGCAACGUA CAAAGAAA	119	UUUCUUUG CUGAUGAGGNNNNNNNNCCGAA ACGUUGCA	4275
855	AAAGAAAUA GGGCUUCU	120	AGAAGCCC CUGAUGAGGNNNNNNNNCCGAA AUUUCUUU	4276
861	AUAGGGCUU CUGACCUG	121	CAGGUCAG CUGAUGAGGNNNNNNNNCCGAA AGCCCUAU	4277
862	UAGGGCUUC UGACCUGU	122	ACAGGUCA CUGAUGAGGNNNNNNNNCCGAA AAGCCCUA	4278
882	GCAACAGUC AAUGGGCA	123	UGCCCAUU CUGAUGAGGNNNNNNNNCCGAA ACUGUUGC	4279
892	AUGGGCAUU UGUAUAAG	124	CUUAUACA CUGAUGAGGNNNNNNNNCCGAA AUGCCCAU	4280
893	UGGGCAUUU GUAUAAGA	125	UCUUAUAC CUGAUGAGGNNNNNNNNCCGAA AAUGCCCA	4281
896	GCAUUUGUA UAAGACAA	126	UUGUCUUA CUGAUGAGGNNNNNNNNCCGAA ACAAAUGC	4282
898	AUUUGUAUA AGACAAAC	127	GUUUGUCU CUGAUGAGGNNNNNNNNCCGAA AUACAAAU	4283
908	GACAAACUA UCUCACAC	128	GUGUGAGA CUGAUGAGGNNNNNNNNCCGAA AGUUUGUC	4284
910	CAAACUAUC UCACACAU	129	AUGUGUGA CUGAUGAGGNNNNNNNNCCGAA AUAGUUUG	4285
912	AACUAUCUC ACACAUCG	130	CGAUGUGU CUGAUGAGGNNNNNNNNCCGAA AGAUAGUU	4286
919	UCACACAUC GACAAACC	131	GGUUUGUC CUGAUGAGGNNNNNNNNCCGAA AUGUGUGA	4287
931	AAACCAAUA CAAUCAUA	132	UAUGAUUG CUGAUGAGGNNNNNNNNCCGAA AUUGGUUU	4288
936	AAUACAAUC AUAGAUGU	133	ACAUCUAU CUGAUGAGGNNNNNNNNCCGAA AUUGUAUU	4289
939	ACAAUCAUA GAUGUCCA	134	UGGACAUC CUGAUGAGGNNNNNNNNCCGAA AUGAUUGU	4290
945	AUAGAUGUC CAAAUAAG	135	CUUAUUUG CUGAUGAGGNNNNNNNNCCGAA ACAUCUAU	4291
951	GUCCAAAUA AGCACACC	136	GGUGUGCU CUGAUGAGGNNNNNNNNCCGAA AUUUGGAC	4292
969	CGCCCAGUC AAAUUACU	137	AGUAAUUU CUGAUGAGGNNNNNNNNCCGAA ACUGGGCG	4293
974	AGUCAAAUU ACUUAGAG	138	CUCUAAGU CUGAUGAGGNNNNNNNNCCGAA AUUUGACU	4294
975	GUCAAAUUA CUUAGAGG	139	CCUCUAAG CUGAUGAGGNNNNNNNNCCGAA AAUUUGAC	4295
978	AAAUUACUU AGAGGCCA	140	UGGCCUCU CUGAUGAGGNNNNNNNNCCGAA AGUAAUUU	4296
979	AAUUACUUA GAGGCCAU	141	AUGGCCUC CUGAUGAGGNNNNNNNNCCGAA AAGUAAUU	4297
988	GAGGCCAUA CUCUUGUC	142	GACAAGAG CUGAUGAGGNNNNNNNNCCGAA AUGGCCUC	4298
991	GCCAUACUC UUGUCCUC	143	GAGGACAA CUGAUGAGGNNNNNNNNCCGAA AGUAUGGC	4299
993	CAUACUCUU GUCCUCAA	144	UUGAGGAC CUGAUGAGGNNNNNNNNCCGAA AGAGUAUG	4300
996	ACUCUUGUC CUCAAUUG	145	CAAUUGAG CUGAUGAGGNNNNNNNNCCGAA ACAAGAGU	4301
999	CUUGUCCUC AAUUGUAC	146	GUACAAUU CUGAUGAGGNNNNNNNNCCGAA AGGACAAG	4302
1003	UCCUCAAUU GUACUGCU	147	AGCAGUAC CUGAUGAGGNNNNNNNNCCGAA AUUGAGGA	4303
1006	UCAAUUGUA CUGCUACC	148	GGUAGCAG CUGAUGAGGNNNNNNNNCCGAA ACAAUUGA	4304
1012	GUACUGCUA CCACUCCC	149	GGGAGUGG CUGAUGAGGNNNNNNNNCCGAA AGCAGUAC	4305
1018	CUACCACUC CCUUGAAC	150	GUUCAAGG CUGAUGAGGNNNNNNNNCCGAA AGUGGUAG	4306
1022	CACUCCCUU GAACACGA	151	UCGUGUUC CUGAUGAGGNNNNNNNNCCGAA AGGGAGUG	4307
1035	ACGAGAGUU CAAAUGAC	152	GUCAUUUG CUGAUGAGGNNNNNNNNCCGAA ACUCUCGU	4308
1036	CGAGAGUUC AAAUGACC	153	GGUCAUUU CUGAUGAGGNNNNNNNNCCGAA AACUCUCG	4309
1051	CCUGGAGUU ACCCUGAU	154	AUCAGGGU CUGAUGAGGNNNNNNNNCCGAA ACUCCAGG	4310
1052	CUGGAGUUA CCCUGAUG	155	CAUCAGGG CUGAUGAGGNNNNNNNNCCGAA AACUCCAG	4311
1069	AAAAAAAUA AGAGAGCU	156	AGCUCUCU CUGAUGAGGNNNNNNNNCCGAA AUUUUUUU	4312
1078	AGAGAGCUU CCGUAAGG	157	CCUUACGG CUGAUGAGGNNNNNNNNCCGAA AGCUCUCU	4313
1079	GAGAGCUUC CGUAAGGC	158	GCCUUACG CUGAUGAGGNNNNNNNNCCGAA AAGCUCUC	4314
1083	GCUUCCGUA AGGCGACG	159	CGUCGCCU CUGAUGAGGNNNNNNNNCCGAA ACGGAAGC	4315
1095	CGACGAAUU GACCAAAG	160	CUUUGGUC CUGAUGAGGNNNNNNNNCCGAA AUUCGUCG	4316
1108	AAAGCAAUU CCCAUGCC	161	GGCAUGGG CUGAUGAGGNNNNNNNNCCGAA AUUGCUUU	4317
1109	AAGCAAUUC CCAUGCCA	162	UGGCAUGG CUGAUGAGGNNNNNNNNCCGAA AAUUGCUU	4318
1122	GCCAACAUA UUCUACAG	163	CUGUAGAA CUGAUGAGGNNNNNNNNCCGAA AUGUUGGC	4319
1124	CAACAUAUU CUACAGUG	164	CACUGUAG CUGAUGAGGNNNNNNNNCCGAA AUAUGUUG	4320
1125	AACAUAUUC UACAGUGU	165	ACACUGUA CUGAUGAGGNNNNNNNNCCGAA AAUAUGUU	4321
1127	CAUAUUCUA CAGUGUUC	166	GAACACUG CUGAUGAGGNNNNNNNNCCGAA AGAAUAUG	4322
1134	UACAGUGUU CUUACUAU	167	AUAGUAAG CUGAUGAGGNNNNNNNNCCGAA ACACUGUA	4323
1135	ACAGUGUUC UUACUAUU	168	AAUAGUAA CUGAUGAGGNNNNNNNNCCGAA AACACUGU	4324
1137	AGUGUUCUU ACUAUUGA	169	UCAAUAGU CUGAUGAGGNNNNNNNNCCGAA AGAACACU	4325
1138	GUGUUCUUA CUAUUGAC	170	GUCAAUAG CUGAUGAGGNNNNNNNNCCGAA AAGAACAC	4326
1141	UUCUUACUA UUGACAAA	171	UUUGUCAA CUGAUGAGGNNNNNNNNCCGAA AGUAAGAA	4327
1143	CUUACUAUU GACAAAAU	172	AUUUUGUC CUGAUGAGGNNNNNNNNCCGAA AUAGUAAG	4328
1173	AAAGGACUU UAUACUUG	173	CAAGUAUA CUGAUGAGGNNNNNNNNCCGAA AGUCCUUU	4329
1174	AAGGACUUU AUACUUGU	174	ACAAGUAU CUGAUGAGGNNNNNNNNCCGAA AAGUCCUU	4330
1175	AGGACUUUA UACUUGUC	175	GACAAGUA CUGAUGAGGNNNNNNNNCCGAA AAAGUCCU	4331
1177	GACUUUAUA CUUGUCGU	176	ACGACAAG CUGAUGAGGNNNNNNNNCCGAA AUAAAGUC	4332
1180	UUUAUACUU GUCGUGUA	177	UACACGAC CUGAUGAGGNNNNNNNNCCGAA AGUAUAAA	4333
1183	AUACUUGUC GUGUAAGG	178	CCUUACAC CUGAUGAGGNNNNNNNNCCGAA ACAAGUAU	4334
1188	UGUCGUGUA AGGAGUGG	179	CCACUCCU CUGAUGAGGNNNNNNNNCCGAA ACACGACA	4335
1202	UGGACCAUC AUUCAAAU	180	AUUUGAAU CUGAUGAGGNNNNNNNNCCGAA AUGGUCCA	4336
1205	ACCAUCAUU CAAAUCUG	181	CAGAUUUG CUGAUGAGGNNNNNNNNCCGAA AUGAUGGU	4337
1206	CCAUCAUUC AAAUCUGU	182	ACAGAUUU CUGAUGAGGNNNNNNNNCCGAA AAUGAUGG	4338
1211	AUUCAAAUC UGUUAACA	183	UGUUAACA CUGAUGAGGNNNNNNNNCCGAA AUUUGAAU	4339
1215	AAAUCUGUU AACACCUC	184	GAGGUGUU CUGAUGAGGNNNNNNNNCCGAA ACAGAUUU	4340
1216	AAUCUGUUA ACACCUCA	185	UGAGGUGU CUGAUGAGGNNNNNNNNCCGAA AACAGAUU	4341
1223	UAACACCUC AGUGCAUA	186	UAUGCACU CUGAUGAGGNNNNNNNNCCGAA AGGUGUUA	4342
1231	CAGUGCAUA UAUAUGAU	187	AUCAUAUA CUGAUGAGGNNNNNNNNCCGAA AUGCACUG	4343
1233	GUGCAUAUA UAUGAUAA	188	UUAUCAUA CUGAUGAGGNNNNNNNNCCGAA AUAUGCAC	4344
1235	GCAUAUAUA UGAUAAAG	189	CUUUAUCA CUGAUGAGGNNNNNNNNCCGAA AUAUAUGC	4345
1240	UAUAUGAUA AAGCAUUC	190	GAAUGCUU CUGAUGAGGNNNNNNNNCCGAA AUCAUAUA	4346
1247	UAAAGCAUU CAUCACUG	191	CAGUGAUG CUGAUGAGGNNNNNNNNCCGAA AUGCUUUA	4347
1248	AAAGCAUUC AUCACUGU	192	ACAGUGAU CUGAUGAGGNNNNNNNNCCGAA AAUGCUUU	4348
1251	GCAUUCAUC ACUGUGAA	193	UUCACAGU CUGAUGAGGNNNNNNNNCCGAA AUGAAUGC	4349
1264	UGAAACAUC GAAAACAG	194	CUGUUUUC CUGAUGAGGNNNNNNNNCCGAA AUGUUUCA	4350
1281	CAGGUGCUU GAAACCGU	195	ACGGUUUC CUGAUGAGGNNNNNNNNCCGAA AGCACCUG	4351
1290	GAAACCGUA GCUGGCAA	196	UUGCCAGC CUGAUGAGGNNNNNNNNCCGAA ACGGUUUC	4352
1304	CAAGCGGUC UUACCGGC	197	GCCGGUAA CUGAUGAGGNNNNNNNNCCGAA ACCGCUUG	4353
1306	AGCGGUCUU ACCGGCUC	198	GAGCCGGU CUGAUGAGGNNNNNNNNCCGAA AGACCGCU	4354
1307	GCGGUCUUA CCGGCUCU	199	AGAGCCGG CUGAUGAGGNNNNNNNNCCGAA AAGACCGC	4355
1314	UACCGGCUC UCUAUGAA	200	UUCAUAGA CUGAUGAGGNNNNNNNNCCGAA AGCCGGUA	4356
1316	CCGGCUCUC UAUGAAAG	201	CUUUCAUA CUGAUGAGGNNNNNNNNCCGAA AGAGCCGG	4357
1318	GGCUCUCUA UGAAAGUG	202	CACUUUCA CUGAUGAGGNNNNNNNNCCGAA AGAGAGCC	4358
1334	GAAGGCAUU UCCCUCGC	203	GCGAGGGA CUGAUGAGGNNNNNNNNCCGAA AUGCCUUC	4359
1335	AAGGCAUUU CCCUCGCC	204	GGCGAGGG CUGAUGAGGNNNNNNNNCCGAA AAUGCCUU	4360
1336	AGGCAUUUC CCUCGCCG	205	CGGCGAGG CUGAUGAGGNNNNNNNNCCGAA AAAUGCCU	4361
1340	AUUUCCCUC GCCGGAAG	206	CUUCCGGC CUGAUGAGGNNNNNNNNCCGAA AGGGAAAU	4362
1350	CCGGAAGUU GUAUGGUU	207	AACCAUAC CUGAUGAGGNNNNNNNNCCGAA ACUUCCGG	4363
1353	GAAGUUGUA UGGUUAAA	208	UUUAACCA CUGAUGAGGNNNNNNNNCCGAA ACAACUUC	4364
1358	UGUAUGGUU AAAAGAUG	209	CAUCUUUU CUGAUGAGGNNNNNNNNCCGAA ACCAUACA	4365
1359	GUAUGGUUA AAAGAUGG	210	CCAUCUUU CUGAUGAGGNNNNNNNNCCGAA AACCAUAC	4366
1370	AGAUGGGUU ACCUGCGA	211	UCGCAGGU CUGAUGAGGNNNNNNNNCCGAA ACCCAUCU	4367
1371	GAUGGGUUA CCUGCGAC	212	GUCGCAGG CUGAUGAGGNNNNNNNNCCGAA AACCCAUC	4368
1388	UGAGAAAUC UGCUCGCU	213	AGCGAGCA CUGAUGAGGNNNNNNNNCCGAA AUUUCUCA	4369
1393	AAUCUGCUC GCUAUUUG	214	CAAAUAGC CUGAUGAGGNNNNNNNNCCGAA AGCAGAUU	4370
1397	UGCUCGCUA UUUGACUC	215	GAGUCAAA CUGAUGAGGNNNNNNNNCCGAA AGCGAGCA	4371
1399	CUCGCUAUU UGACUCGU	216	ACGAGUCA CUGAUGAGGNNNNNNNNCCGAA AUAGCGAG	4372
1400	UCGCUAUUU GACUCGUG	217	CACGAGUC CUGAUGAGGNNNNNNNNCCGAA AAUAGCGA	4373
1405	AUUUGACUC GUGGCUAC	218	GUAGCCAC CUGAUGAGGNNNNNNNNCCGAA AGUCAAAU	4374
1412	UCGUGGCUA CUCGUUAA	219	UUAACGAG CUGAUGAGGNNNNNNNNCCGAA AGCCACGA	4375
1415	UGGCUACUC GUUAAUUA	220	UAAUUAAC CUGAUGAGGNNNNNNNNCCGAA AGUAGCCA	4376
1418	CUACUCGUU AAUUAUCA	221	UGAUAAUU CUGAUGAGGNNNNNNNNCCGAA AGGAGUAG	4377
1419	UACUCGUUA AUUAUCAA	222	UUGAUAAU CUGAUGAGGNNNNNNNNCCGAA AACGAGUA	4378
1422	UCGUUAAUU AUCAAGGA	223	UCCUUGAU CUGAUGAGGNNNNNNNNCCGAA AUUAACGA	4379
1423	CGUUAAUUA UCAAGGAC	224	GUCCUUGA CUGAUGAGGNNNNNNNNCCGAA AAUUAACG	4380
1425	UUAAUUAUC AAGGACGU	225	ACGUCCUU CUGAUGAGGNNNNNNNNCCGAA AUAAUUAA	4381
1434	AAGGACGUA ACUGAAGA	226	UCUUCAGU CUGAUGAGGNNNNNNNNCCGAA ACGUCCUU	4382
1456	CAGGGAAUU AUACAAUC	227	GAUUGUAU CUGAUGAGGNNNNNNNNCCGAA AUUCCCUG	4383
1457	AGGGAAUUA UACAAUCU	228	AGAUUGUA CUGAUGAGGNNNNNNNNCCGAA AAUUCCCU	4384
1459	GGAAUUAUA CAAUCUUG	229	CAAGAUUG CUGAUGAGGNNNNNNNNCCGAA AUAAUUCC	4385
1464	UAUACAAUC UUGCUGAG	230	CUCAGCAA CUGAUGAGGNNNNNNNNCCGAA AUUGUAUA	4386
1466	UACAAUCUU GCUGAGCA	231	UGCUCAGC CUGAUGAGGNNNNNNNNCCGAA AGAUUGUA	4387
1476	CUGAGCAUA AAACAGUC	232	GACUGUUU CUGAUGAGGNNNNNNNNCCGAA AUGCUCAG	4388
1484	AAAACAGUC AAAUGUGU	233	ACACAUUU CUGAUGAGGNNNNNNNNCCGAA ACUGUUUU	4389
1493	AAAUGUGUU UAAAAACC	234	GGUUUUUA CUGAUGAGGNNNNNNNNCCGAA ACACAUUU	4390
1494	AAUGUGUUU AAAAACCU	235	AGGUUUUU CUGAUGAGGNNNNNNNNCCGAA AACACAUU	4391
1495	AUGUGUUUA AAAACCUC	236	GAGGUUUU CUGAUGAGGNNNNNNNNCCGAA AAACACAU	4392
1503	AAAAACCUC ACUGCCAC	237	GUGGCAGU CUGAUGAGGNNNNNNNNCCGAA AGGUUUUU	4393
1513	CUGCCACUC UAAUUGUC	238	GACAAUUA CUGAUGAGGNNNNNNNNCCGAA AGUGGCAG	4394
1515	GCCACUCUA AUUGUCAA	239	UUGACAAU CUGAUGAGGNNNNNNNNCCGAA AGAGUGGC	4395
1518	ACUCUAAUU GUCAAUGU	240	ACAUUGAC CUGAUGAGGNNNNNNNNCCGAA AUUAGAGU	4396
1521	CUAAUUGUC AAUGUGAA	241	UUCACAUU CUGAUGAGGNNNNNNNNCCGAA ACAAUUAG	4397
1539	CCCCAGAUU UACGAAAA	242	UUUUCGUA CUGAUGAGGNNNNNNNNCCGAA AUCUGGGG	4398
1540	CCCAGAUUU ACGAAAAG	243	CUUUUCGU CUGAUGAGGNNNNNNNNCCGAA AAUCUGGG	4399
1541	CCAGAUUUA CGAAAAGG	244	CCUUUUCG CUGAUGAGGNNNNNNNNCCGAA AAAUCUGG	4400
1556	GGCCGUGUC AUCGUUUC	245	GAAACGAU CUGAUGAGGNNNNNNNNCCGAA ACACGGCC	4401
1559	CGUGUCAUC GUUUCCAG	246	CUGGAAAC CUGAUGAGGNNNNNNNNCCGAA AUGACACG	4402
1562	GUCAUCGUU UCCAGACC	247	GGUCUGGA CUGAUGAGGNNNNNNNNCCGAA ACGAUGAC	4403
1563	UCAUCGUUU CCAGACCC	248	GGGUCUGG CUGAUGAGGNNNNNNNNCCGAA AACGAUGA	4404
1564	CAUCGUUUC CAGACCCG	249	CGGGUCUG CUGAUGAGGNNNNNNNNCCGAA AAACGAUG	4405
1576	ACCCGGCUC UCUACCCA	250	UGGGUAGA CUGAUGAGGNNNNNNNNCCGAA AGCCGGGU	4406
1578	CCGGCUCUC UACCCACU	251	AGUGGGUA CUGAUGAGGNNNNNNNNCCGAA AGAGCCGG	4407
1580	GGCUCUCUA CCCACUGG	252	CCAGUGGG CUGAUGAGGNNNNNNNNCCGAA AGAGAGCC	4408
1602	AGACAAAUC CUGACUUG	253	CAAGUCAG CUGAUGAGGNNNNNNNNCCGAA AUUUGUCU	4409
1609	UCCUGACUU GUACCGCA	254	UGCGGUAC CUGAUGAGGNNNNNNNNCCGAA AGUCAGGA	4410
1612	UGACUUGUA CCGCAUAU	255	AUAUGCGG CUGAUGAGGNNNNNNNNCCGAA ACAAGUCA	4411
1619	UACCGCAUA UGGUAUCC	256	GGAUACCA CUGAUGAGGNNNNNNNNCCGAA AUGCGGUA	4412
1624	CAUAUGGUA UCCCUCAA	257	UUGAGGGA CUGAUGAGGNNNNNNNNCCGAA ACCAUAUG	4413
1626	UAUGGUAUC CCUCAACC	258	GGUUGAGG CUGAUGAGGNNNNNNNNCCGAA AUACCAUA	4414
1630	GUAUCCCUC AACCUACA	259	UGUAGGUU CUGAUGAGGNNNNNNNNCCGAA AGGGAUAC	4415
1636	CUCAACCUA CAAUCAAG	260	CUUGAUUG CUGAUGAGGNNNNNNNNCCGAA AGGUUGAG	4416
1641	CCUACAAUC AAGUGGUU	261	AACCACUU CUGAUGAGGNNNNNNNNCCGAA AUUGUAGG	4417
1649	CAAGUGGUU CUGGCACC	262	GGUGCCAG CUGAUGAGGNNNNNNNNCCGAA ACCACUUG	4418
1650	AAGUGGUUC UGGCACCC	263	GGGUGCCA CUGAUGAGGNNNNNNNNCCGAA AACCACUU	4419
1663	ACCCCUGUA ACCAUAAU	264	AUUAUGGU CUGAUGAGGNNNNNNNNCCGAA ACAGGGGU	4420
1669	GUAACCAUA AUCAUUCC	265	GGAAUGAU CUGAUGAGGNNNNNNNNCCGAA AUGGUUAC	4421
1672	ACCAUAAUC AUUCCGAA	266	UUCGGAAU CUGAUGAGGNNNNNNNNCCGAA AUUAUGGU	4422
1675	AUAAUCAUU CCGAAGCA	267	UGCUUCGG CUGAUGAGGNNNNNNNNCCGAA AUGAUUAU	4423
1676	UAAUCAUUC CGAAGCAA	268	UUGCUUCG CUGAUGAGGNNNNNNNNCCGAA AAUGAUUA	4424
1694	GUGUGACUU UUGUUCCA	269	UGGAACAA CUGAUGAGGNNNNNNNNCCGAA AGUCACAC	4425
1695	UGUGACUUU UGUUCCAA	270	UUGGAACA CUGAUGAGGNNNNNNNNCCGAA AAGUCACA	4426
1696	GUGACUUUU GUUCCAAU	271	AUUGGAAC CUGAUGAGGNNNNNNNNCCGAA AAAGUCAC	4427
1699	ACUUUUGUU CCAAUAAU	272	AUUAUUGG CUGAUGAGGNNNNNNNNCCGAA ACAAAAGU	4428
1700	CUUUUGUUC CAAUAAUG	273	CAUUAUUG CUGAUGAGGNNNNNNNNCCGAA AACAAAAG	4429
1705	GUUCCAAUA AUGAAGAG	274	CUCUUCAU CUGAUGAGGNNNNNNNNCCGAA AUUGGAAC	4430
1715	UGAAGAGUC CUUUAUCC	275	GGAUAAAG CUGAUGAGGNNNNNNNNCCGAA ACUCUUCA	4431
1718	AGAGUCCUU UAUCCUGG	276	CCAGGAUA CUGAUGAGGNNNNNNNNCCGAA AGGACUCU	4432
1719	GAGUCCUUU AUCCUGGA	277	UCCAGGAU CUGAUGAGGNNNNNNNNCCGAA AAGGACUC	4433
1720	AGUCCUUUA UCCUGGAU	278	AUCCAGGA CUGAUGAGGNNNNNNNNCCGAA AAAGGACU	4434
1722	UCCUUUAUC CUGGAUGC	279	GCAUCCAG CUGAUGAGGNNNNNNNNCCGAA AUAAAGGA	4435
1755	AACAGAAUU GAGAGCAU	280	AUGCUCUC CUGAUGAGGNNNNNNNNCCGAA AUUCUGUU	4436
1764	GAGAGCAUC ACUCAGCG	281	CGCUGAGU CUGAUGAGGNNNNNNNNCCGAA AUGCUCUC	4437
1768	GCAUCACUC AGCGCAUG	282	CAUGCGCU CUGAUGAGGNNNNNNNNCCGAA AGUGAUGC	4438
1782	AUGGCAAUA AUAGAAGG	283	CCUUCUAU CUGAUGAGGNNNNNNNNCCGAA AUUGCCAU	4439
1785	GCAAUAAUA GAAGGAAA	284	UUUCCUUC CUGAUGAGGNNNNNNNNCCGAA AUUAUUGC	4440
1798	GAAAGAAUA AGAUGGCU	285	AGCCAUCU CUGAUGAGGNNNNNNNNCCGAA AUUCUUUC	4441
1807	AGAUGGCUA GCACCUUG	286	CAAGGUGC CUGAUGAGGNNNNNNNNCCGAA AGCCAUCU	4442
1814	UAGCACCUU GGUUGUGG	287	CCACAACC CUGAUGAGGNNNNNNNNCCGAA AGGUGCUA	4443
1818	ACCUUGGUU GUGGCUGA	288	UCAGCCAC CUGAUGAGGNNNNNNNNCCGAA ACCAAGGU	4444
1829	GGCUGACUC UAGAAUUU	289	AAAUUCUA CUGAUGAGGNNNNNNNNCCGAA AGUCAGCC	4445
1831	CUGACUCUA GAAUUUCU	290	AGAAAUUC CUGAUGAGGNNNNNNNNCCGAA AGAGUCAG	4446
1836	UCUAGAAUU UCUGGAAU	291	AUUCCAGA CUGAUGAGGNNNNNNNNCCGAA AUUCUAGA	4447
1837	CUAGAAUUU CUGGAAUC	292	GAUUCCAG CUGAUGAGGNNNNNNNNCCGAA AAUUCUAG	4448
1838	UAGAAUUUC UGGAAUCU	293	AGAUUGCA CUGAUGAGGNNNNNNNNCCGAA AAAUUCUA	4449
1845	UCUGGAAUC UACAUUUG	294	CAAAUGUA CUGAUGAGGNNNNNNNNCCGAA AUUCCAGA	4450
1847	UGGAAUCUA CAUUUGCA	295	UGCAAAUG CUGAUGAGGNNNNNNNNCCGAA AGAUUCCA	4451
1851	AUCUACAUU UGCAUAGC	296	GCUAUGCA CUGAUGAGGNNNNNNNNCCGAA AUGUAGAU	4452
1852	UCUACAUUU GCAUAGCU	297	AGCUAUGC CUGAUGAGGNNNNNNNNCCGAA AAUGUAGA	4453
1857	AUUUGCAUA GCUUCCAA	298	UUGGAAGC CUGAUGAGGNNNNNNNNCCGAA AUGCAAAU	4454
1861	GCAUAGCUU CCAAUAAA	299	UUUAUUGG CUGAUGAGGNNNNNNNNCCGAA AGCUAUGC	4455
1862	CAUAGCUUC CAAUAAAG	300	GUUUAUUG CUGAUGAGGNNNNNNNNCCGAA AAGCUAUG	4456
1867	CUUCCAAUA AAGUUGGG	301	GCCAACUU CUGAUGAGGNNNNNNNNCCGAA AUUGGAAG	4457
1872	AAUAAAGUU GGGACUGU	302	ACAGUCCC CUGAUGAGGNNNNNNNNCCGAA ACUUUAUU	4458
1893	AGAAACAUA AGCUUUUA	303	UAAAAGCU CUGAUGAGGNNNNNNNNCCGAA AUGUUUCU	4459
1898	CAUAAGCUU UUAUAUCA	304	UGAUAUAA CUGAUGAGGNNNNNNNNCCGAA AGCUUAUG	4460
1899	AUAAGCUUU UAUAUCAC	305	GUGAUAUA CUGAUGAGGNNNNNNNNCCGAA AAGCUUAU	4461
1900	UAAGCUUUU AUAUCACA	306	UGUGAUAU CUGAUGAGGNNNNNNNNCCGAA AAAGCUUA	4462
1901	AAGCUUUUA UAUCACAG	307	CUGUGAUA CUGAUGAGGNNNNNNNNCCGAA AAAAGCUU	4463
1903	GCUUUUAUA UCACAGAU	308	AUCUGUGA CUGAUGAGGNNNNNNNNCCGAA AUAAAAGC	4464
1905	UUUUAUAUC ACAGAUGU	309	ACAUCUGU CUGAUGAGGNNNNNNNNCCGAA AUAUAAAA	4465
1925	AAAUGGGUU UCAUGUUA	310	UAACAUGA CUGAUGAGGNNNNNNNNCCGAA ACCCAUUU	4466
1926	AAUGGGUUU CAUGUUAA	311	UUAACAUG CUGAUGAGGNNNNNNNNCCGAA AACCCAUU	4467
1927	AUGGGUUUC AUGUUAAC	312	GUUAACAU CUGAUGAGGNNNNNNNNCCGAA AAACCCAU	4468
1932	UUUCAUGUU AACUUGGA	313	UCCAAGUU CUGAUGAGGNNNNNNNNCCGAA ACAUGAAA	4469
1933	UUCAUGUUA ACUUGGAA	314	UUCCAAGU CUGAUGAGGNNNNNNNNCCGAA AACAUGAA	4470
1937	UGUUAACUU GGAAAAAA	315	UUUUUUCC CUGAUGAGGNNNNNNNNCCGAA AGUUAACA	4471
1976	GAAACUGUC UUGCACAG	316	CUGUGCAA CUGAUGAGGNNNNNNNNCCGAA ACAGUUUC	4472
1978	AACUGUCUU GCACAGUU	317	AACUGUGC CUGAUGAGGNNNNNNNNCCGAA AGACAGUU	4473
1986	UGCACAGUU AACAAGUU	318	AACUUGUU CUGAUGAGGNNNNNNNNCCGAA ACUGUGCA	4474
1987	GCACAGUUA ACAAGUUC	319	GAACUUGU CUGAUGAGGNNNNNNNNCCGAA AACUGUGC	4475
1994	UAACAAGUU CUUAUACA	320	UGUAUAAG CUGAUGAGGNNNNNNNNCCGAA ACUUGUUA	4476
1995	AACAAGUUC UUAUACAG	321	CUGUAUAA CUGAUGAGGNNNNNNNNCCGAA AACUUGUU	4477
1997	CAAGUUCUU AUACAGAG	322	CUCUGUAU CUGAUGAGGNNNNNNNNCCGAA AGAACUUG	4478
1998	AAGUUCUUA UACAGAGA	323	UCUCUGUA CUGAUGAGGNNNNNNNNCCGAA AAGAACUU	4479
2000	GUUCUUAUA CAGAGACG	324	CGUCUCUG CUGAUGAGGNNNNNNNNCCGAA AUAAGAAC	4480
2010	AGAGACGUU ACUUGGAU	325	AUCCAAGU CUGAUGAGGNNNNNNNNCCGAA ACGUCUCU	4481
2011	GAGACGUUA CUUGGAUU	326	AAUCCAAG CUGAUGAGGNNNNNNNNCCGAA AACGUCUC	4482
2014	ACGUUACUU GGAUUUUA	327	UAAAAUCC CUGAUGAGGNNNNNNNNCCGAA AGUAACGU	4483
2019	ACUUGGAUU UUACUGCG	328	CGCAGUAA CUGAUGAGGNNNNNNNNCCGAA AUCCAAGU	4484
2020	CUUGGAUUU UACUGCGG	329	CCGCAGUA CUGAUGAGGNNNNNNNNCCGAA AAUCCAAG	4485
2021	UUGGAUUUU ACUGCGGA	330	UCCGCAGU CUGAUGAGGNNNNNNNNCCGAA AAAUCCAA	4486
2022	UGGAUUUUA CUGCGGAC	331	GUCCGCAG CUGAUGAGGNNNNNNNNCCGAA AAAAUCCA	4487
2034	CGGACAGUU AAUAACAG	332	CUGUUAUU CUGAUGAGGNNNNNNNNCCGAA ACUGUCCG	4488
2035	GGACAGUUA AUAACAGA	333	UCUGUUAU CUGAUGAGGNNNNNNNNCCGAA AACUGUCC	4489
2038	CAGUUAAUA ACAGAACA	334	UGUUCUGU CUGAUGAGGNNNNNNNNCCGAA AUUAACUG	4490
2054	AAUGCACUA CAGUAUUA	335	UAAUACUG CUGAUGAGGNNNNNNNNCCGAA AGUGCAUU	4491
2059	ACUACAGUA UUAGCAAG	336	CUUGCUAA CUGAUGAGGNNNNNNNNCCGAA ACUGUAGU	4492
2061	UACAGUAUU AGCAAGCA	337	UGCUUGCU CUGAUGAGGNNNNNNNNCCGAA AUACUGUA	4493
2062	ACAGUAUUA GCAAGCAA	338	UUGCUUGC CUGAUGAGGNNNNNNNNCCGAA AAUACUGU	4494
2082	AUGGCCAUC ACUAAGGA	339	UCCUUAGU CUGAUGAGGNNNNNNNNCCGAA AUGGCCAU	4495
2086	CCAUCACUA AGGAGGAC	340	GUGCUCCU CUGAUGAGGNNNNNNNNCCGAA AGUGAUGG	4496
2096	GGAGCACUC CAUCACUC	341	GAGUGAUG CUGAUGAGGNNNNNNNNCCGAA AGUGCUCC	4497
2100	CACUCCAUC ACUCUUAA	342	UUAAGAGU CUGAUGAGGNNNNNNNNCCGAA AUGGAGUG	4498
2104	CCAUCACUC UUAAUCUU	343	AAGAUUAA CUGAUGAGGNNNNNNNNCCGAA AGUGAUGG	4499
2106	AUCACUCUU AAUCUUAC	344	GUAAGAUU CUGAUGAGGNNNNNNNNCCGAA AGAGUGAU	4500
2107	UCACUCUUA AUCUUACC	345	GGUAAGAU CUGAUGAGGNNNNNNNNCCGAA AAGAGUGA	4501
2110	CUCUUAAUC UUACCAUC	346	GAUGGUAA CUGAUGAGGNNNNNNNNCCGAA AUUAAGAG	4502
2112	CUUAAUCUU ACCAUCAU	347	AUGAUGGU CUGAUGAGGNNNNNNNNCCGAA AGAUUAAG	4503
2113	UUAAUCUUA CCAUCAUG	348	CAUGAUGG CUGAUGAGGNNNNNNNNCCGAA AAGAUUAA	4504
2118	CUUACCAUC AUGAAUGU	349	ACAUUCAU CUGAUGAGGNNNNNNNNCCGAA AUGGUAAG	4505
2127	AUGAAUGUU UCCCUGCA	350	UGCAGGGA CUGAUGAGGNNNNNNNNCCGAA ACAUUCAU	4506
2128	UGAAUGUUU CCCUGCAA	351	UUGCAGGG CUGAUGAGGNNNNNNNNCCGAA AACAUUCA	4507
2129	GAAUGUUUC CCUGCAAG	352	CUUGCAGG CUGAUGAGGNNNNNNNNCCGAA AAACAUUC	4508
2140	UGCAAGAUU CAGGCACC	353	GGUGCCUG CUGAUGAGGNNNNNNNNCCGAA AUCUUGCA	4509
2141	GCAAGAUUC AGGCACCU	354	AGGUGCCU CUGAUGAGGNNNNNNNNCCGAA AAUCUUGC	4510
2150	AGGCACCUA UGCCUGCA	355	UGCAGGCA CUGAUGAGGNNNNNNNNCCGAA AGGUGCCU	4511
2172	AGGAAUGUA UACACAGG	356	CCUGUGUA CUGAUGAGGNNNNNNNNCCGAA ACAUUCCU	4512
2174	GAAUGUAUA CACAGGGG	357	CCCCUGUG CUGAUGAGGNNNNNNNNCCGAA AUACAUUC	4513
2190	GAAGAAAUC CUCCAGAA	358	UUCUGGAG CUGAUGAGGNNNNNNNNCCGAA AUUUCUUC	4514
2193	GAAAUCCUC CAGAAGAA	359	UUCUUCUG CUGAUGAGGNNNNNNNNCCGAA AGGAUUUC	4515
2208	AAAGAAAUU ACAAUCAG	360	CUGAUUGU CUGAUGAGGNNNNNNNNCCGAA AUUUCUUU	4516
2209	AAGAAAUUA CAAUCAGA	361	UCUGAUUG CUGAUGAGGNNNNNNNNCCGAA AAUUUCUU	4517
2214	AUUACAAUC AGAGAUCA	362	UGAUCUCU CUGAUGAGGNNNNNNNNCCGAA AUUGUAAU	4518
2221	UCAGAGAUC AGGAAGCA	363	UGCUUCCU CUGAUGAGGNNNNNNNNCCGAA AUCUCUGA	4519
2234	AGCACCAUA CCUCCUGC	364	GCAGGAGG CUGAUGAGGNNNNNNNNCCGAA AUGGUGCU	4520
2238	CCAUACCUC CUGCGAAA	365	UUUCGCAG CUGAUGAGGNNNNNNNNCCGAA AGGUAUGG	4521
2250	CGAAACCUC AGUGAUCA	366	UGAUCACU CUGAUGAGGNNNNNNNNCCGAA AGGUUUCG	4522
2257	UCAGUGAUC ACACAGUG	367	CACUGUGU CUGAUGAGGNNNNNNNNCCGAA AUCACUGA	4523
2271	GUGGCCAUC AGCAGUUC	368	GAACUGCU CUGAUGAGGNNNNNNNNCCGAA AUGGCCAC	4524
2278	UCAGCAGUU CCACCACU	369	AGUGGUGG CUGAUGAGGNNNNNNNNCCGAA ACUGCUGA	4525
2279	CAGCAGUUC CACCACUU	370	AAGUGGUG CUGAUGAGGNNNNNNNNCCGAA AACUGCUG	4526
2287	CCACCACUU UAGACUGU	371	ACAGUCUA CUGAUGAGGNNNNNNNNCCGAA AGUGGUGG	4527
2288	CACCACUUU AGACUGUC	372	GACAGUCU CUGAUGAGGNNNNNNNNCCGAA AAGUGGUG	4528
2289	ACCACUUUA GACUGUCA	373	UGACAGUC CUGAUGAGGNNNNNNNNCCGAA AAAGUGGU	4529
2296	UAGACUGUC AUGCUAAU	374	AUUAGCAU CUGAUGAGGNNNNNNNNCCGAA ACAGUCUA	4530
2302	GUCAUGCUA AUGGUGUC	375	GACACCAU CUGAUGAGGNNNNNNNNCCGAA AGCAUGAC	4531
2310	AAUGGUGUC CCCGAGCC	376	GGCUCGGG CUGAUGAGGNNNNNNNNCCGAA ACACCAUU	4532
2320	CCGAGCCUC AGAUCACU	377	AGUGAUCU CUGAUGAGGNNNNNNNNCCGAA AGGCUCGG	4533
2325	CCUCAGAUC ACUUGGUU	378	AACCAAGU CUGAUGAGGNNNNNNNNCCGAA AUCUGAGG	4534
2329	AGAUCACUU GGUUUAAA	379	UUUAAACC CUGAUGAGGNNNNNNNNCCGAA AGUGAUCU	4535
2333	CACUUGGUU UAAAAACA	380	UGUUUUUA CUGAUGAGGNNNNNNNNCCGAA ACCAAGUG	4536
2334	ACUUGGUUU AAAAACAA	381	UUGUUUUU CUGAUGAGGNNNNNNNNCCGAA AACCAAGU	4537
2335	CUUGGUUUA AAAACAAC	382	GUUGUUUU CUGAUGAGGNNNNNNNNCCGAA AAACCAAG	4538
2352	CACAAAAUA CAACAAGA	383	UCUUGUUG CUGAUGAGGNNNNNNNNCCGAA AUUUUGUG	4539
2370	CCUGGAAUU AUUUUAGG	384	CCUAAAAU CUGAUGAGGNNNNNNNNCCGAA AUUCCAGG	4540
2371	CUGGAAUUA UUUUAGGA	385	UCCUAAAA CUGAUGAGGNNNNNNNNCCGAA AAUUCCAG	4541
2373	GGAAUUAUU UUAGGACC	386	GGUCCUAA CUGAUGAGGNNNNNNNNCCGAA AUAAUUCC	4542
2374	GAAUUAUUU UAGGACCA	387	UGGUCCUA CUGAUGAGGNNNNNNNNCCGAA AAUAAUUC	4543
2375	AAUUAUUUU AGGACCAG	388	CUGGUCCU CUGAUGAGGNNNNNNNNCCGAA AAAUAAUU	4544
2376	AUUAUUUUA GGACCAGG	389	CCUGGUCC CUGAUGAGGNNNNNNNNCCGAA AAAAUAAU	4545
2399	CACGCUGUU UAUUGAAA	390	UUUCAAUA CUGAUGAGGNNNNNNNNCCGAA ACAGCGUG	4546
2400	ACGCUGUUU AUUGAAAG	391	CUUUCAAU CUGAUGAGGNNNNNNNNCCGAA AACAGCGU	4547
2401	CGCUGUUUA UUGAAAGA	392	UCUUUCAA CUGAUGAGGNNNNNNNNCCGAA AAACAGCG	4548
2403	CUGUUUAUU GAAAGAGU	393	ACUCUUUC CUGAUGAGGNNNNNNNNCCGAA AUAAACAG	4549
2412	GAAAGAGUC ACAGAAGA	394	UCUUCUGU CUGAUGAGGNNNNNNNNCCGAA ACUCUUUC	4550
2433	GAAGGUGUC UAUCACUG	395	CAGUGAUA CUGAUGAGGNNNNNNNNCCGAA ACACCUUC	4551
2435	AGGUGUCUA UCACUGGA	396	UGGAGUGA CUGAUGAGGNNNNNNNNCCGAA AGACACCU	4552
2437	GUGUCUAUC ACUGCAAA	397	UUUGCAGU CUGAUGAGGNNNNNNNNCCGAA AUAGACAC	4553
2465	GAAGGGCUC UGUGGAAA	398	UUUCCACA CUGAUGAGGNNNNNNNNCCGAA AGCCCUUC	4554
2476	UGGAAAGUU CAGCAUAC	399	GUAUGCUG CUGAUGAGGNNNNNNNNCCGAA ACUUUCCA	4555
2477	GGAAAGUUC AGCAUACC	400	GGUAUGCU CUGAUGAGGNNNNNNNNCCGAA AACUUUCC	4556
2483	UUCAGCAUA CCUCACUG	401	CAGUGAGG CUGAUGAGGNNNNNNNNCCGAA AUGCUGAA	4557
2487	GCAUACCUC ACUGUUCA	402	UGAACAGU CUGAUGAGGNNNNNNNNCCGAA AGGUAUGC	4558
2493	CUCACUGUU CAAGGAAC	403	GUUCCUUG CUGAUGAGGNNNNNNNNCCGAA ACAGUGAG	4559
2494	UCACUGUUC AAGGAACC	404	GGUUCCUU CUGAUGAGGNNNNNNNNCCGAA AACAGUGA	4560
2504	AGGAACCUC GGACAAGU	405	ACUUGUCC CUGAUGAGGNNNNNNNNCCGAA AGGUUCCU	4561
2513	GGACAAGUC UAAUCUGG	406	CCAGAUUA CUGAUGAGGNNNNNNNNCCGAA ACUUGUCC	4562
2515	ACAAGUCUA AUCUGGAG	407	CUCCAGAU CUGAUGAGGNNNNNNNNCCGAA AGACUUGU	4563
2518	AGUCUAAUC UGGAGCUG	408	CAGCUCCA CUGAUGAGGNNNNNNNNCCGAA AUUAGACU	4564
2529	GAGCUGAUC ACUCUAAC	409	GUUAGAGU CUGAUGAGGNNNNNNNNCCGAA AUCAGCUC	4565
2533	UGAUCACUC UAACAUGC	410	GCAUGUUA CUGAUGAGGNNNNNNNNCCGAA AGUGAUCA	4566
2535	AUCACUCUA ACAUGCAC	411	GUGCAUGU CUGAUGAGGNNNNNNNNCCGAA AGAGUGAU	4567
2560	CUGCGACUC UCUUCUGG	412	CCAGAAGA CUGAUGAGGNNNNNNNNCCGAA AGUCGCAG	4568
2562	GCGACUCUC UUCUGGCU	413	AGCCAGAA CUGAUGAGGNNNNNNNNCCGAA AGAGUCGC	4569
2564	GACUCUCUU CUGGCUCC	414	GGAGCCAG CUGAUGAGGNNNNNNNNCCGAA AGAGAGUC	4570
2565	ACUCUCUUC UGGCUCCU	415	AGGAGCCA CUGAUGAGGNNNNNNNNCCGAA AAGAGAGU	4571
2571	UUCUGGCUC CUAUUAAC	416	GUUAAUAG CUGAUGAGGNNNNNNNNCCGAA AGCCAGAA	4572
2574	UGGCUCCUA UUAACCCU	417	AGGGUUAA CUGAUGAGGNNNNNNNNCCGAA AGGAGCCA	4573
2576	GCUCCUAUU AACCCUCC	418	GGAGGGUU CUGAUGAGGNNNNNNNNCCGAA AUAGGAGC	4574
2577	CUCCUAUUA ACCCUCCU	419	AGGAGGGU CUGAUGAGGNNNNNNNNCCGAA AAUAGGAG	4575
2583	UUAACCCUC CUUAUCCG	420	CGGAUAAG CUGAUGAGGNNNNNNNNCCGAA AGGGUUAA	4576
2586	ACCCUCCUU AUCCGAAA	421	UUUCGGAU CUGAUGAGGNNNNNNNNCCGAA AGGAGGGU	4577
2587	CCCUCCUUA UCCGAAAA	422	UUUUCGGA CUGAUGAGGNNNNNNNNCCGAA AAGGAGGG	4578
2589	CUCCUUAUC CGAAAAAU	423	AUUUUUCG CUGAUGAGGNNNNNNNNCCGAA AUAAGGAG	4579
2606	GAAAAGGUC UUCUUCUG	424	CAGAAGAA CUGAUGAGGNNNNNNNNCCGAA ACCUUUUC	4580
2608	AAAGGUCUU CUUCUGAA	425	UUCAGAAG CUGAUGAGGNNNNNNNNCCGAA AGACCUUU	4581
2609	AAGGUCUUC UUCUGAAA	426	UUUCAGAA CUGAUGAGGNNNNNNNNCCGAA AAGACCUU	4582
2611	GGUCUUCUU CUGAAAUA	427	UAUUUCAG CUGAUGAGGNNNNNNNNCCGAA AGAAGACC	4583
2612	GUCUUCUUC UGAAAUAA	428	UUAUUUCA CUGAUGAGGNNNNNNNNCCGAA AAGAAGAC	4584
2619	UCUGAAAUA AAGACUGA	429	UCAGUCUU CUGAUGAGGNNNNNNNNCCGAA AUUUCAGA	4585
2630	GACUGACUA CCUAUCAA	430	UUGAUAGG CUGAUGAGGNNNNNNNNCCGAA AGUCAGUC	4586
2634	GACUACCUA UCAAUUAU	431	AUAAUUGA CUGAUGAGGNNNNNNNNCCGAA AGGUAGUC	4587
2636	CUACCUAUC AAUUAUAA	432	UUAUAAUU CUGAUGAGGNNNNNNNNCCGAA AUAGGUAG	4588
2640	CUAUCAAUU AUAAUGGA	433	UCCAUUAU CUGAUGAGGNNNNNNNNCCGAA AUUGAUAG	4589
2641	UAUCAAUUA UAAUGGAC	434	GUCCAUUA CUGAUGAGGNNNNNNNNCCGAA AAUUGAUA	4590
2643	UCAAUUAUA AUGGACCC	435	GGGUCCAU CUGAUGAGGNNNNNNNNCCGAA AUAAUUGA	4591
2661	GAUGAAGUU CCUUUGGA	436	UCCAAAGG CUGAUGAGGNNNNNNNNCCGAA ACUUCAUC	4592
2662	AUGAAGUUC CUUUGGAU	437	AUCCAAAG CUGAUGAGGNNNNNNNNCCGAA AACUUCAU	4593
2665	AAGUUCCUU UGGAUGAG	438	CUCAUCCA CUGAUGAGGNNNNNNNNCCGAA AGGAACUU	4594
2666	AGUUCCUUU GGAUGAGC	439	GCUCAUCC CUGAUGAGGNNNNNNNNCCGAA AAGGAACU	4595
2688	GAGCGGCUC CCUUAUGA	440	UCAUAAGG CUGAUGAGGNNNNNNNNCCGAA AGCCGCUC	4596
2692	GGCUCCCUU AUGAUGCC	441	GGCAUCAU CUGAUGAGGNNNNNNNNCCGAA AGGGAGCC	4597
2693	GCUCCCUUA UGAUGCCA	442	UGGCAUCA CUGAUGAGGNNNNNNNNCCGAA AAGGGAGC	4598
2714	GUGGGAGUU UGCCCGGG	443	CCCGGGCA CUGAUGAGGNNNNNNNNCCGAA ACUCCCAC	4599
2715	UGGGAGUUU GCCCGGGA	444	UCCCGGGC CUGAUGAGGNNNNNNNNCCGAA AACUCCCA	4600
2730	GAGAGACUU AAACUGGG	445	CCCAGUUU GUGAUGAGGNNNNNNNNCCGAA AGUCUCUC	4601
2731	AGAGACUUA AACUGGGC	446	GCCCAGUU CUGAUGAGGNNNNNNNNCCGAA AAGUCUCU	4602
2744	GGGCAAAUC ACUUGGAA	447	UUCCAAGU CUGAUGAGGNNNNNNNNCCGAA AUUUGCCC	4603
2748	AAAUCACUU GGAAGAGG	448	CCUCUUCC CUGAUGAGGNNNNNNNNCCGAA AGUGAUUU	4604
2761	GAGGGGCUU UUGGAAAA	449	UUUUCCAA CUGAUGAGGNNNNNNNNCCGAA AGCCCCUC	4605
2762	AGGGGCUUU UGGAAAAG	450	CUUUUCCA CUGAUGAGGNNNNNNNNCCGAA AAGCCCCU	4606
2763	GGGGCUUUU GGAAAAGU	451	ACUUUUCC CUGAUGAGGNNNNNNNNCCGAA AAAGCCCC	4607
2775	AAAGUGGUU CAAGCAUC	452	GAUGCUUG CUGAUGAGGNNNNNNNNCCGAA ACCACUUU	4608
2776	AAGUGGUUC AAGCAUCA	453	UGAUGCUU CUGAUGAGGNNNNNNNNCCGAA AACCACUU	4609
2783	UCAAGCAUC AGCAUUUG	454	CAAAUGCU CUGAUGAGGNNNNNNNNCCGAA AUGCUUGA	4610
2789	AUCAGCAUU UGGCAUUA	455	UAAUGCCA CUGAUGAGGNNNNNNNNCCGAA AUGCUGAU	4611
2790	UCAGCAUUU GGCAUUAA	456	UUAAUGCC CUGAUGAGGNNNNNNNNCCGAA AAUGCUGA	4612
2796	UUUGGCAUU AAGAAAUC	457	GAUUUCUU CUGAUGAGGNNNNNNNNCCGAA AUGCCAAA	4613
2797	UUGGCAUUA AGAAAUCA	458	UGAUUUCU CUGAUGAGGNNNNNNNNCCGAA AAUGCCAA	4614
2804	UAAGAAAUC ACCUACGU	459	ACGUAGGU CUGAUGAGGNNNNNNNNCCGAA AUUUCUUA	4615
2809	AAUCACCUA CGUGCCGG	460	CCGGCACG CUGAUGAGGNNNNNNNNCCGAA AGGUGAUU	4616
2864	CAGCGAGUA CAAAGCUC	461	GAGCUUUG CUGAUGAGGNNNNNNNNCCGAA ACUCGCUG	4617
2872	ACAAAGCUC UGAUGACU	462	AGUCAUCA CUGAUGAGGNNNNNNNNCCGAA AGCUUUGU	4618
2886	ACUGAGCUA AAAAUCUU	463	AAGAUUUU CUGAUGAGGNNNNNNNNCCGAA AGCUCAGU	4619
2892	CUAAAAAUC UUGACCCA	464	UGGGUCAA CUGAUGAGGNNNNNNNNCCGAA AUUUUUAG	4620
2894	AAAAAUCUU GACCCACA	465	UGUGGGUC CUGAUGAGGNNNNNNNNCCGAA AGAUUUUU	4621
2904	ACCCACAUU GGCCACCA	466	UGGUGGCC CUGAUGAGGNNNNNNNNCCGAA AUGUGGGU	4622
2914	GCCACCAUC UGAACGUG	467	CACGUUCA CUGAUGAGGNNNNNNNNCCGAA AUGGUGGC	4623
2925	AACGUGGUU AACCUGCU	468	AGCAGGUU CUGAUGAGGNNNNNNNNCCGAA ACCACGUU	4624
2926	ACGUGGUUA ACCUGCUG	469	CAGCAGGU CUGAUGAGGNNNNNNNNCCGAA AACCACGU	4625
2962	GAGGGCCUC UGAUGGUG	470	CACCAUCA CUGAUGAGGNNNNNNNNCCGAA AGGCCCUC	4626
2973	AUGGUGAUU GUUGAAUA	471	UAUUCAAC CUGAUGAGGNNNNNNNNCCGAA AUCACCAU	4627
2976	GUGAUUGUU GAAUACUG	472	CAGUAUUC CUGAUGAGGNNNNNNNNCCGAA ACAAUCAC	4628
2981	UGUUGAAUA CUGCAAAU	473	AUUUGCAG CUGAUGAGGNNNNNNNNCCGAA AUUCAACA	4629
2990	CUGCAAAUA UGGAAAUC	474	GAUUUCCA CUGAUGAGGNNNNNNNNCCGAA AUUUGCAG	4630
2998	AUGGAAAUC UCUCCAAC	475	GUUGGAGA CUGAUGAGGNNNNNNNNCCGAA AUUUCCAU	4631
3000	GGAAAUCUC UCCAACUA	476	UAGUUGGA CUGAUGAGGNNNNNNNNCCGAA AGAUUUCC	4632
3002	AAAUCUCUC CAACUACC	477	GGUAGUUG CUGAUGAGGNNNNNNNNCCGAA AGAGAUUU	4633
3008	CUCCAACUA CCUCAAGA	478	UCUUGAGG CUGAUGAGGNNNNNNNNCCGAA AGUUGGAG	4634
3012	AACUACCUC AAGAGCAA	479	UUGCUCUU CUGAUGAGGNNNNNNNNCCGAA AGGUAGUU	4635
3029	ACGUGACUU AUUUUUUC	480	GAAAAAAU CUGAUGAGGNNNNNNNNCCGAA AGUCACGU	4636
3030	CGUGACUUA UUUUUUCU	481	AGAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAGUCACG	4637
3032	UGACUUAUU UUUUCUCA	482	UGAGAAAA CUGAUGAGGNNNNNNNNCCGAA AUAAGUCA	4638
3033	GACUUAUUU UUUCUCAA	483	UUGAGAAA CUGAUGAGGNNNNNNNNCCGAA AAUAAGUC	4639
3034	ACUUAUUUU UUCUCAAC	484	GUUGAGAA CUGAUGAGGNNNNNNNNCCGAA AAAUAAGU	4640
3035	CUUAUUUUU UCUCAACA	485	UGUUGAGA CUGAUGAGGNNNNNNNNCCGAA AAAAUAAG	4641
3036	UUAUUUUUU CUCAACAA	486	UUGUUGAG CUGAUGAGGNNNNNNNNCCGAA AAAAAUAA	4642
3037	UAUUUUUUC UCAACAAG	487	CUUGUUGA CUGAUGAGGNNNNNNNNCCGAA AAAAAAUA	4643
3039	UUUUUUCUC AACAAGGA	488	UCCUUGUU CUGAUGAGGNNNNNNNNCCGAA AGAAAAAA	4644
3057	GCAGCACUA CACAUGGA	489	UCCAUGUG CUGAUGAGGNNNNNNNNCCGAA AGUGCUGC	4645
3070	UGGAGCCUA AGAAAGAA	490	UUCUUUCU CUGAUGAGGNNNNNNNNCCGAA AGGCUCCA	4646
3120	CCAAGACUA GAUAGCGU	491	ACGCUAUC CUGAUGAGGNNNNNNNNCCGAA AGUCUUGG	4647
3124	GACUAGAUA GCGUCACC	492	GGUGACGC CUGAUGAGGNNNNNNNNCCGAA AUCUAGUC	4648
3129	GAUAGCGUC ACCAGCAG	493	CUGCUGGU CUGAUGAGGNNNNNNNNCCGAA ACGCUAUC	4649
3146	CGAAAGCUU UGCGAGCU	494	AGCUCGCA CUGAUGAGGNNNNNNNNCCGAA AGCUUUCG	4650
3147	GAAAGCUUU GCGAGCUC	495	GAGCUCGC CUGAUGAGGNNNNNNNNCCGAA AAGCUUUC	4651
3155	UGCGAGCUC CGGCUUUC	496	GAAAGCCG CUGAUGAGGNNNNNNNNCCGAA AGCUCGCA	4652
3161	CUCCGGCUU UCAGGAAG	497	CUUCCUGA CUGAUGAGGNNNNNNNNCCGAA AGCCGGAG	4653
3162	UCCGGCUUU CAGGAAGA	498	UCUUCCUG CUGAUGAGGNNNNNNNNCCGAA AAGCCGGA	4654
3163	CCGGCUUUC AGGAAGAU	499	AUCUUCCU CUGAUGAGGNNNNNNNNCCGAA AAAGCCGG	4655
3172	AGGAAGAUA AAAGUCUG	500	CAGACUUU CUGAUGAGGNNNNNNNNCCGAA AUCUUCCU	4656
3178	AUAAAAGUC UGAGUGAU	501	AUCACUCA CUGAUGAGGNNNNNNNNCCGAA ACUUUUAU	4657
3189	AGUGAUGUU GAGGAAGA	502	UCUUCCUC CUGAUGAGGNNNNNNNNCCGAA ACAUCACU	4658
3205	AGGAGGAUU CUGACGGU	503	ACCGUCAG CUGAUGAGGNNNNNNNNCCGAA AUCCUCCU	4659
3206	GGAGGAUUC UGACGGUU	504	AACCGUCA CUGAUGAGGNNNNNNNNCCGAA AAUCCUCC	4660
3214	CUGACGGUU UCUACAAG	505	CUUGUAGA CUGAUGAGGNNNNNNNNCCGAA ACCGUCAG	4661
3215	UGACGGUUU CUACAAGG	506	CCUUGUAG CUGAUGAGGNNNNNNNNCCGAA AACCGUCA	4662
3216	GACGGUUUC UACAAGGA	507	UCCUUGUA CUGAUGAGGNNNNNNNNCCGAA AAACCGUC	4663
3218	CGGUUUCUA CAAGGAGC	508	GCUCCUUG CUGAUGAGGNNNNNNNNCCGAA AGAAACCG	4664
3231	GAGCCCAUC ACUAUGGA	509	UCCAUAGU CUGAUGAGGNNNNNNNNCCGAA AUGGGCUC	4665
3235	CCAUCACUA UGGAAGAU	510	AUCUUCCA CUGAUGAGGNNNNNNNNCCGAA AGUGAUGG	4666
3244	UGGAAGAUC UGAUUUCU	511	AGAAAUCA CUGAUGAGGNNNNNNNNCCGAA AUCUUCCA	4667
3249	GAUCUGAUU UCUUACAG	512	CUGUAAGA CUGAUGAGGNNNNNNNNCCGAA AUCAGAUC	4668
3250	AUCUGAUUU CUUACAGU	513	ACUGUAAG CUGAUGAGGNNNNNNNNCCGAA AAUCAGAU	4669
3251	UCUGAUUUC UUACAGUU	514	AACUGUAA CUGAUGAGGNNNNNNNNCCGAA AAAUCAGA	4670
3253	UGAUUUCUU ACAGUUUU	515	AAAACUGU CUGAUGAGGNNNNNNNNCCGAA AGAAAUCA	4671
3254	GAUUUCUUA CAGUUUUC	516	GAAAACUG CUGAUGAGGNNNNNNNNCCGAA AAGAAAUC	4672
3259	CUUACAGUU UUCAAGUG	517	CACUUGAA CUGAUGAGGNNNNNNNNCCGAA ACUGUAAG	4673
3260	UUACAGUUU UCAAGUGG	518	CCACUUGA CUGAUGAGGNNNNNNNNCCGAA AACUGUAA	4674
3261	UACAGUUUU CAAGUGGC	519	GCCACUUG CUGAUGAGGNNNNNNNNCCGAA AAACUGUA	4675
3262	ACAGUUUUC AAGUGGCC	520	GGCCACUU CUGAUGAGGNNNNNNNNCCGAA AAAACUGU	4676
3284	CAUGGAGUU CCUGUCUU	521	AAGACAGG CUGAUGAGGNNNNNNNNCCGAA ACUCCAUG	4677
3285	AUGGAGUUC CUGUCUUC	522	GAAGACAG CUGAUGAGGNNNNNNNNCCGAA AACUCCAU	4678
3290	GUUCCUGUC UUCCAGAA	523	UUCUGGAA CUGAUGAGGNNNNNNNNCCGAA ACAGGAAC	4679
3292	UCCUGUCUU CCAGAAAG	524	CUUUCUGG CUGAUGAGGNNNNNNNNCCGAA AGACAGGA	4680
3293	CCUGUCUUC CAGAAAGU	525	ACUUUCUG CUGAUGAGGNNNNNNNNCCGAA AAGACAGG	4681
3306	AAGUGCAUU CAUCGGGA	526	UCCCGAUG CUGAUGAGGNNNNNNNNCCGAA AUGCACUU	4682
3307	AGUGCAUUC AUCGGGAC	527	GUCCCGAU CUGAUGAGGNNNNNNNNCCGAA AAUGCACU	4683
3310	GCAUUCAUC GGGACCUG	528	CAGGUCCC CUGAUGAGGNNNNNNNNCCGAA AUGAAUGC	4684
3333	AGAAACAUU CUUUUAUC	529	GAUAAAAG CUGAUGAGGNNNNNNNNCCGAA AUGUUUCU	4685
3334	GAAACAUUC UUUUAUCU	530	AGAUAAAA CUGAUGAGGNNNNNNNNCCGAA AAUGUUUC	4686
3336	AACAUUCUU UUAUCUGA	531	UCAGAUAA CUGAUGAGGNNNNNNNNCCGAA AGAAUGUU	4687
3337	ACAUUCUUU UAUCUGAG	532	CUCAGAUA CUGAUGAGGNNNNNNNNCCGAA AAGAAUGU	4688
3338	CAUUCUUUU AUCUGAGA	533	UCUCAGAU CUGAUGAGGNNNNNNNNCCGAA AAAGAAUG	4689
3339	AUUCUUUUA UCUGAGAA	534	UUCUCAGA CUGAUGAGGNNNNNNNNCCGAA AAAAGAAU	4690
3341	UCUUUUAUC UGAGAACA	535	UGUUCUCA CUGAUGAGGNNNNNNNNCCGAA AUAAAAGA	4691
3363	GUGAAGAUU UGUGAUUU	536	AAAUCACA CUGAUGAGGNNNNNNNNCCGAA AUCUUCAC	4692
3364	UGAAGAUUU GUGAUUUU	537	AAAAUCAC CUGAUGAGGNNNNNNNNCCGAA AAUCUUCA	4693
3370	UUUGUGAUU UUGGCCUU	538	AAGGCCAA CUGAUGAGGNNNNNNNNCCGAA AUCACAAA	4694
3371	UUGUGAUUU UGGCCUUG	539	CAAGGCCA CUGAUGAGGNNNNNNNNCCGAA AAUCACAA	4695
3372	UGUGAUUUU GGCCUUGC	540	GCAAGGCC CUGAUGAGGNNNNNNNNCCGAA AAAUCACA	4696
3378	UUUGGCCUU GCCCGGGA	541	UCCCGGGC CUGAUGAGGNNNNNNNNCCGAA AGGCCAAA	4697
3388	CCCGGGAUA UUUAUAAG	542	CUUAUAAA CUGAUGAGGNNNNNNNNCCGAA AUCCCGGG	4698
3390	CGGGAUAUU UAUAAGAA	543	UUCUUAUA CUGAUGAGGNNNNNNNNCCGAA AUAUCCCG	4699
3391	GGGAUAUUU AUAAGAAC	544	GUUCUUAU CUGAUGAGGNNNNNNNNCCGAA AAUAUCCC	4700
3392	GGAUAUUUA UAAGAACC	545	GGUUCUUA CUGAUGAGGNNNNNNNNCCGAA AAAUAUCC	4701
3394	AUAUUUAUA AGAACCCC	546	GGGGUUCU CUGAUGAGGNNNNNNNNCCGAA AUAAAUAU	4702
3406	ACCCCGAUU AUGUGAGA	547	UCUCACAU CUGAUGAGGNNNNNNNNCCGAA AUCGGGGU	4703
3407	CCCCGAUUA UGUGAGAA	548	UUCUCACA CUGAUGAGGNNNNNNNNCCGAA AAUCGGGG	4704
3424	AAGGAGAUA CUCGACUU	549	AAGUCGAG CUGAUGAGGNNNNNNNNCCGAA AUCUCCUU	4705
3427	GAGAUACUC GACUUCCU	550	AGGAAGUC CUGAUGAGGNNNNNNNNCCGAA AGUAUCUC	4706
3432	ACUCGACUU CCUCUGAA	551	UUCAGAGG CUGAUGAGGNNNNNNNNCCGAA AGUCGAGU	4707
3433	CUCGACUUC CUCUGAAA	552	UUUCAGAG CUGAUGAGGNNNNNNNNCCGAA AAGUCGAG	4708
3436	GACUUCCUC UGAAAUGG	553	CCAUUUCA CUGAUGAGGNNNNNNNNCCGAA AGGAAGUC	4709
3451	GGAUGGCUC CCGAAUCU	554	AGAUUCGG CUGAUGAGGNNNNNNNNCCGAA AGCCAUCC	4710
3458	UCCCGAAUC UAUCUUUG	555	CAAAGAUA CUGAUGAGGNNNNNNNNCCGAA AUUCGGGA	4711
3460	CCGAAUCUA UCUUUGAC	556	GUCAAAGA CUGAUGAGGNNNNNNNNCCGAA AGAUUCGG	4712
3462	GAAUCUAUC UUUGACAA	557	UUGUCAAA CUGAUGAGGNNNNNNNNCCGAA AUAGAUUC	4713
3464	AUCUAUCUU UGACAAAA	558	UUUUGUCA CUGAUGAGGNNNNNNNNCCGAA AGAUAGAU	4714
3465	UCUAUCUUU GACAAAAU	559	AUUUUGUC CUGAUGAGGNNNNNNNNCCGAA AAGAUAGA	4715
3474	GACAAAAUC UACAGCAC	560	GUGCUGUA CUGAUGAGGNNNNNNNNCCGAA AUUUUGUC	4716
3476	CAAAAUCUA CAGCACCA	561	UGGUGCUG CUGAUGAGGNNNNNNNNCCGAA AGAUUUUG	4717
3500	CGUGUGGUC UUACGGAG	562	CUCCGUAA CUGAUGAGGNNNNNNNNCCGAA ACCACACG	4718
3502	UGUGGUCUU ACGGAGUA	563	UACUCCGU CUGAUGAGGNNNNNNNNCCGAA AGACCACA	4719
3503	GUGGUCUUA CGGAGUAU	564	AUACUCCG CUGAUGAGGNNNNNNNNCCGAA AAGACCAC	4720
3510	UACGGAGUA UUGCUGUG	565	CACAGCAA CUGAUGAGGNNNNNNNNCCGAA ACUCCGUA	4721
3512	CGGAGUAUU GCUGUGGG	566	CCCACAGC CUGAUGAGGNNNNNNNNCCGAA AUACUCCG	4722
3525	UGGGAAAUC UUCUCCUU	567	AAGGAGAA CUGAUGAGGNNNNNNNNCCGAA AUUUCCCA	4723
3527	GGAAAUCUU CUCCUUAG	568	CUAAGGAG CUGAUGAGGNNNNNNNNCCGAA AGAUUUCC	4724
3528	GAAAUCUUC UCCUUAGG	569	CCUAAGGA CUGAUGAGGNNNNNNNNCCGAA AAGAUUUC	4725
3530	AAUCUUCUC CUUAGGUG	570	CACCUAAG CUGAUGAGGNNNNNNNNCCGAA AGAAGAUU	4726
3533	CUUCUCCUU AGGUGGGU	571	ACCCACCU CUGAUGAGGNNNNNNNNCCGAA AGGAGAAG	4727
3534	UUCUCCUUA GGUGGGUC	572	GACCCACC CUGAUGAGGNNNNNNNNCCGAA AAGGAGAA	4728
3542	AGGUGGGUC UCCAUACC	573	GGUAUGGA CUGAUGAGGNNNNNNNNCCGAA ACCCACCU	4729
3544	GUGGGUCUC CAUACCCA	574	UGGGUAUG CUGAUGAGGNNNNNNNNCCGAA AGACCCAC	4730
3548	GUCUCCAUA CCCAGGAG	575	CUCCUGGG CUGAUGAGGNNNNNNNNCCGAA AUGGAGAC	4731
3558	CCAGGAGUA CAAAUGGA	576	UCCAUUUG CUGAUGAGGNNNNNNNNCCGAA ACUCCUGG	4732
3575	UGAGGACUU UUGCAGUC	577	GACUGCAA CUGAUGAGGNNNNNNNNCCGAA AGUCCUCA	4733
3576	GAGGACUUU UGCAGUCG	578	CGACUGCA CUGAUGAGGNNNNNNNNCCGAA AAGUCCUC	4734
3577	AGGACUUUU GCAGUCGC	579	GCGACUGC CUGAUGAGGNNNNNNNNCCGAA AAAGUCCU	4735
3583	UUUGCAGUC GCCUGAGG	580	CCUCAGGC CUGAUGAGGNNNNNNNNCCGAA ACUGCAAA	4736
3613	UGAGAGCUC CUGAGUAC	581	GUACUCAG CUGAUGAGGNNNNNNNNCCGAA AGCUCUCA	4737
3620	UCCUGAGUA CUCUACUC	582	GAGUAGAG CUGAUGAGGNNNNNNNNCCGAA ACUCAGGA	4738
3623	UGAGUACUC UACUCCUG	583	CAGGAGUA CUGAUGAGGNNNNNNNNCCGAA AGUACUCA	4739
3625	AGUACUCUA CUCCUGAA	584	UUCAGGAG CUGAUGAGGNNNNNNNNCCGAA AGAGUACU	4740
3628	ACUCUACUC CUGAAAUC	585	GAUUUCAG CUGAUGAGGNNNNNNNNCCGAA AGUAGAGU	4741
3636	CCUGAAAUC UAUCAGAU	586	AUCUGAUA CUGAUGAGGNNNNNNNNCCGAA AUUUCAGG	4742
3638	UGAAAUCUA UCAGAUCA	587	UGAUCUGA CUGAUGAGGNNNNNNNNCCGAA AGAUUUCA	4743
3640	AAAUCUAUC AGAUCAUG	588	CAUGAUCU CUGAUGAGGNNNNNNNNCCGAA AUAGAUUU	4744
3645	UAUCAGAUC AUGCUGGA	589	UCCAGCAU CUGAUGAGGNNNNNNNNCCGAA AUCUGAUA	4745
3689	GCCAAGAUU UGCAGAAC	590	GUUCUGCA CUGAUGAGGNNNNNNNNCCGAA AUCUUGGC	4746
3690	CCAAGAUUU GCAGAACU	591	AGUUCUGC CUGAUGAGGNNNNNNNNCCGAA AAUCUUGG	4747
3699	GCAGAACUU GUGGAAAA	592	UUUUCCAC CUGAUGAGGNNNNNNNNCCGAA AGUUCUGC	4748
3711	GAAAAACUA GGUGAUUU	593	AAAUCACC CUGAUGAGGNNNNNNNNCCGAA AGUUUUUC	4749
3718	UAGGUGAUU UGCUUCAA	594	UUGAAGCA CUGAUGAGGNNNNNNNNCCGAA AUCACCUA	4750
3719	AGGUGAUUU GCUUCAAG	595	CUUGAAGC CUGAUGAGGNNNNNNNNCCGAA AAUCACCU	4751
3723	GAUUUGCUU CAAGCAAA	596	UUUGCUUG CUGAUGAGGNNNNNNNNCCGAA AGCAAAUC	4752
3724	AUUUGCUUC AAGCAAAU	597	AUUUGCUU CUGAUGAGGNNNNNNNNCCGAA AAGCAAAU	4753
3735	GCAAAUGUA CAACAGGA	598	UCCUGUUG CUGAUGAGGNNNNNNNNCCGAA ACAUUUGC	4754
3748	AGGAUGGUA AAGACUAC	599	GUAGUCUU CUGAUGAGGNNNNNNNNCCGAA ACCAUCCU	4755
3755	UAAAGACUA CAUCCCAA	600	UUGGGAUG CUGAUGAGGNNNNNNNNCCGAA AGUCUUUA	4756
3759	GACUACAUC CCAAUCAA	601	UUGAUUGG CUGAUGAGGNNNNNNNNCCGAA AUGUAGUC	4757
3765	AUCCCAAUC AAUGCCAU	602	AUGGCAUU CUGAUGAGGNNNNNNNNCCGAA AUUGGGAU	4758
3774	AAUGCCAUA CUGACAGG	603	CCUGUCAG CUGAUGAGGNNNNNNNNCCGAA AUGGCAUU	4759
3787	CAGGAAAUA GUGGGUUU	604	AAACCCAC CUGAUGAGGNNNNNNNNCCGAA AUUUCCUG	4760
3794	UAGUGGGUU UACAUACU	605	AGUAUGUA CUGAUGAGGNNNNNNNNCCGAA ACCCACUA	4761
3795	AGUGGGUUU ACAUACUC	606	GAGUAUGU CUGAUGAGGNNNNNNNNCCGAA AACCCACU	4762
3796	GUGGGUUUA CAUACUCA	607	UGAGUAUG CUGAUGAGGNNNNNNNNCCGAA AAACCCAC	4763
3800	GUUUACAUA CUCAACUC	608	GAGUUGAG CUGAUGAGGNNNNNNNNCCGAA AUGUAAAC	4764
3803	UACAUACUC AACUCCUG	609	CAGGAGUU CUGAUGAGGNNNNNNNNCCGAA AGUAUGUA	4765
3808	ACUCAACUC CUGCCUUC	610	GAAGGCAG CUGAUGAGGNNNNNNNNCCGAA AGUUGAGU	4766
3815	UCCUGCCUU CUCUGAGG	611	CCUCAGAG CUGAUGAGGNNNNNNNNCCGAA AGGCAGGA	4767
3816	CCUGCCUUC UCUGAGGA	612	UCCUCAGA CUGAUGAGGNNNNNNNNCCGAA AAGGCAGG	4768
3818	UGCCUUCUC UGAGGACU	613	AGUCCUCA CUGAUGAGGNNNNNNNNCCGAA AGAAGGCA	4769
3827	UGAGGACUU CUUCAAGG	614	CCUUGAAG CUGAUGAGGNNNNNNNNCCGAA AGUCCUCA	4770
3828	GAGGACUUC UUCAAGGA	615	UCCUUGAA CUGAUGAGGNNNNNNNNCCGAA AAGUCCUC	4771
3830	GGACUUCUU CAAGGAAA	616	UUUCCUUG CUGAUGAGGNNNNNNNNCCGAA AGAAGUCC	4772
3831	GACUUCUUC AAGGAAAG	617	CUUUCCUU CUGAUGAGGNNNNNNNNCCGAA AAGAAGUC	4773
3841	AGGAAAGUA UUUCAGCU	618	AGCUGAAA CUGAUGAGGNNNNNNNNCCGAA ACUUUCCU	4774
3843	GAAAGUAUU UCAGCUCC	619	GGAGCUGA CUGAUGAGGNNNNNNNNCCGAA AUACUUUC	4775
3844	AAAGUAUUU CAGCUCCG	620	CGGAGCUG CUGAUGAGGNNNNNNNNCCGAA AAUACUUU	4776
3845	AAGUAUUUC AGCUCCGA	621	UCGGAGCU CUGAUGAGGNNNNNNNNCCGAA AAAUACUU	4777
3850	UUUCAGCUC CGAAGUUU	622	AAACUUCG CUGAUGAGGNNNNNNNNCCGAA AGCUGAAA	4778
3857	UCCGAAGUU UAAUUCAG	623	CUGAAUUA CUGAUGAGGNNNNNNNNCCGAA ACUUCGGA	4779
3858	CCGAAGUUU AAUUCAGG	624	CCUGAAUU CUGAUGAGGNNNNNNNNCCGAA AACUUCGG	4780
3859	CGAAGUUUA AUUCAGGA	625	UCCUGAAU CUGAUGAGGNNNNNNNNCCGAA AAACUUCG	4781
3862	AGUUUAAUU CAGGAAGC	626	GCUUCCUG CUGAUGAGGNNNNNNNNCCGAA AUUAAACU	4782
3863	GUUUAAUUC AGGAAGCU	627	AGCUUCCU CUGAUGAGGNNNNNNNNCCGAA AAUUAAAC	4783
3872	AGGAAGCUC UGAUGAUG	628	CAUCAUCA CUGAUGAGGNNNNNNNNCCGAA AGCUUCCU	4784
3882	GAUGAUGUC AGAUAUGU	629	ACAUAUCU CUGAUGAGGNNNNNNNNCCGAA ACAUCAUC	4785
3887	UGUCAGAUA UGUAAAUG	630	CAUUUACA CUGAUGAGGNNNNNNNNCCGAA AUCUGACA	4786
3891	AGAUAUGUA AAUGCUUU	631	AAAGCAUU CUGAUGAGGNNNNNNNNCCGAA ACAUAUCU	4787
3898	UAAAUGCUU UCAAGUUC	632	GAACUUGA CUGAUGAGGNNNNNNNNCCGAA AGCAUUUA	4788
3899	AAAUGCUUU CAAGUUCA	633	UGAACUUG CUGAUGAGGNNNNNNNNCCGAA AAGCAUUU	4789
3900	AAUGCUUUC AAGUUCAU	634	AUGAACUU CUGAUGAGGNNNNNNNNCCGAA AAAGCAUU	4790
3905	UUUCAAGUU CAUGAGCC	635	GGCUCAUG CUGAUGAGGNNNNNNNNCCGAA ACUUGAAA	4791
3906	UUCAAGUUC AUGAGCCU	636	AGGCUCAU CUGAUGAGGNNNNNNNNCCGAA AACUUGAA	4792
3924	GAAAGAAUC AAAACCUU	637	AAGGUUUU CUGAUGAGGNNNNNNNNCCGAA AUUCUUUC	4793
3932	CAAAACCUU UGAAGAAC	638	GUUCUUCA CUGAUGAGGNNNNNNNNCCGAA AGGUUUUG	4794
3933	AAAACCUUU GAAGAACU	639	AGUUCUUC CUGAUGAGGNNNNNNNNCCGAA AAGGUUUU	4795
3942	GAAGAACUU UUACCGAA	640	UUCGGUAA CUGAUGAGGNNNNNNNNCCGAA AGUUCUUC	4796
3943	AAGAACUUU UACCGAAU	641	AUUCGGUA CUGAUGAGGNNNNNNNNCCGAA AAGUUCUU	4797
3944	AGAACUUUU ACCGAAUG	642	CAUUCGGU CUGAUGAGGNNNNNNNNCCGAA AAAGUUCU	4798
3945	GAACUUUUA CCGAAUGC	643	GCAUUCGG CUGAUGAGGNNNNNNNNCCGAA AAAAGUUC	4799
3959	UGCCACCUC CAUGUUUG	644	CAAACAUG CUGAUGAGGNNNNNNNNCCGAA AGGUGGCA	4800
3965	CUCCAUGUU UGAUGACU	645	AGUCAUCA CUGAUGAGGNNNNNNNNCCGAA ACAUGGAG	4801
3966	UCCAUGUUU GAUGACUA	646	UAGUCAUC CUGAUGAGGNNNNNNNNCCGAA AACAUGGA	4802
3974	UGAUGACUA CCAGGGCG	647	CGCCCUGG CUGAUGAGGNNNNNNNNCCGAA AGUCAUCA	4803
3994	GCAGCACUC UGUUGGCC	648	GGCCAACA CUGAUGAGGNNNNNNNNCCGAA AGUGCUGC	4804
3998	CACUCUGUU GGCCUCUC	649	GAGAGGCC CUGAUGAGGNNNNNNNNCCGAA ACAGAGUG	4805
4004	GUUGGCCUC UCCCAUGC	650	GCAUGGGA CUGAUGAGGNNNNNNNNCCGAA AGGCCAAC	4806
4006	UGGCCUCUC CCAUGCUG	651	CAGCAUGG CUGAUGAGGNNNNNNNNCCGAA AGAGGCCA	4807
4022	GAAGCGCUU CACCUGGA	652	UCCAGGUG CUGAUGAGGNNNNNNNNCCGAA AGCGCUUC	4808
4023	AAGCGCUUC ACCUGGAC	653	GUCCAGGU CUGAUGAGGNNNNNNNNCCGAA AAGCGCUU	4809
4052	CAAGGCCUC GCUCAAGA	654	UCUUGAGC CUGAUGAGGNNNNNNNNCCGAA AGGCCUUG	4810
4056	GCCUCGCUC AAGAUUGA	655	UCAAUCUU CUGAUGAGGNNNNNNNNCCGAA AGCGAGGC	4811
4062	CUCAAGAUU GACUUGAG	656	CUCAAGUC CUGAUGAGGNNNNNNNNCCGAA AUCUUGAG	4812
4067	GAUUGACUU GAGAGUAA	657	UUACUCUC CUGAUGAGGNNNNNNNNCCGAA AGUCAAUC	4813
4074	UUGAGAGUA ACCAGUAA	658	UUACUGGU CUGAUGAGGNNNNNNNNCCGAA ACUCUCAA	4814
4081	UAACCAGUA AAAGUAAG	659	CUUACUUU CUGAUGAGGNNNNNNNNCCGAA ACUGGUUA	4815
4087	GUAAAAGUA AGGAGUCG	660	CGACUCCU CUGAUGAGGNNNNNNNNCCGAA ACUUUUAC	4816
4094	UAAGGAGUC GGGGCUGU	661	ACAGCCCC CUGAUGAGGNNNNNNNNCCGAA ACUCCUUA	4817
4103	GGGGCUGUC UGAUGUCA	662	UGACAUCA CUGAUGAGGNNNNNNNNCCGAA ACAGCCCC	4818
4110	UCUGAUGUC AGCAGGCC	663	GGCCUGCU CUGAUGAGGNNNNNNNNCCGAA ACAUCAGA	4819
4123	GGCCCAGUU UCUGCCAU	664	AUGGCAGA CUGAUGAGGNNNNNNNNCCGAA ACUGGGCC	4820
4124	GCCCAGUUU CUGCCAUU	665	AAUGGCAG CUGAUGAGGNNNNNNNNCCGAA AACUGGGC	4821
4125	CCCAGUUUC UGCCAUUC	666	GAAUGGCA CUGAUGAGGNNNNNNNNCCGAA AAACUGGG	4822
4132	UCUGCCAUU CCAGCUGU	667	ACAGCUGG CUGAUGAGGNNNNNNNNCCGAA AUGGCAGA	4823
4133	CUGCCAUUC CAGCUGUG	668	CACAGCUG CUGAUGAGGNNNNNNNNCCGAA AAUGGCAG	4824
4149	GGGCACGUC AGCGAAGG	669	CCUUCGCU CUGAUGAGGNNNNNNNNCCGAA ACGUGCCC	4825
4169	GCGCAGGUU CACCUACG	670	CGUAGGUG CUGAUGAGGNNNNNNNNCCGAA ACCUGCGC	4826
4170	CGCAGGUUC ACCUACGA	671	UCGUAGGU CUGAUGAGGNNNNNNNNCCGAA AACCUGCG	4827
4175	GUUCACCUA CGACCACG	672	CGUGGUCG CUGAUGAGGNNNNNNNNCCGAA AGGUGAAC	4828
4203	AGGAAAAUC GCGUGCUG	673	CAGCACGC CUGAUGAGGNNNNNNNNCCGAA AUUUUCCU	4829
4214	GUGCUGCUC CCCGCCCC	674	GGGGCGGG CUGAUGAGGNNNNNNNNCCGAA AGCAGCAC	4830
4229	CCCAGACUA CAACUCGG	675	CCGAGUUG CUGAUGAGGNNNNNNNNCCGAA AGUCUGGG	4831
4235	CUACAACUC GGUGGUCC	676	GGACCACC CUGAUGAGGNNNNNNNNCCGAA AGUUGUAG	4832
4242	UCGGUGGUC CUGUACUC	677	GAGUACAG CUGAUGAGGNNNNNNNNCCGAA ACCACCGA	4833
4247	GGUCCUGUA CUCCACCC	678	GGGUGGAG CUGAUGAGGNNNNNNNNCCGAA ACAGGACC	4834
4250	CCUGUACUC CACCCCAC	679	GUGGGGUG CUGAUGAGGNNNNNNNNCCGAA AGUACAGG	4835
4263	CCACCCAUC UAGAGUUU	680	AAACUCUA CUGAUGAGGNNNNNNNNCCGAA AUGGGUGG	4836
4265	ACCCAUCUA GAGUUUGA	681	UCAAACUC CUGAUGAGGNNNNNNNNCCGAA AGAUGGGU	4837
4270	UCUAGAGUU UGACACGA	682	UCGUGUCA CUGAUGAGGNNNNNNNNCCGAA ACUCUAGA	4838
4271	CUAGAGUUU GACACGAA	683	UUCGUGUC CUGAUGAGGNNNNNNNNCCGAA AACUCUAG	4839
4284	CGAAGCCUU AUUUCUAG	684	CUAGAAAU CUGAUGAGGNNNNNNNNCCGAA AGGCUUCG	4840
4285	GAAGCCUUA UUUCUAGA	685	UCUAGAAA CUGAUGAGGNNNNNNNNCCGAA AAGGCUUC	4841
4287	AGCCUUAUU UCUAGAAG	686	CUUCUAGA CUGAUGAGGNNNNNNNNCCGAA AUAAGGCU	4842
4288	GCCUUAUUU CUAGAAGC	687	GCUUCUAG CUGAUGAGGNNNNNNNNCCGAA AAUAAGGC	4843
4289	CCUUAUUUC UAGAAGCA	688	UGCUUCUA CUGAUGAGGNNNNNNNNCCGAA AAAUAAGG	4844
4291	UUAUUUCUA GAAGCACA	689	UGUGCUUC CUGAUGAGGNNNNNNNNCCGAA AGAAAUAA	4845
4305	ACAUGUGUA UUUAUACC	690	GGUAUAAA CUGAUGAGGNNNNNNNNCCGAA ACACAUGU	4846
4307	AUGUGUAUU UAUACCCC	691	GGGGUAUA CUGAUGAGGNNNNNNNNCCGAA AUACACAU	4847
4308	UGUGUAUUU AUACCCCC	692	GGGGGUAU CUGAUGAGGNNNNNNNNCCGAA AAUACACA	4848
4309	GUGUAUUUA UACCCCCA	693	UGGGGGUA CUGAUGAGGNNNNNNNNCCGAA AAAUACAC	4849
4311	GUAUUUAUA CCCCCAGG	694	CCUGGGGG CUGAUGAGGNNNNNNNNCCGAA AUAAAUAC	4850
4325	AGGAAACUA GCUUUUGC	695	GCAAAAGC CUGAUGAGGNNNNNNNNCCGAA AGUUUCCU	4851
4329	AACUAGCUU UUGCCAGU	696	ACUGGCAA CUGAUGAGGNNNNNNNNCCGAA AGCUAGUU	4852
4330	ACUAGCUUU UGCCAGUA	697	UACUGGCA CUGAUGAGGNNNNNNNNCCGAA AAGCUAGU	4853
4331	CUAGCUUUU GCCAGUAU	698	AUACUGGC CUGAUGAGGNNNNNNNNCCGAA AAAGCUAG	4854
4338	UUGCCAGUA UUAUGCAU	699	AUGCAUAA CUGAUGAGGNNNNNNNNCCGAA ACUGGCAA	4855
4340	GCCAGUAUU AUGCAUAU	700	AUAUGCAU CUGAUGAGGNNNNNNNNCCGAA AUACUGGC	4856
4341	CCAGUAUUA UGCAUAUA	701	UAUAUGCA CUGAUGAGGNNNNNNNNCCGAA AAUACUGG	4857
4347	UUAUGCAUA UAUAAGUU	702	AACUUAUA CUGAUGAGGNNNNNNNNCCGAA AUGCAUAA	4858
4349	AUGCAUAUA UAAGUUUA	703	UAAACUUA CUGAUGAGGNNNNNNNNCCGAA AUAUGCAU	4859
4351	GCAUAUAUA AGUUUACA	704	UGUAAACU CUGAUGAGGNNNNNNNNCCGAA AUAUAUGC	4860
4355	AUAUAAGUU UACACCUU	705	AAGGUGUA CUGAUGAGGNNNNNNNNCCGAA ACUUAUAU	4861
4356	UAUAAGUUU ACACCUUU	706	AAAGGUGU CUGAUGAGGNNNNNNNNCCGAA AACUUAUA	4862
4357	AUAAGUUUA CACCUUUA	707	UAAAGGUG CUGAUGAGGNNNNNNNNCCGAA AAACUUAU	4863
4363	UUACACCUU UAUCUUUC	708	GAAAGAUA CUGAUGAGGNNNNNNNNCCGAA AGGUGUAA	4864
4364	UACACCUUU AUCUUUCC	709	GGAAAGAU CUGAUGAGGNNNNNNNNCCGAA AAGGUGUA	4865
4365	ACACCUUUA UCUUUCCA	710	UGGAAAGA CUGAUGAGGNNNNNNNNCCGAA AAAGGUGU	4866
4367	ACCUUUAUC UUUCCAUG	711	CAUGGAAA CUGAUGAGGNNNNNNNNCCGAA AUAAAGGU	4867
4369	CUUUAUCUU UCCAUGGG	712	CCCAUGGA CUGAUGAGGNNNNNNNNCCGAA AGAUAAAG	4868
4370	UUUAUCUUU CCAUGGGA	713	UCCCAUGG CUGAUGAGGNNNNNNNNCCGAA AAGAUAAA	4869
4371	UUAUCUUUC CAUGGGAG	714	CUCCCAUG CUGAUGAGGNNNNNNNNCCGAA AAAGAUAA	4870
4389	CAGCUGCUU UUUGUGAU	715	AUCACAAA CUGAUGAGGNNNNNNNNCCGAA AGCAGCUG	4871
4390	AGCUGCUUU UUGUGAUU	716	AAUCACAA CUGAUGAGGNNNNNNNNCCGAA AAGCAGCU	4872
4391	GCUGCUUUU UGUGAUUU	717	AAAUCACA CUGAUGAGGNNNNNNNNCCGAA AAAGCAGC	4873
4392	CUGCUUUUU GUGAUUUU	718	AAAAUCAC CUGAUGAGGNNNNNNNNCCGAA AAAAGCAG	4874
4398	UUUGUGAUU UUUUUAAU	719	AUUAAAAA CUGAUGAGGNNNNNNNNCCGAA AUCACAAA	4875
4399	UUGUGAUUU UUUUAAUA	720	UAUUAAAA CUGAUGAGGNNNNNNNNCCGAA AAUCACAA	4876
4400	UGUGAUUUU UUUAAUAG	721	CUAUUAAA CUGAUGAGGNNNNNNNNCCGAA AAAUCACA	4877
4401	GUGAUUUUU UUAAUAGU	722	ACUAUUAA CUGAUGAGGNNNNNNNNCCGAA AAAAUCAC	4878
4402	UGAUUUUUU UAAUAGUG	723	CACUAUUA CUGAUGAGGNNNNNNNNCCGAA AAAAAUCA	4879
4403	GAUUUUUUU AAUAGUGC	724	GCACUAUU CUGAUGAGGNNNNNNNNCCGAA AAAAAAUC	4880
4404	AUUUUUUUA AUAGUGCU	725	AGCACUAU CUGAUGAGGNNNNNNNNCCGAA AAAAAAAU	4881
4407	UUUUUAAUA GUGCUUUU	726	AAAAGCAC CUGAUGAGGNNNNNNNNCCGAA AUUAAAAA	4882
4413	AUAGUGCUU UUUUUUUU	727	AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AGCACUAU	4883
4414	UAGUGCUUU UUUUUUUU	728	AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAGCACUA	4884
4415	AGUGCUUUU UUUUUUUG	729	CAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAGCACU	4885
4416	GUGCUUUUU UUUUUUGA	730	UCAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAGCAC	4886
4417	UGCUUUUUU UUUUUGAC	731	GUCAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAGCA	4887
4418	GCUUUUUUU UUUUGACU	732	AGUCAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAGC	4888
4419	CUUUUUUUU UUUGACUA	733	UAGUCAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAG	4889
4420	UUUUUUUUU UUGACUAA	734	UUAGUCAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA	4890
4421	UUUUUUUUU UGACUAAC	735	GUUAGUCA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA	4891
4422	UUUUUUUUU GACUAACA	736	UGUUAGUC CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA	4892
4427	UUUUGACUA ACAAGAAU	737	AUUCUUGU CUGAUGAGGNNNNNNNNCCGAA AGUCAAAA	4893
4438	AAGAAUGUA ACUCCAGA	738	UCUGGAGU CUGAUGAGGNNNNNNNNCCGAA ACAUUCUU	4894
4442	AUGUAACUC CAGAUAGA	739	UCUAUCUG CUGAUGAGGNNNNNNNNCCGAA AGUUACAU	4895
4448	CUCCAGAUA GAGAAAUA	740	UAUUUCUC CUGAUGAGGNNNNNNNNCCGAA AUCUGGAG	4896
4456	AGAGAAAUA GUGACAAG	741	CUUGUCAC GUGAUGAGGNNNNNNNNCCGAA AUUUCUCU	4897
4476	AGAACACUA CUGCUAAA	742	UUUAGCAG CUGAUGAGGNNNNNNNNCCGAA AGUGUUCU	4898
4482	CUACUGCUA AAUCCUCA	743	UGAGGAUU CUGAUGAGGNNNNNNNNCCGAA AGCAGUAG	4899
4486	UGCUAAAUC CUCAUGUU	744	AACAUGAG CUGAUGAGGNNNNNNNNCCGAA AUUUAGCA	4900
4489	UAAAUCCUC AUGUUACU	745	AGUAACAU CUGAUGAGGNNNNNNNNCCGAA AGGAUUUA	4901
4494	CCUCAUGUU ACUCAGUG	746	CACUGAGU CUGAUGAGGNNNNNNNNCCGAA ACAUGAGG	4902
4495	CUCAUGUUA CUCAGUGU	747	ACACUGAG CUGAUGAGGNNNNNNNNCCGAA AACAUGAG	4903
4498	AUGUUACUC AGUGUUAG	748	CUAACACU CUGAUGAGGNNNNNNNNCCGAA AGUAACAU	4904
4504	CUCAGUGUU AGAGAAAU	749	AUUUCUCU CUGAUGAGGNNNNNNNNCCGAA ACACUGAG	4905
4505	UCAGUGUUA GAGAAAUC	750	GAUUUCUC CUGAUGAGGNNNNNNNNCCGAA AACACUGA	4906
4513	AGAGAAAUC CUUCCUAA	751	UUAGGAAG CUGAUGAGGNNNNNNNNCCGAA AUUUCUCU	4907
4516	GAAAUCCUU CCUAAACC	752	GGUUUAGG CUGAUGAGGNNNNNNNNCCGAA AGGAUUUC	4908
4517	AAAUCCUUC CUAAACCC	753	GGGUUUAG CUGAUGAGGNNNNNNNNCCGAA AAGGAUUU	4909
4520	UCCUUCCUA AACCCAAU	754	AUUGGGUU CUGAUGAGGNNNNNNNNCCGAA AGGAAGGA	4910
4533	CAAUGACUU CCCUGCUC	755	GAGCAGGG CUGAUGAGGNNNNNNNNCCGAA AGUCAUUG	4911
4534	AAUGACUUC CCUGCUCC	756	GGAGCAGG CUGAUGAGGNNNNNNNNCCGAA AAGUCAUU	4912
4541	UCCCUGCUC CAACCCCC	757	GGGGGUUG CUGAUGAGGNNNNNNNNCCGAA AGCAGGGA	4913
4557	CGCCACCUC AGGGCACG	758	CGUGCCCU CUGAUGAGGNNNNNNNNCCGAA AGGUGGCG	4914
4576	GGACCAGUU UGAUUGAG	759	CUCAAUCA CUGAUGAGGNNNNNNNNCCGAA ACUGGUCC	4915
4577	GACCAGUUU GAUUGAGG	760	CCUCAAUC CUGAUGAGGNNNNNNNNCCGAA AACUGGUC	4916
4581	AGUUUGAUU GAGGAGCU	761	AGCUCCUC CUGAUGAGGNNNNNNNNCCGAA AUCAAACU	4917
4598	GCACUGAUC ACCCAAUG	762	CAUUGGGU CUGAUGAGGNNNNNNNNCCGAA AUCAGUGC	4918
4610	CAAUGCAUC ACGUACCC	763	GGGUACGU CUGAUGAGGNNNNNNNNCCGAA AUGCAUUG	4919
4615	CAUCACGUA CCCCACUG	764	CAGUGGGG CUGAUGAGGNNNNNNNNCCGAA ACGUGAUG	4920
4664	AAGCCCGUU AGCCCCAG	765	CUGGGGCU CUGAUGAGGNNNNNNNNCCGAA ACGGGCUU	4921
4665	AGCCCGUUA GCCCCAGG	766	CCUGGGGC CUGAUGAGGNNNNNNNNCCGAA AACGGGCU	4922
4678	CAGGGGAUC ACUGGCUG	767	CAGCCAGU CUGAUGAGGNNNNNNNNCCGAA AUCCCCUG	4923
4700	AGCAACAUC UCGGGAGU	768	ACUCCCGA CUGAUGAGGNNNNNNNNCCGAA AUGUUGCU	4924
4702	CAACAUCUC GGGAGUCC	769	GGACUCCC CUGAUGAGGNNNNNNNNCCGAA AGAUGUUG	4925
4709	UCGGGAGUC CUCUAGCA	770	UGCUAGAG CUGAUGAGGNNNNNNNNCCGAA ACUCCCGA	4926
4712	GGAGUCCUC UAGCAGGC	771	GCCUGCUA CUGAUGAGGNNNNNNNNCCGAA AGGACUCC	4927
4714	AGUCCUCUA GCAGGCCU	772	AGGCCUGC CUGAUGAGGNNNNNNNNCCGAA AGAGGACU	4928
4723	GCAGGCCUA AGACAUGU	773	ACAUGUCU CUGAUGAGGNNNNNNNNCCGAA AGGCCUGC	4929
4802	GAAAGAAUU UGAGACGC	774	GCGUCUCA CUGAUGAGGNNNNNNNNCCGAA AUUCUUUC	4930
4803	AAAGAAUUU GAGACGCA	775	UGCGUCUC CUGAUGAGGNNNNNNNNCCGAA AAUUCUUU	4931
4840	ACGGGGCUC AGCAAUGC	776	GCAUUGCU CUGAUGAGGNNNNNNNNCCGAA AGCCCCGU	4932
4852	AAUGCCAUU UCAGUGGC	777	GCCACUGA CUGAUGAGGNNNNNNNNCCGAA AUGGCAUU	4933
4853	AUGCCAUUU CAGUGGCU	778	AGCCACUG CUGAUGAGGNNNNNNNNCCGAA AAUGGCAU	4934
4854	UGCCAUUUC AGUGGCUU	779	AAGCCACU CUGAUGAGGNNNNNNNNCCGAA AAAUGGCA	4935
4862	CAGUGGCUU CCCAGCUC	780	GAGCUGGG CUGAUGAGGNNNNNNNNCCGAA AGCCACUG	4936
4863	AGUGGCUUC CCAGCUCU	781	AGAGCUGG CUGAUGAGGNNNNNNNNCCGAA AAGCCACU	4937
4870	UCCCAGCUC UGACCCUU	782	AAGGGUCA CUGAUGAGGNNNNNNNNCCGAA AGCUGGGA	4938
4878	CUGACCCUU CUACAUUU	783	AAAUGUAG CUGAUGAGGNNNNNNNNCCGAA AGGGUCAG	4939
4879	UGACCCUUC UACAUUUG	784	CAAAUGUA CUGAUGAGGNNNNNNNNCCGAA AAGGGUCA	4940
4881	ACCCUUCUA CAUUUGAG	785	CUCAAAUG CUGAUGAGGNNNNNNNNCCGAA AGAAGGGU	4941
4885	UUCUACAUU UGAGGGCC	786	GGCCCUCA CUGAUGAGGNNNNNNNNCCGAA AUGUAGAA	4942
4886	UCUACAUUU GAGGGCCC	787	GGGCCCUC CUGAUGAGGNNNNNNNNCCGAA AAUGUAGA	4943
4929	GGGGACAUU UUCUGGAU	788	AUCCAGAA CUGAUGAGGNNNNNNNNCCGAA AUGUCCCC	4944
4930	GGGACAUUU UCUGGAUU	789	AAUCCAGA CUGAUGAGGNNNNNNNNCCGAA AAUGUCCC	4945
4931	GGACAUUUU CUGGAUUC	790	GAAUCCAG CUGAUGAGGNNNNNNNNCCGAA AAAUGUCC	4946
4932	GACAUUUUC UGGAUUCU	791	AGAAUCCA CUGAUGAGGNNNNNNNNCCGAA AAAAUGUC	4947
4938	UUCUGGAUU CUGGGAGG	792	CCUCCCAG CUGAUGAGGNNNNNNNNCCGAA AUCCAGAA	4948
4939	UCUGGAUUC UGGGAGGC	793	GCCUCCCA GUGAUGAGGNNNNNNNNCCGAA AAUCCAGA	4949
4963	GGACAAAUA UCUUUUUU	794	AAAAAAGA CUGAUGAGGNNNNNNNNCCGAA AUUUGUCC	4950
4965	ACAAAUAUC UUUUUUGG	795	CCAAAAAA CUGAUGAGGNNNNNNNNCCGAA AUAUUUGU	4951
4967	AAAUAUCUU UUUUGGAA	796	UUCCAAAA CUGAUGAGGNNNNNNNNCCGAA AGAUAUUU	4952
4968	AAUAUCUUU UUUGGAAC	797	GUUCCAAA CUGAUGAGGNNNNNNNNCCGAA AAGAUAUU	4953
4969	AUAUCUUUU UUGGAACU	798	AGUUCCAA CUGAUGAGGNNNNNNNNCCGAA AAAGAUAU	4954
4970	UAUCUUUUU UGGAACUA	799	UAGUUCCA CUGAUGAGGNNNNNNNNCCGAA AAAAGAUA	4955
4971	AUCUUUUUU GGAACUAA	800	UUAGUUCC CUGAUGAGGNNNNNNNNCCGAA AAAAAGAU	4956
4978	UUGGAACUA AAGCAAAU	801	AUUUGCUU CUGAUGAGGNNNNNNNNCCGAA AGUUCCAA	4957
4987	AAGCAAAUU UUAGACCU	802	AGGUCUAA CUGAUGAGGNNNNNNNNCCGAA AUUUGCUU	4958
4988	AGCAAAUUU UAGACCUU	803	AAGGUCUA CUGAUGAGGNNNNNNNNCCGAA AAUUUGCU	4959
4989	GCAAAUUUU AGACCUUU	804	AAAGGUCU CUGAUGAGGNNNNNNNNCCGAA AAAUUUGC	4960
4990	CAAAUUUUA GACCUUUA	805	UAAAGGUC CUGAUGAGGNNNNNNNNCCGAA AAAAUUUG	4961
4996	UUAGACCUU UACCUAUG	806	CAUAGGUA CUGAUGAGGNNNNNNNNCCGAA AGGUCUAA	4962
4997	UAGACCUUU ACCUAUGG	807	CCAUAGGU CUGAUGAGGNNNNNNNNCCGAA AAGGUCUA	4963
4998	AGACCUUUA CCUAUGGA	808	UCCAUAGG CUGAUGAGGNNNNNNNNCCGAA AAAGGUCU	4964
5002	CUUUACCUA UGGAAGUG	809	CACUUCCA CUGAUGAGGNNNNNNNNCCGAA AGGUAAAG	4965
5013	GAAGUGGUU CUAUGUCC	810	GGACAUAG CUGAUGAGGNNNNNNNNCCGAA ACCACUUC	4966
5014	AAGUGGUUC UAUGUCCA	811	UGGACAUA CUGAUGAGGNNNNNNNNCCGAA AACCACUU	4967
5016	GUGGUUCUA UGUCCAUU	812	AAUGGACA CUGAUGAGGNNNNNNNNCCGAA AGAACCAC	4968
5020	UUCUAUGUC CAUUCUCA	813	UGAGAAUG CUGAUGAGGNNNNNNNNCCGAA ACAUAGAA	4969
5024	AUGUCCAUU CUCAUUCG	814	CGAAUGAG CUGAUGAGGNNNNNNNNCCGAA AUGGACAU	4970
5025	UGUCCAUUC UCAUUCGU	815	ACGAAUGA CUGAUGAGGNNNNNNNNCCGAA AAUGGACA	4971
5027	UCCAUUCUC AUUCGUGG	816	CCACGAAU CUGAUGAGGNNNNNNNNCCGAA AGAAUGGA	4972
5030	AUUCUCAUU CGUGGCAU	817	AUGCCACG CUGAUGAGGNNNNNNNNCCGAA AUGAGAAU	4973
5031	UUCUCAUUC GUGGCAUG	818	CAUGCCAC CUGAUGAGGNNNNNNNNCCGAA AAUGAGAA	4974
5041	UGGCAUGUU UUGAUUUG	819	CAAAUCAA CUGAUGAGGNNNNNNNNCCGAA ACAUGCCA	4975
5042	GGCAUGUUU UGAUUUGU	820	ACAAAUCA CUGAUGAGGNNNNNNNNCCGAA AACAUGCC	4976
5043	GCAUGUUUU GAUUUGUA	821	UACAAAUC CUGAUGAGGNNNNNNNNCCGAA AAACAUGC	4977
5047	GUUUUGAUU UGUAGCAC	822	GUGCUACA CUGAUGAGGNNNNNNNNCCGAA AUCAAAAC	4978
5048	UUUUGAUUU GUAGCACU	823	AGUGCUAC CUGAUGAGGNNNNNNNNCCGAA AAUCAAAA	4979
5051	UGAUUUGUA GCACUGAG	824	CUCAGUGC CUGAUGAGGNNNNNNNNCCGAA ACAAAUCA	4980
5069	GUGGCACUC AACUCUGA	825	UCAGAGUU CUGAUGAGGNNNNNNNNCCGAA AGUGCCAC	4981
5074	ACUCAACUC UGAGCCCA	826	UGGGCUCA CUGAUGAGGNNNNNNNNCCGAA AGUUGAGU	4982
5084	GAGCCCAUA CUUUUGGC	827	GCCAAAAG CUGAUGAGGNNNNNNNNCCGAA AUGGGCUC	4983
5087	CCCAUACUU UUGGCUCC	828	GGAGCCAA CUGAUGAGGNNNNNNNNCCGAA AGUAUGGG	4984
5088	CCAUACUUU UGGCUCCU	829	AGGAGCCA CUGAUGAGGNNNNNNNNCCGAA AAGUAUGG	4985
5089	CAUACUUUU GGCUCCUC	830	GAGGAGCC CUGAUGAGGNNNNNNNNCCGAA AAAGUAUG	4986
5094	UUUUGGCUC CUCUAGUA	831	UACUAGAG CUGAUGAGGNNNNNNNNCCGAA AGCCAAAA	4987
5097	UGGCUCCUC UAGUAAGA	832	UCUUACUA CUGAUGAGGNNNNNNNNCCGAA AGGAGCCA	4988
5099	GCUCCUCUA GUAAGAUG	833	CAUCUUAC CUGAUGAGGNNNNNNNNCCGAA AGAGGAGC	4989
5102	CCUCUAGUA AGAUGCAC	834	GUGCAUCU CUGAUGAGGNNNNNNNNCCGAA ACUAGAGG	4990
5119	UGAAAACUU AGCCAGAG	835	CUCUGGCU CUGAUGAGGNNNNNNNNCCGAA AGUUUUCA	4991
5120	GAAAACUUA GCCAGAGU	836	ACUCUGGC CUGAUGAGGNNNNNNNNCCGAA AAGUUUUC	4992
5129	GCCAGAGUU AGGUUGUC	837	GACAACCU CUGAUGAGGNNNNNNNNCCGAA ACUCUGGC	4993
5130	CCAGAGUUA GGUUGUCU	838	AGACAACC CUGAUGAGGNNNNNNNNCCGAA AACUCUGG	4994
5134	AGUUAGGUU GUCUCCAG	839	CUGGAGAC CUGAUGAGGNNNNNNNNCCGAA ACCUAACU	4995
5137	UAGGUUGUC UCCAGGCC	840	GGCCUGGA CUGAUGAGGNNNNNNNNCCGAA ACAACCUA	4996
5139	GGUUGUCUC CAGGCCAU	841	AUGGCCUG CUGAUGAGGNNNNNNNNCCGAA AGACAACC	4997
5156	GAUGGCCUU ACACUGAA	842	UUCAGUGU CUGAUGAGGNNNNNNNNCCGAA AGGCCAUC	4998
5157	AUGGCCUUA CACUGAAA	843	UUUCAGUG CUGAUGAGGNNNNNNNNCCGAA AAGGCCAU	4999
5170	GAAAAUGUC ACAUUCUA	844	UAGAAUGU CUGAUGAGGNNNNNNNNCCGAA ACAUUUUC	5000
5175	UGUCACAUU CUAUUUUG	845	CAAAAUAG CUGAUGAGGNNNNNNNNCCGAA AUGUGACA	5001
5176	GUCACAUUC UAUUUUGG	846	CCAAAAUA CUGAUGAGGNNNNNNNNCCGAA AAUGUGAC	5002
5178	CACAUUCUA UUUUGGGU	847	ACCCAAAA CUGAUGAGGNNNNNNNNCCGAA AGAAUGUG	5003
5180	CAUUCUAUU UUGGGUAU	848	AUACCCAA CUGAUGAGGNNNNNNNNCCGAA AUAGAAUG	5004
5181	AUUCUAUUU UGGGUAUU	849	AAUACCCA CUGAUGAGGNNNNNNNNCCGAA AAUAGAAU	5005
5182	UUCUAUUUU GGGUAUUA	850	UAAUACCC CUGAUGAGGNNNNNNNNCCGAA AAAUAGAA	5006
5187	UUUUGGGUA UUAAUAUA	851	UAUAUUAA CUGAUGAGGNNNNNNNNCCGAA ACCCAAAA	5007
5189	UUGGGUAUU AAUAUAUA	852	UAUAUAUU CUGAUGAGGNNNNNNNNCCGAA AUACCCAA	5008
5190	UGGGUAUUA AUAUAUAG	853	CUAUAUAU CUGAUGAGGNNNNNNNNCCGAA AAUACCCA	5009
5193	GUAUUAAUA UAUAGUCC	854	GGACUAUA CUGAUGAGGNNNNNNNNCCGAA AUUAAUAC	5010
5195	AUUAAUAUA UAGUCCAG	855	CUGGACUA CUGAUGAGGNNNNNNNNCCGAA AUAUUAAU	5011
5197	UAAUAUAUA GUCCAGAC	856	GUCUGGAC CUGAUGAGGNNNNNNNNCCGAA AUAUAUUA	5012
5200	UAUAUAGUC CAGACACU	857	AGUGUCUG CUGAUGAGGNNNNNNNNCCGAA ACUAUAUA	5013
5209	CAGACACUU AACUCAAU	858	AUUGAGUU CUGAUGAGGNNNNNNNNCCGAA AGUGUCUG	5014
5210	AGACACUUA ACUCAAUU	859	AAUUGAGU CUGAUGAGGNNNNNNNNCCGAA AAGUGUCU	5015
5214	ACUUAACUC AAUUUCUU	860	AAGAAAUU CUGAUGAGGNNNNNNNNCCGAA AGUUAAGU	5016
5218	AACUCAAUU UCUUGGUA	861	UACCAAGA CUGAUGAGGNNNNNNNNCCGAA AUUGAGUU	5017
5219	ACUCAAUUU CUUGGUAU	862	AUACCAAG CUGAUGAGGNNNNNNNNCCGAA AAUUGAGU	5018
5220	CUCAAUUUC UUGGUAUU	863	AAUACCAA CUGAUGAGGNNNNNNNNCCGAA AAAUUGAG	5019
5222	CAAUUUCUU GGUAUUAU	864	AUAAUACC CUGAUGAGGNNNNNNNNCCGAA AGAAAUUG	5020
5226	UUCUUGGUA UUAUUCUG	865	CAGAAUAA CUGAUGAGGNNNNNNNNCCGAA ACCAAGAA	5021
5228	CUUGGUAUU AUUCUGUU	866	AACAGAAU CUGAUGAGGNNNNNNNNCCGAA AUACCAAG	5022
5229	UUGGUAUUA UUCUGUUU	867	AAACAGAA CUGAUGAGGNNNNNNNNCCGAA AAUACCAA	5023
5231	GGUAUUAUU CUGUUUUG	868	CAAAACAG CUGAUGAGGNNNNNNNNCCGAA AUAAUACC	5024
5232	GUAUUAUUC UGUUUUGC	869	GCAAAACA CUGAUGAGGNNNNNNNNCCGAA AAUAAUAC	5025
5236	UAUUCUGUU UUGCACAG	870	CUGUGCAA CUGAUGAGGNNNNNNNNCCGAA ACAGAAUA	5026
5237	AUUCUGUUU UGCACAGU	871	ACUGUGCA CUGAUGAGGNNNNNNNNCCGAA AACAGAAU	5027
5238	UUCUGUUUU GCACAGUU	872	AACUGUGC CUGAUGAGGNNNNNNNNCCGAA AAACAGAA	5028
5246	UGCACAGUU AGUUGUGA	873	UCACAACU CUGAUGAGGNNNNNNNNCCGAA ACUGUGCA	5029
5247	GCACAGUUA GUUGUGAA	874	UUCACAAC CUGAUGAGGNNNNNNNNCCGAA AACUGUGC	5030
5250	CAGUUAGUU GUGAAAGA	875	UCUUUCAC CUGAUGAGGNNNNNNNNCCGAA ACUAACUG	5031
5284	AAUGCAGUC CUGAGGAG	876	CUCCUCAG CUGAUGAGGNNNNNNNNCCGAA ACUGCAUU	5032
5296	AGGAGAGUU UUCUCCAU	877	AUGGAGAA CUGAUGAGGNNNNNNNNCCGAA ACUCUCCU	5033
5297	GGAGAGUUU UCUCCAUA	878	UAUGGAGA CUGAUGAGGNNNNNNNNCCGAA AACUCUCC	5034
5298	GAGAGUUUU CUCCAUAU	879	AUAUGGAG CUGAUGAGGNNNNNNNNCCGAA AAACUCUC	5035
5299	AGAGUUUUC UCCAUAUC	880	GAUAUGGA CUGAUGAGGNNNNNNNNCCGAA AAAACUCU	5036
5301	AGUUUUCUC CAUAUCAA	881	UUGAUAUG CUGAUGAGGNNNNNNNNCCGAA AGAAAACU	5037
5305	UUCUCCAUA UCAAAACG	882	CGUUUUGA CUGAUGAGGNNNNNNNNCCGAA AUGGAGAA	5038
5307	CUCCAUAUC AAAACGAG	883	CUCGUUUU CUGAUGAGGNNNNNNNNCCGAA AUAUGGAG	5039
5336	AAAAAGGUC AAUAAGGU	884	ACCUUAUU CUGAUGAGGNNNNNNNNCCGAA ACCUUUUU	5040
5340	AGGUCAAUA AGGUCAAG	885	CUUGACCU CUGAUGAGGNNNNNNNNCCGAA AUUGACCU	5041
5345	AAUAAGGUC AAGGGAAG	886	CUUCCCUU CUGAUGAGGNNNNNNNNCCGAA ACCUUAUU	5042
5361	GACCCCGUC UCUAUACC	887	GGUAUAGA CUGAUGAGGNNNNNNNNCCGAA ACGGGGUC	5043
5363	CCCCGUCUC UAUACCAA	888	UUGGUAUA CUGAUGAGGNNNNNNNNCCGAA AGACGGGG	5044
5365	CCGUCUCUA UACCAACC	889	GGUUGGUA CUGAUGAGGNNNNNNNNCCGAA AGAGACGG	5045
5367	GUCUCUAUA CCAACCAA	890	UUGGUUGG CUGAUGAGGNNNNNNNNCCGAA AUAGAGAC	5046
5382	AAACCAAUU CACCAACA	891	UGUUGGUG CUGAUGAGGNNNNNNNNCCGAA AUUGGUUU	5047
5383	AACCAAUUC ACCAACAC	892	GUGUUGGU CUGAUGAGGNNNNNNNNCCGAA AAUUGGUU	5048
5395	AACACAGUU GGGACCCA	893	UGGGUCCC CUGAUGAGGNNNNNNNNCCGAA ACUGUGUU	5049
5417	CAGGAAGUC AGUCACGU	894	ACGUGACU CUGAUGAGGNNNNNNNNCCGAA ACUUCCUG	5050
5421	AAGUCAGUC ACGUUUCC	895	GGAAACGU CUGAUGAGGNNNNNNNNCCGAA ACUGACUU	5051
5426	AGUCACGUU UCCUUUUC	896	GAAAAGGA CUGAUGAGGNNNNNNNNCCGAA ACGUGACU	5052
5427	GUCACGUUU CCUUUUCA	897	UGAAAAGG CUGAUGAGGNNNNNNNNCCGAA AACGUGAC	5053
5428	UCACGUUUC CUUUUCAU	898	AUGAAAAG CUGAUGAGGNNNNNNNNCCGAA AAACGUGA	5054
5431	CGUUUCCUU UUCAUUUA	899	UAAAUGAA CUGAUGAGGNNNNNNNNCCGAA AGGAAACG	5055
5432	GUUUCCUUU UCAUUUAA	900	UUAAAUGA CUGAUGAGGNNNNNNNNCCGAA AAGGAAAC	5056
5433	UUUCCUUUU CAUUUAAU	901	AUUAAAUG CUGAUGAGGNNNNNNNNCCGAA AAAGGAAA	5057
5434	UUCCUUUUC AUUUAAUG	902	CAUUAAAU CUGAUGAGGNNNNNNNNCCGAA AAAAGGAA	5058
5437	CUUUUCAUU UAAUGGGG	903	CCCCAUUA CUGAUGAGGNNNNNNNNCCGAA AUGAAAAG	5059
5438	UUUUCAUUU AAUGGGGA	904	UCCCCAUU CUGAUGAGGNNNNNNNNCCGAA AAUGAAAA	5060
5439	UUUCAUUUA AUGGGGAU	905	AUCCCCAU CUGAUGAGGNNNNNNNNCCGAA AAAUGAAA	5061
5448	AUGGGGAUU CCACUAUC	906	GAUAGUGG CUGAUGAGGNNNNNNNNCCGAA AUCCCCAU	5062
5449	UGGGGAUUC CACUAUCU	907	AGAUAGUG CUGAUGAGGNNNNNNNNCCGAA AAUCCCCA	5063
5454	AUUCCACUA UCUCACAC	908	GUGUGAGA CUGAUGAGGNNNNNNNNCCGAA AGUGGAAU	5064
5456	UCCACUAUC UCACACUA	909	UAGUGUGA CUGAUGAGGNNNNNNNNCCGAA AUAGUGGA	5065
5458	CACUAUCUC ACACUAAU	910	AUUAGUGU CUGAUGAGGNNNNNNNNCCGAA AGAUAGUG	5066
5464	CUCACACUA AUCUGAAA	911	UUUCAGAU CUGAUGAGGNNNNNNNNCCGAA AGUGUGAG	5067
5467	ACACUAAUC UGAAAGGA	912	UCCUUUCA CUGAUGAGGNNNNNNNNCCGAA AUUAGUGU	5068
5489	AAGAGCAUU AGCUGGCG	913	CGCCAGCU CUGAUGAGGNNNNNNNNCCGAA AUGCUCUU	5069
5490	AGAGCAUUA GCUGGCGC	914	GCGCCAGC CUGAUGAGGNNNNNNNNCCGAA AAUGCUCU	5070
5501	UGGCGCAUA UUAAGCAC	915	GUGCUUAA CUGAUGAGGNNNNNNNNCCGAA AUGCGCCA	5071
5503	GCGCAUAUU AAGCACUU	916	AAGUGCUU CUGAUGAGGNNNNNNNNCCGAA AUAUGCGC	5072
5504	CGCAUAUUA AGCACUUU	917	AAAGUGCU CUGAUGAGGNNNNNNNNCCGAA AAUAUGCG	5073
5511	UAAGCACUU UAAGCUCC	918	GGAGCUUA CUGAUGAGGNNNNNNNNCCGAA AGUGCUUA	5074
5512	AAGCACUUU AAGCUCCU	919	AGGAGCUU CUGAUGAGGNNNNNNNNCCGAA AAGUGCUU	5075
5513	AGCACUUUA AGCUCCUU	920	AAGGAGCU CUGAUGAGGNNNNNNNNCCGAA AAAGUGCU	5076
5518	UUUAAGCUC CUUGAGUA	921	UACUCAAG CUGAUGAGGNNNNNNNNCCGAA AGCUUAAA	5077
5521	AAGCUCCUU GAGUAAAA	922	UUUUACUC CUGAUGAGGNNNNNNNNCCGAA AGGAGCUU	5078
5526	CCUUGAGUA AAAAGGUG	923	CACCUUUU CUGAUGAGGNNNNNNNNCCGAA ACUCAAGG	5079
5537	AAGGUGGUA UGUAAUUU	924	AAAUUACA CUGAUGAGGNNNNNNNNCCGAA ACCACCUU	5080
5541	UGGUAUGUA AUUUAUGC	925	GCAUAAAU CUGAUGAGGNNNNNNNNCCGAA ACAUACCA	5081
5544	UAUGUAAUU UAUGCAAG	926	CUUGCAUA CUGAUGAGGNNNNNNNNCCGAA AUUACAUA	5082
5545	AUGUAAUUU AUGCAAGG	927	CCUUGCAU CUGAUGAGGNNNNNNNNCCGAA AAUUACAU	5083
5546	UGUAAUUUA UGCAAGGU	928	ACCUUGCA CUGAUGAGGNNNNNNNNCCGAA AAAUUACA	5084
5555	UGCAAGGUA UUUCUCCA	929	UGGAGAAA CUGAUGAGGNNNNNNNNCCGAA ACCUUGCA	5085
5557	CAAGGUAUU UCUCCAGU	930	ACUGGAGA CUGAUGAGGNNNNNNNNCCGAA AUACCUUG	5086
5558	AAGGUAUUU CUCCAGUU	931	AACUGGAG CUGAUGAGGNNNNNNNNCCGAA AAUACCUU	5087
5559	AGGUAUUUC UCCAGUUG	932	CAACUGGA CUGAUGAGGNNNNNNNNCCGAA AAAUACCU	5088
5561	GUAUUUCUC CAGUUGGG	933	CCCAACUG CUGAUGAGGNNNNNNNNCCGAA AGAAAUAC	5089
5566	UCUCCAGUU GGGACUCA	934	UGAGUCCC CUGAUGAGGNNNNNNNNCCGAA ACUGGAGA	5090
5573	UUGGGACUC AGGAUAUU	935	AAUAUCCU CUGAUGAGGNNNNNNNNCCGAA AGUCCCAA	5091
5579	CUCAGGAUA UUAGUUAA	936	UUAACUAA CUGAUGAGGNNNNNNNNCCGAA AUCCUGAG	5092
5581	CAGGAUAUU AGUUAAUG	937	CAUUAACU CUGAUGAGGNNNNNNNNCCGAA AUAUCCUG	5093
5582	AGGAUAUUA GUUAAUGA	938	UCAUUAAC CUGAUGAGGNNNNNNNNCCGAA AAUAUCCU	5094
5585	AUAUUAGUU AAUGAGCC	939	GGCUCAUU CUGAUGAGGNNNNNNNNCCGAA ACUAAUAU	5095
5586	UAUUAGUUA AUGAGCCA	940	UGGCUCAU CUGAUGAGGNNNNNNNNCCGAA AACUAAUA	5096
5596	UGAGCCAUC ACUAGAAG	941	CUUCUAGU CUGAUGAGGNNNNNNNNCCGAA AUGGCUCA	5097
5600	CCAUCACUA GAAGAAAA	942	UUUUCUUC CUGAUGAGGNNNNNNNNCCGAA AGUGAUGG	5098
5615	AAGCCCAUU UUCAACUG	943	CAGUUGAA CUGAUGAGGNNNNNNNNCCGAA AUGGGCUU	5099
5616	AGCCCAUUU UCAACUGC	944	GCAGUUGA CUGAUGAGGNNNNNNNNCCGAA AAUGGGCU	5100
5617	GCCCAUUUU CAACUGCU	945	AGCAGUUG CUGAUGAGGNNNNNNNNCCGAA AAAUGGGC	5101
5618	CCCAUUUUC AACUGCUU	946	AAGCAGUU CUGAUGAGGNNNNNNNNCCGAA AAAAUGGG	5102
5626	CAACUGCUU UGAAACUU	947	AAGUUUCA CUGAUGAGGNNNNNNNNCCGAA AGCAGUUG	5103
5627	AACUGCUUU GAAACUUG	948	CAAGUUUC CUGAUGAGGNNNNNNNNCCGAA AAGCAGUU	5104
5634	UUGAAACUU GCCUGGGG	949	CCCCAGGC CUGAUGAGGNNNNNNNNCCGAA AGUUUCAA	5105
5644	CCUGGGGUC UGAGCAUG	950	CAUGCUCA CUGAUGAGGNNNNNNNNCCGAA ACCCCAGG	5106
5661	AUGGGAAUA GGGAGACA	951	UGUCUCCC CUGAUGAGGNNNNNNNNCCGAA AUUCCCAU	5107
5674	GACAGGGUA GGAAAGGG	952	CCCUUUCC CUGAUGAGGNNNNNNNNCCGAA ACCCUGUC	5108
5688	GGGCGCCUA CUCUUCAG	953	CUGAAGAG CUGAUGAGGNNNNNNNNCCGAA AGGCGCCC	5109
5691	CGCCUACUC UUCAGGGU	954	ACCCUGAA CUGAUGAGGNNNNNNNNCCGAA AGUAGGCG	5110
5693	CCUACUCUU CAGGGUCU	955	AGACCCUG CUGAUGAGGNNNNNNNNCCGAA AGAGUAGG	5111
5694	CUACUCUUC AGGGUCUA	956	UAGACCCU CUGAUGAGGNNNNNNNNCCGAA AAGAGUAG	5112
5700	UUCAGGGUC UAAAGAUC	957	GAUCUUUA CUGAUGAGGNNNNNNNNCCGAA ACCCUGAA	5113
5702	CAGGGUCUA AAGAUCAA	958	UUGAUCUU CUGAUGAGGNNNNNNNNCCGAA AGACCCUG	5114
5708	CUAAAGAUC AAGUGGGC	959	GCCCACUU CUGAUGAGGNNNNNNNNCCGAA AUCUUUAG	5115
5719	GUGGGCCUU GGAUCGCU	960	AGCGAUCC CUGAUGAGGNNNNNNNNCCGAA AGGCCCAC	5116
5724	CCUUGGAUC GCUAAGCU	961	AGCUUAGC CUGAUGAGGNNNNNNNNCCGAA AUCCAAGG	5117
5728	GGAUCGCUA AGCUGGCU	962	AGCCAGCU CUGAUGAGGNNNNNNNNCCGAA AGCGAUCC	5118
5737	AGCUGGCUC UGUUUGAU	963	AUCAAACA CUGAUGAGGNNNNNNNNCCGAA AGCCAGCU	5119
5741	GGCUCUGUU UGAUGCUA	964	UAGCAUCA CUGAUGAGGNNNNNNNNCCGAA ACAGAGCC	5120
5742	GCUCUGUUU GAUGCUAU	965	AUAGCAUC CUGAUGAGGNNNNNNNNCCGAA AACAGAGC	5121
5749	UUGAUGCUA UUUAUGCA	966	UGCAUAAA CUGAUGAGGNNNNNNNNCCGAA AGCAUCAA	5122
5751	GAUGCUAUU UAUGCAAG	967	CUUGCAUA CUGAUGAGGNNNNNNNNCCGAA AUAGCAUC	5123
5752	AUGCUAUUU AUGCAAGU	968	ACUUGCAU CUGAUGAGGNNNNNNNNCCGAA AAUAGCAU	5124
5753	UGCUAUUUA UGCAAGUU	969	AACUUGCA CUGAUGAGGNNNNNNNNCCGAA AAAUAGCA	5125
5761	AUGCAAGUU AGGGUCUA	970	UAGACCCU CUGAUGAGGNNNNNNNNCCGAA ACUUGCAU	5126
5762	UGCAAGUUA GGGUCUAU	971	AUAGACCC CUGAUGAGGNNNNNNNNCCGAA AACUUGCA	5127
5767	GUUAGGGUC UAUGUAUU	972	AAUACAUA CUGAUGAGGNNNNNNNNCCGAA ACCCUAAC	5128
5769	UAGGGUCUA UGUAUUUA	973	UAAAUACA CUGAUGAGGNNNNNNNNCCGAA AGACCCUA	5129
5773	GUCUAUGUA UUUAGGAU	974	AUCCUAAA CUGAUGAGGNNNNNNNNCCGAA ACAUAGAC	5130
5775	CUAUGUAUU UAGGAUGC	975	GCAUCCUA CUGAUGAGGNNNNNNNNCCGAA AUACAUAG	5131
5776	UAUGUAUUU AGGAUGCG	976	CGCAUCCU CUGAUGAGGNNNNNNNNCCGAA AAUACAUA	5132
5777	AUGUAUUUA GGAUGCGC	977	GCGCAUCC CUGAUGAGGNNNNNNNNCCGAA AAAUACAU	5133
5788	AUGCGCCUA CUCUUCAG	978	CUGAAGAG CUGAUGAGGNNNNNNNNCCGAA AGGCGCAU	5134
5791	CGCCUACUC UUCAGGGU	954	ACCCUGAA CUGAUGAGGNNNNNNNNCCGAA AGUAGGCG	5110
5793	CCUACUCUU CAGGGUCU	955	AGACCCUG CUGAUGAGGNNNNNNNNCCGAA AGAGUAGG	5111
5794	CUACUCUUC AGGGUCUA	956	UAGACCCU CUGAUGAGGNNNNNNNNCCGAA AAGAGUAG	5112
5800	UUCAGGGUC UAAAGAUC	957	GAUCUUUA CUGAUGAGGNNNNNNNNCCGAA ACCCUGAA	5113
5802	CAGGGUCUA AAGAUCAA	958	UUGAUCUU CUGAUGAGGNNNNNNNNCCGAA AGACCCUG	5114
5808	CUAAAGAUC AAGUGGGC	959	GCCCACUU CUGAUGAGGNNNNNNNNCCGAA AUCUUUAG	5115
5819	GUGGGCCUU GGAUCGCU	960	AGCGAUCC CUGAUGAGGNNNNNNNNCCGAA AGGCCCAC	5116
5824	CCUUGGAUC GCUAAGCU	961	AGCUUAGC CUGAUGAGGNNNNNNNNCCGAA AUCCAAGG	5117
5828	GGAUCGCUA AGCUGGCU	962	AGCCAGCU CUGAUGAGGNNNNNNNNCCGAA AGCGAUCC	5118
5837	AGCUGGCUC UGUUUGAU	963	AUCAAACA CUGAUGAGGNNNNNNNNCCGAA AGCCAGCU	5119
5841	GGCUCUGUU UGAUGCUA	964	UAGCAUCA CUGAUGAGGNNNNNNNNCCGAA ACAGAGCC	5120
5842	GCUCUGUUU GAUGCUAU	965	AUAGCAUC CUGAUGAGGNNNNNNNNCCGAA AACAGAGC	5121
5849	UUGAUGCUA UUUAUGCA	966	UGCAUAAA CUGAUGAGGNNNNNNNNCCGAA AGCAUCAA	5122
5851	GAUGCUAUU UAUGCAAG	967	CUUGCAUA CUGAUGAGGNNNNNNNNCCGAA AUAGCAUC	5123
5852	AUGCUAUUU AUGCAAGU	968	ACUUGCAU CUGAUGAGGNNNNNNNNCCGAA AAUAGCAU	5124
5853	UGCUAUUUA UGCAAGUU	969	AACUUGCA CUGAUGAGGNNNNNNNNCCGAA AAAUAGCA	5125
5861	AUGCAAGUU AGGGUCUA	970	UAGACCCU CUGAUGAGGNNNNNNNNCCGAA ACUUGCAU	5126
5862	UGCAAGUUA GGGUCUAU	971	AUAGACCC CUGAUGAGGNNNNNNNNCCGAA AACUUGCA	5127
5867	GUUAGGGUC UAUGUAUU	972	AAUACAUA CUGAUGAGGNNNNNNNNCCGAA ACCCUAAC	5128
5869	UAGGGUCUA UGUAUUUA	973	UAAAUACA CUGAUGAGGNNNNNNNNCCGAA AGACCCUA	5129
5873	GUCUAUGUA UUUAGGAU	974	AUCCUAAA CUGAUGAGGNNNNNNNNCCGAA ACAUAGAC	5130
5875	CUAUGUAUU UAGGAUGU	979	ACAUCCUA CUGAUGAGGNNNNNNNNCCGAA AUACAUAG	5135
5876	UAUGUAUUU AGGAUGUC	980	GACAUCCU CUGAUGAGGNNNNNNNNCCGAA AAUACAUA	5136
5877	AUGUAUUUA GGAUGUCU	981	AGACAUCC CUGAUGAGGNNNNNNNNCCGAA AAAUACAU	5137
5884	UAGGAUGUC UGCACCUU	982	AAGGUGCA CUGAUGAGGNNNNNNNNCCGAA ACAUCCUA	5138
5892	CUGCACCUU CUGCAGCC	983	GGCUGCAG CUGAUGAGGNNNNNNNNCCGAA AGGUGCAG	5139
5893	UGCACCUUC UGCAGCCA	984	UGGCUGCA CUGAUGAGGNNNNNNNNCCGAA AAGGUGCA	5140
5904	CAGCCAGUC AGAAGCUG	985	CAGCUUCU CUGAUGAGGNNNNNNNNCCGAA ACUGGCUG	5141
5930	CAGUGGAUU GCUGCUUC	986	GAAGCAGC CUGAUGAGGNNNNNNNNCCGAA AUCCACUG	5142
5937	UUGCUGCUU CUUGGGGA	987	UCCCCAAG CUGAUGAGGNNNNNNNNCCGAA AGCAGCAA	5143
5938	UGCUGCUUC UUGGGGAG	988	CUCCCCAA CUGAUGAGGNNNNNNNNCCGAA AAGCAGCA	5144
5940	CUGCUUCUU GGGGAGAA	989	UUCUCCCC CUGAUGAGGNNNNNNNNCCGAA AGAAGCAG	5145
5953	AGAAGAGUA UGCUUCCU	990	AGGAAGCA CUGAUGAGGNNNNNNNNCCGAA ACUCUUCU	5146
5958	AGUAUGCUU CCUUUUAU	991	AUAAAAGG CUGAUGAGGNNNNNNNNCCGAA AGCAUACU	5147
5959	GUAUGCUUC CUUUUAUC	992	GAUAAAAG CUGAUGAGGNNNNNNNNCCGAA AAGCAUAC	5148
5962	UGCUUCCUU UUAUCCAU	993	AUGGAUAA CUGAUGAGGNNNNNNNNCCGAA AGGAAGCA	5149
5963	GCUUCCUUU UAUCCAUG	994	CAUGGAUA CUGAUGAGGNNNNNNNNCCGAA AAGGAAGC	5150
5964	CUUCCUUUU AUCCAUGU	995	ACAUGGAU CUGAUGAGGNNNNNNNNCCGAA AAAGGAAG	5151
5965	UUCCUUUUA UCCAUGUA	996	UACAUGGA CUGAUGAGGNNNNNNNNCCGAA AAAAGGAA	5152
5967	CCUUUUAUC CAUGUAAU	997	AUUACAUG CUGAUGAGGNNNNNNNNCCGAA AUAAAAGG	5153
5973	AUCCAUGUA AUUUAACU	998	AGUUAAAU CUGAUGAGGNNNNNNNNCCGAA ACAUGGAU	5154
5976	CAUGUAAUU UAACUGUA	999	UACAGUUA CUGAUGAGGNNNNNNNNCCGAA AUUACAUG	5155
5977	AUGUAAUUU AACUGUAG	1000	CUACAGUU CUGAUGAGGNNNNNNNNCCGAA AAUUACAU	5156
5978	UGUAAUUUA ACUGUAGA	1001	UCUACAGU CUGAUGAGGNNNNNNNNCCGAA AAAUUACA	5157
5984	UUAACUGUA GAACCUGA	1002	UCAGGUUC CUGAUGAGGNNNNNNNNCCGAA ACAGUUAA	5158
5996	CCUGAGCUC UAAGUAAC	1003	GUUACUUA CUGAUGAGGNNNNNNNNCCGAA AGCUCAGG	5159
5998	UGAGCUCUA AGUAACCG	1004	CGGUUACU CUGAUGAGGNNNNNNNNCCGAA AGAGCUCA	5160
6002	CUCUAAGUA ACCGAAGA	1005	UCUUCGGU CUGAUGAGGNNNNNNNNCCGAA ACUUAGAG	5161
6015	AAGAAUGUA UGCCUCUG	1006	CAGAGGCA CUGAUGAGGNNNNNNNNCCGAA ACAUUCUU	5162
6021	GUAUGCCUC UGUUCUUA	1007	UAAGAACA CUGAUGAGGNNNNNNNNCCGAA AGGCAUAC	5163
6025	GCCUCUGUU CUUAUGUG	1008	CACAUAAG CUGAUGAGGNNNNNNNNCCGAA ACAGAGGC	5164
6026	CCUCUGUUC UUAUGUGC	1009	GCACAUAA CUGAUGAGGNNNNNNNNCCGAA AACAGAGG	5165
6028	UCUGUUCUU AUGUGCCA	1010	UGGCACAU CUGAUGAGGNNNNNNNNCCGAA AGAACAGA	5166
6029	CUGUUCUUA UGUGCCAC	1011	GUGGCACA CUGAUGAGGNNNNNNNNCCGAA AAGAACAG	5167
6040	UGCCACAUC CUUGUUUA	1012	UAAACAAG CUGAUGAGGNNNNNNNNCCGAA AUGUGGCA	5168
6043	CACAUCCUU GUUUAAAG	1013	CUUUAAAC CUGAUGAGGNNNNNNNNCCGAA AGGAUGUG	5169
6046	AUCCUUGUU UAAAGGCU	1014	AGCCUUUA CUGAUGAGGNNNNNNNNCCGAA ACAAGGAU	5170
6047	UCCUUGUUU AAAGGCUC	1015	GAGCCUUU CUGAUGAGGNNNNNNNNCCGAA AACAAGGA	5171
6048	CCUUGUUUA AAGGCUCU	1016	AGAGCCUU CUGAUGAGGNNNNNNNNCCGAA AAACAAGG	5172
6055	UAAAGGCUC UCUGUAUG	1017	CAUACAGA CUGAUGAGGNNNNNNNNCCGAA AGCCUUUA	5173
6057	AAGGCUCUC UGUAUGAA	1018	UUCAUACA CUGAUGAGGNNNNNNNNCCGAA AGAGCCUU	5174
6061	CUCUCUGUA UGAAGAGA	1019	UCUCUUCA CUGAUGAGGNNNNNNNNCCGAA ACAGAGAG	5175
6079	GGGACCGUC AUCAGCAC	1020	GUGCUGAU CUGAUGAGGNNNNNNNNCCGAA ACGGUCCC	5176
6082	ACCGUCAUC AGCACAUU	1021	AAUGUGCU CUGAUGAGGNNNNNNNNCCGAA AUGACGGU	5177
6090	CAGCACAUU CCCUAGUG	1022	CACUAGGG CUGAUGAGGNNNNNNNNCCGAA AUGUGGUG	5178
6091	AGCACAUUC CCUAGUGA	1023	UCACUAGG CUGAUGAGGNNNNNNNNCCGAA AAUGUGCU	5179
6095	CAUUCCCUA GUGAGCCU	1024	AGGCUCAC CUGAUGAGGNNNNNNNNCCGAA AGGGAAUG	5180
6104	GUGAGCCUA CUGGCUCC	1025	GGAGCCAG CUGAUGAGGNNNNNNNNCCGAA AGGCUCAC	5181
6111	UACUGGCUC CUGGCAGC	1026	GCUGCCAG CUGAUGAGGNNNNNNNNCCGAA AGCCAGUA	5182
6124	CAGCGGCUU UUGUGGAA	1027	UUCCACAA CUGAUGAGGNNNNNNNNCCGAA AGCCGCUG	5183
6125	AGCGGCUUU UGUGGAAG	1028	CUUCCACA CUGAUGAGGNNNNNNNNCCGAA AAGCCGCU	5184
6126	GCGGCUUUU GUGGAAGA	1029	UCUUCCAC CUGAUGAGGNNNNNNNNCCGAA AAAGCCGC	5185
6137	GGAAGACUC ACUAGCCA	1030	UGGCUAGU CUGAUGAGGNNNNNNNNCCGAA AGUCUUCC	5186
6141	GACUCACUA GCCAGAAG	1031	CUUCUGGC CUGAUGAGGNNNNNNNNCCGAA AGUGAGUC	5187
6166	GGGACAGUC CUCUCCAC	1032	GUGGAGAG CUGAUGAGGNNNNNNNNCCGAA ACUGUCCC	5188
6169	ACAGUCCUC UCCACCAA	1033	UUGGUGGA CUGAUGAGGNNNNNNNNCCGAA AGGACUGU	5189
6171	AGUCCUCUC CACCAAGA	1034	UCUUGGUG CUGAUGAGGNNNNNNNNCCGAA AGAGGACU	5190
6181	ACCAAGAUC UAAAUCCA	1035	UGGAUUUA CUGAUGAGGNNNNNNNNCCGAA AUCUUGGU	5191
6183	CAAGAUCUA AAUCCAAA	1036	UUUGGAUU CUGAUGAGGNNNNNNNNCCGAA AGAUCUUG	5192
6187	AUCUAAAUC CAAACAAA	1037	UUUGUUUG CUGAUGAGGNNNNNNNNCCGAA AUUUAGAU	5193
6204	AGCAGGCUA GAGCCAGA	1038	UCUGGCUC CUGAUGAGGNNNNNNNNCCGAA AGCCUGCU	5194
6226	GGACAAAUC UUUGUUGU	1039	ACAACAAA CUGAUGAGGNNNNNNNNCCGAA AUUUGUCC	5195
6228	ACAAAUCUU UGUUGUUC	1040	GAACAACA CUGAUGAGGNNNNNNNNCCGAA AGAUUUGU	5196
6229	CAAAUCUUU GUUGUUCC	1041	GGAACAAC CUGAUGAGGNNNNNNNNCCGAA AAGAUUUG	5197
6232	AUCUUUGUU GUUCCUCU	1042	AGAGGAAC CUGAUGAGGNNNNNNNNCCGAA ACAAAGAU	5198
6235	UUUGUUGUU CCUCUUCU	1043	AGAAGAGG CUGAUGAGGNNNNNNNNCCGAA ACAACAAA	5199
6236	UUGUUGUUC CUCUUCUU	1044	AAGAAGAG CUGAUGAGGNNNNNNNNCCGAA AACAACAA	5200
6239	UUGUUCCUC UUCUUUAC	1045	GUAAAGAA CUGAUGAGGNNNNNNNNCCGAA AGGAACAA	5201
6241	GUUCCUCUU CUUUACAC	1046	GUGUAAAG CUGAUGAGGNNNNNNNNCCGAA AGAGGAAC	5202
6242	UUCCUCUUC UUUACACA	1047	UGUGUAAA CUGAUGAGGNNNNNNNNCCGAA AAGAGGAA	5203
6244	CCUCUUCUU UACACAUA	1048	UAUGUGUA CUGAUGAGGNNNNNNNNCCGAA AGAAGAGG	5204
6245	CUCUUCUUU ACACAUAC	1049	GUAUGUGU CUGAUGAGGNNNNNNNNCCGAA AAGAAGAG	5205
6246	UCUUCUUUA CACAUACG	1050	CGUAUGUG CUGAUGAGGNNNNNNNNCCGAA AAAGAAGA	5206
6252	UUACACAUA CGCAAACC	1051	GGUUUGCG CUGAUGAGGNNNNNNNNCCGAA AUGUGUAA	5207
6280	CUGGCAAUU UUAUAAAU	1052	AUUUAUAA CUGAUGAGGNNNNNNNNCCGAA AUUGCCAG	5208
6281	UGGCAAUUU UAUAAAUC	1053	GAUUUAUA CUGAUGAGGNNNNNNNNCCGAA AAUUGCCA	5209
6282	GGCAAUUUU AUAAAUCA	1054	UGAUUUAU CUGAUGAGGNNNNNNNNCCGAA AAAUUGCC	5210
6283	GCAAUUUUA UAAAUCAG	1055	CUGAUUUA CUGAUGAGGNNNNNNNNCCGAA AAAAUUGC	5211
6285	AAUUUUAUA AAUCAGGU	1056	ACCUGAUU CUGAUGAGGNNNNNNNNCCGAA AUAAAAUU	5212
6289	UUAUAAAUC AGGUAACU	1057	AGUUACCU CUGAUGAGGNNNNNNNNCCGAA AUUUAUAA	5213
6294	AAUCAGGUA ACUGGAAG	1058	CUUCCAGU CUGAUGAGGNNNNNNNNCCGAA ACCUGAUU	5214
6308	AAGGAGGUU AAACUCAG	1059	CUGAGUUU CUGAUGAGGNNNNNNNNCCGAA ACCUCCUU	5215
6309	AGGAGGUUA AACUCAGA	1060	UCUGAGUU CUGAUGAGGNNNNNNNNCCGAA AACCUCCU	5216
6314	GUUAAACUC AGAAAAAA	1061	UUUUUUCU CUGAUGAGGNNNNNNNNCCGAA AGUUUAAC	5217
6331	GAAGACCUC AGUCAAUU	1062	AAUUGACU CUGAUGAGGNNNNNNNNCCGAA AGGUCUUC	5218
6335	ACCUCAGUC AAUUCUCU	1063	AGAGAAUU CUGAUGAGGNNNNNNNNCCGAA ACUGAGGU	5219
6339	CAGUCAAUU CUCUACUU	1064	AAGUAGAG CUGAUGAGGNNNNNNNNCCGAA AUUGACUG	5220
6340	AGUCAAUUC UCUACUUU	1065	AAAGUAGA CUGAUGAGGNNNNNNNNCCGAA AAUUGACU	5221
6342	UCAAUUCUC UACUUUUU	1066	AAAAAGUA CUGAUGAGGNNNNNNNNCCGAA AGAAUUGA	5222
6344	AAUUCUCUA CUUUUUUU	1067	AAAAAAAG CUGAUGAGGNNNNNNNNCCGAA AGAGAAUU	5223
6347	UCUCUACUU UUUUUUUU	1068	AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AGUAGAGA	5224
6348	CUCUACUUU UUUUUUUU	1069	AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAGUAGAG	5225
6349	UCUACUUUU UUUUUUUU	1070	AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAGUAGA	5226
6350	CUACUUUUU UUUUUUUU	1071	AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAGUAG	5227
6351	UACUUUUUU UUUUUUUU	1072	AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAGUA	5228
6352	ACUUUUUUU UUUUUUUU	1073	AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAGU	5229
6353	CUUUUUUUU UUUUUUUU	1074	AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAG	5230
6354	UUUUUUUUU UUUUUUUC	1075	GAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA	5231
6355	UUUUUUUUU UUUUUUCC	1076	GGAAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA	5232
6356	UUUUUUUUU UUUUUCCA	1077	UGGAAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA	5233
6357	UUUUUUUUU UUUUCCAA	1078	UUGGAAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA	5234
6358	UUUUUUUUU UUUCCAPA	1079	UUUGGAAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA	5235
6359	UUUUUUUUU UUCCAAAU	1080	AUUUGGAA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA	5236
6360	UUUUUUUUU UCCAAAUC	1081	GAUUUGGA CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA	5237
6361	UUUUUUUUU CCAAAUCA	1082	UGAUUUGG CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA	5238
6362	UUUUUUUUC CAAAUCAG	1083	CUGAUUUG CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA	5239
6368	UUCCAAAUC AGAUAAUA	1084	UAUUAUGU CUGAUGAGGNNNNNNNNCCGAA AUUUGGAA	5240
6373	AAUCAGAUA AUAGCCCA	1085	UGGGCUAU CUGAUGAGGNNNNNNNNCCGAA AUCUGAUU	5241
6376	CAGAUAAUA GCCCAGCA	1086	UGCUGGGC CUGAUGAGGNNNNNNNNCCGAA AUUAUCUG	5242
6388	CAGCAAAUA GUGAUAAC	1087	GUUAUCAC CUGAUGAGGNNNNNNNNCCGAA AUUUGCUG	5243
6394	AUAGUGAUA ACAAAUAA	1088	UUAUUUGU CUGAUGAGGNNNNNNNNCCGAA AUCACUAU	5244
6401	UAACAAAUA AAACCUUA	1089	UAAGGUUU CUGAUGAGGNNNNNNNNCCGAA AUUUGUUA	5245
6408	UAAAACCUU AGCUGUUC	1090	GAACAGCU CUGAUGAGGNNNNNNNNCCGAA AGGUUUUA	5246
6409	AAAACCUUA GCUGUUCA	1091	UGAACAGC CUGAUGAGGNNNNNNNNCCGAA AAGGUUUU	5247
6415	UUAGCUGUU CAUGUCUU	1092	AAGACAUG CUGAUGAGGNNNNNNNNCCGAA ACAGCUAA	5248
6416	UAGCUGUUC AUGUCUUG	1093	CAAGACAU CUGAUGAGGNNNNNNNNCCGAA AACAGCUA	5249
6421	GUUCAUGUC UUGAUUUC	1094	GAAAUCAA CUGAUGAGGNNNNNNNNCCGAA ACAUGAAC	5250
6423	UCAUGUCUU GAUUUCAA	1095	UUGAAAUC CUGAUGAGGNNNNNNNNCCGAA AGACAUGA	5251
6427	GUCUUGAUU UCAAUAAU	1096	AUUAUUGA CUGAUGAGGNNNNNNNNCCGAA AUCAAGAC	5252
6428	UCUUGAUUU CAAUAAUU	1097	AAUUAUUG CUGAUGAGGNNNNNNNNCCGAA AAUCAAGA	5253
6429	CUUGAUUUC AAUAAUUA	1098	UAAUUAUU CUGAUGAGGNNNNNNNNCCGAA AAAUCAAG	5254
6433	AUUUCAAUA AUUAAUUC	1099	GAAUUAAU CUGAUGAGGNNNNNNNNCCGAA AUUGAAAU	5255
6436	UCAAUAAUU AAUUCUUA	1100	UAAGAAUU CUGAUGAGGNNNNNNNNCCGAA AUUAUUGA	5256
6437	CAAUAAUUA AUUCUUAA	1101	UUAAGAAU CUGAUGAGGNNNNNNNNCCGAA AAUUAUUG	5257
6440	UAAUUAAUU CUUAAUCA	1102	UGAUUAAG CUGAUGAGGNNNNNNNNCCGAA AUUAAUUA	5258
6441	AAUUAAUUC UUAAUCAU	1103	AUGAUUAA CUGAUGAGGNNNNNNNNCCGAA AAUUAAUU	5259
6443	UUAAUUCUU AAUCAUUA	1104	UAAUGAUU CUGAUGAGGNNNNNNNNCCGAA AGAAUUAA	5260
6444	UAAUUCUUA AUCAUUAA	1105	UUAAUGAU CUGAUGAGGNNNNNNNNCCGAA AAGAAUUA	5261
6447	UUCUUAAUC AUUAAGAG	1106	CUCUUAAU CUGAUGAGGNNNNNNNNCCGAA AUUAAGAA	5262
6450	UUAAUCAUU AAGAGACC	1107	GGUCUCUU CUGAUGAGGNNNNNNNNCCGAA AUGAUUAA	5263
6451	UAAUCAUUA AGAGACCA	1108	UGGUCUCU CUGAUGAGGNNNNNNNNCCGAA AAUGAUUA	5264
6461	GAGACCAUA AUAAAUAC	1109	GUAUUUAU CUGAUGAGGNNNNNNNNCCGAA AUGGUCUC	5265
6464	ACCAUAAUA AAUACUCC	1110	GGAGUAUU CUGAUGAGGNNNNNNNNCCGAA AUUAUGGU	5266
6468	UAAUAAAUA CUCCUUUU	1111	AAAAGGAG CUGAUGAGGNNNNNNNNCCGAA AUUUAUUA	5267
6471	UAAAUACUC CUUUUCAA	1112	UUGAAAAG CUGAUGAGGNNNNNNNNCCGAA AGUAUUUA	5268
6474	AUACUCCUU UUCAAGAG	1113	CUCUUGAA CUGAUGAGGNNNNNNNNCCGAA AGGAGUAU	5269
6475	UACUCCUUU UCAAGAGA	1114	UCUCUUGA CUGAUGAGGNNNNNNNNCCGAA AAGGAGUA	5270
6476	ACUCCUUUU CAAGAGAA	1115	UUCUCUUG CUGAUGAGGNNNNNNNNCCGAA AAAGGAGU	5271
6477	CUCCUUUUC AAGAGAAA	1116	UUUCUCUU CUGAUGAGGNNNNNNNNCCGAA AAAAGGAG	5272
6497	AAAACCAUU AGAAUUGU	1117	ACAAUUCU CUGAUGAGGNNNNNNNNCCGAA AUGGUUUU	5273
6498	AAACCAUUA GAAUUGUU	1118	AACAAUUC CUGAUGAGGNNNNNNNNCCGAA AAUGGUUU	5274
6503	AUUAGAAUU GUUACUCA	1119	UGAGUAAC CUGAUGAGGNNNNNNNNCCGAA AUUCUAAU	5275
6506	AGAAUUGUU ACUCAGCU	1120	AGCUGAGU CUGAUGAGGNNNNNNNNCCGAA ACAAUUCU	5276
6507	GAAUUGUUA CUCAGCUC	1121	GAGCUGAG CUGAUGAGGNNNNNNNNCCGAA AACAAUUC	5277
6510	UUGUUACUC AGCUCCUU	1122	AAGGAGCU CUGAUGAGGNNNNNNNNCCGAA AGUAACAA	5278
6515	ACUCAGCUC CUUCAAAC	1123	GUUUGAAG CUGAUGAGGNNNNNNNNCCGAA AGCUGAGU	5279
6518	CAGCUCCUU CAAACUCA	1124	UGAGUUUG CUGAUGAGGNNNNNNNNCCGAA AGGAGCUG	5280
6519	AGCUGCUUC AAACUCAG	1125	CUGAGUUU CUGAUGAGGNNNNNNNNCCGAA AAGGAGCU	5281
6525	UUCAAACUC AGGUUUGU	1126	ACAAACCU CUGAUGAGGNNNNNNNNCCGAA AGUUUGAA	5282
6530	ACUCAGGUU UGUAGCAU	1127	AUGCUACA CUGAUGAGGNNNNNNNNCCGAA ACCUGAGU	5283
6531	CUCAGGUUU GUAGCAUA	1128	UAUGCUAC CUGAUGAGGNNNNNNNNCCGAA AACCUGAG	5284
6534	AGGUUUGUA GCAUACAU	1129	AUGUAUGC CUGAUGAGGNNNNNNNNCCGAA ACAAACCU	5285
6539	UGUAGCAUA CAUGAGUC	1130	GACUCAUG CUGAUGAGGNNNNNNNNCCGAA AUGCUACA	5286
6547	ACAUGAGUC CAUCCAUC	1131	GAUGGAUG CUGAUGAGGNNNNNNNNCCGAA ACUCAUGU	5287
6551	GAGUCCAUC CAUCAGUC	1132	GACUGAUG CUGAUGAGGNNNNNNNNCCGAA AUGGACUC	5288
6555	CCAUCCAUC AGUCAAAG	1133	CUUUGACU CUGAUGAGGNNNNNNNNCCGAA AUGGAUGG	5289
6559	CCAUCAGUC AAAGAAUG	1134	CAUUCUUU CUGAUGAGGNNNNNNNNCCGAA ACUGAUGG	5290
6570	AGAAUGGUU CCAUCUGG	1135	CCAGAUGG CUGAUGAGGNNNNNNNNCCGAA ACCAUUCU	5291
6571	GAAUGGUUC CAUCUGGA	1136	UCCAGAUG CUGAUGAGGNNNNNNNNCCGAA AACCAUUC	5292
6575	GGUUCCAUC UGGAGUCU	1137	AGACUCCA CUGAUGAGGNNNNNNNNCCGAA AUGGAACC	5293
6582	UCUGGAGUC UUAAUGUA	1138	UACAUUAA CUGAUGAGGNNNNNNNNCCGAA ACUCCAGA	5294
6584	UGGAGUCUU AAUGUAGA	1139	UCUACAUU CUGAUGAGGNNNNNNNNCCGAA AGACUCCA	5295
6585	GGAGUCUUA AUGUAGAA	1140	UUCUACAU CUGAUGAGGNNNNNNNNCCGAA AAGACUCC	5296
6590	CUUAAUGUA GAAAGAAA	1141	UUUCUUUC CUGAUGAGGNNNNNNNNCCGAA ACAUUAAG	5297
6609	UGGAGACUU GUAAUAAU	1142	AUUAUUAC CUGAUGAGGNNNNNNNNCCGAA AGUCUCCA	5298
6612	AGACUUGUA AUAAUGAG	1143	CUCAUUAU CUGAUGAGGNNNNNNNNCCGAA ACAAGUCU	5299
6615	CUUGUAAUA AUGAGCUA	1144	UAGCUCAU CUGAUGAGGNNNNNNNNCCGAA AUUACAAG	5300
6623	AAUGAGCUA GUUACAAA	1145	UUUGUAAC CUGAUGAGGNNNNNNNNCCGAA AGCUCAUU	5301
6626	GAGCUAGUU ACAAAGUG	1146	CACUUUGU CUGAUGAGGNNNNNNNNCCGAA ACUAGCUC	5302
6627	AGCUAGUUA CAAAGUGC	1147	GCACUUUG CUGAUGAGGNNNNNNNNCCGAA AACUAGCU	5303
6637	AAAGUGCUU GUUCAUUA	1148	UAAUGAAC CUGAUGAGGNNNNNNNNCCGAA AGCACUUU	5304
6640	GUGCUUGUU CAUUAAAA	1149	UUUUAAUG CUGAUGAGGNNNNNNNNCCGAA ACAAGCAC	5305
6641	UGCUUGUUC AUUAAAAU	1150	AUUUUAAU CUGAUGAGGNNNNNNNNCCGAA AACAAGCA	5306
6644	UUGUUCAUU AAAAUAGC	1151	GCUAUUUU CUGAUGAGGNNNNNNNNCCGAA AUGAACAA	5307
6645	UGUUCAUUA AAAUAGCA	1152	UGCUAUUU CUGAUGAGGNNNNNNNNCCGAA AAUGAACA	5308
6650	AUUAAAAUA GCACUGAA	1153	UUCAGUGC CUGAUGAGGNNNNNNNNCCGAA AUUUUAAU	5309
6662	CUGAAAAUU GAAACAUG	1154	CAUGUUUC CUGAUGAGGNNNNNNNNCCGAA AUUUUCAG	5310
6674	ACAUGAAUU AACUGAUA	1155	UAUCAGUU CUGAUGAGGNNNNNNNNCCGAA AUUCAUGU	5311
6675	CAUGAAUUA ACUGAUAA	1156	UUAUCAGU CUGAUGAGGNNNNNNNNCCGAA AAUUCAUG	5312
6682	UAACUGAUA AUAUUCCA	1157	UGGAAUAU CUGAUGAGGNNNNNNNNCCGAA AUCAGUUA	5313
6685	CUGAUAAUA UUCCAAUC	1158	GAUUGGAA CUGAUGAGGNNNNNNNNCCGAA AUUAUCAG	5314
6687	GAUAAUAUU CCAAUCAU	1159	AUGAUUGG CUGAUGAGGNNNNNNNNCCGAA AUAUUAUC	5315
6688	AUAAUAUUC CAAUCAUU	1160	AAUGAUUG CUGAUGAGGNNNNNNNNCCGAA AAUAUUAU	5316
6693	AUUCCAAUC AUUUGCCA	1161	UGGCAAAU CUGAUGAGGNNNNNNNNCCGAA AUUGGAAU	5317
6696	CCAAUCAUU UGCCAUUU	1162	AAAUGGCA CUGAUGAGGNNNNNNNNCCGAA AUGAUUGG	5318
6697	CAAUCAUUU GCCAUUUA	1163	UAAAUGGC CUGAUGAGGNNNNNNNNCCGAA AAUGAUUG	5319
6703	UUUGCCAUU UAUGACAA	1164	UUGUCAUA CUGAUGAGGNNNNNNNNCCGAA AUGGCAAA	5320
6704	UUGCCAUUU AUGACAAA	1165	UUUGUCAU CUGAUGAGGNNNNNNNNCCGAA AAUGGCAA	5321
6705	UGCCAUUUA UGACAAAA	1166	UUUUGUCA CUGAUGAGGNNNNNNNNCCGAA AAAUGGCA	5322
6719	AAAAUGGUU GGCACUAA	1167	UUAGUGCC CUGAUGAGGNNNNNNNNCCGAA ACCAUUUU	5323
6726	UUGGCACUA ACAAAGAA	1168	UUCUUUGU CUGAUGAGGNNNNNNNNCCGAA AGUGCCAA	5324
6743	CGAGCACUU CCUUUCAG	1169	CUGAAAGG CUGAUGAGGNNNNNNNNCCGAA AGUGCUCG	5325
6744	GAGCACUUC CUUUCAGA	1170	UCUGAAAG CUGAUGAGGNNNNNNNNCCGAA AAGUGCUC	5326
6747	CACUUCGUU UCAGAGUU	1171	AACUCUGA CUGAUGAGGNNNNNNNNCCGAA AGGAAGUG	5327
6748	ACUUCCUUU CAGAGUUU	1172	AAACUCUG CUGAUGAGGNNNNNNNNCCGAA AAGGAAGU	5328
6749	CUUCCUUUC AGAGUUUC	1173	GAAACUCU CUGAUGAGGNNNNNNNNCCGAA AAAGGAAG	5329
6755	UUCAGAGUU UCUGAGAU	1174	AUCUCAGA CUGAUGAGGNNNNNNNNCCGAA ACUCUGAA	5330
6756	UCAGAGUUU CUGAGAUA	1175	UAUCUCAG CUGAUGAGGNNNNNNNNCCGAA AACUCUGA	5331
6757	CAGAGUUUC UGAGAUAA	1176	UUAUCUCA CUGAUGAGGNNNNNNNNCCGAA AAACUCUG	5332
6764	UCUGAGAUA AUGUAGGU	1177	ACGUACAU CUGAUGAGGNNNNNNNNCCGAA AUCUCAGA	5333
6769	GAUAAUGUA CGUGGAAC	1178	GUUCCACG CUGAUGAGGNNNNNNNNCCGAA ACAUUAUC	5334
6781	GGAACAGUC UGGGUGGA	1179	UCCACCCA CUGAUGAGGNNNNNNNNCCGAA ACUGUUCC	5335
6814	GUGCAAGUC UGUGUCUU	1180	AAGACACA CUGAUGAGGNNNNNNNNCCGAA ACUUGCAC	5336
6820	GUCUGUGUC UUGUCAGU	1181	ACUGACAA CUGAUGAGGNNNNNNNNCCGAA ACACAGAC	5337
6822	CUGUGUCUU GUCAGUCC	1182	GGACUGAC CUGAUGAGGNNNNNNNNCCGAA AGACACAG	5338
6825	UGUCUUGUC AGUCCAAG	1183	CUUGGACU CUGAUGAGGNNNNNNNNCCGAA ACAAGACA	5339
6829	UUGUCAGUC CAAGAAGU	1184	ACUUCUUG CUGAUGAGGNNNNNNNNCCGAA ACUGACAA	5340
6851	CGAGAUGUU AAUUUUAG	1185	CUAAAAUU CUGAUGAGGNNNNNNNNCCGAA ACAUCUCG	5341
6852	GAGAUGUUA AUUUUAGG	1186	CCUAAAAU CUGAUGAGGNNNNNNNNCCGAA AACAUCUC	5342
6855	AUGUUAAUU UUAGGGAC	1187	GUCCCUAA CUGAUGAGGNNNNNNNNCCGAA AUUAACAU	5343
6856	UGUUAAUUU UAGGGACC	1188	GGUCCCUA CUGAUGAGGNNNNNNNNCCGAA AAUUAACA	5344
6857	GUUAAUUUU AGGGACCC	1189	GGGUCCCU CUGAUGAGGNNNNNNNNCCGAA AAAUUAAC	5345
6858	UUAAUUUUA GGGACCCG	1190	CGGGUCCC CUGAUGAGGNNNNNNNNCCGAA AAAAUUAA	5346
6872	CCGUGCCUU GUUUCCUA	1191	UAGGAAAC CUGAUGAGGNNNNNNNNCCGAA AGGCACGG	5347
6875	UGCCUUGUU UCCUAGCC	1192	GGCUAGGA CUGAUGAGGNNNNNNNNCCGAA ACAAGGCA	5348
6876	GCCUUGUUU CCUAGCCC	1193	GGGCUAGG CUGAUGAGGNNNNNNNNCCGAA AACAAGGC	5349
6877	CCUUGUUUC CUAGCCCA	1194	UGGGCUAG CUGAUGAGGNNNNNNNNCCGAA AAACAAGG	5350
6880	UGUUUCCUA GCCCACAA	1195	UUGUGGGC CUGAUGAGGNNNNNNNNCCGAA AGGAAACA	5351
6901	GCAAACAUC AAACAGAU	1196	AUCUGUUU CUGAUGAGGNNNNNNNNCCGAA AUGUUUGC	5352
6910	AAACAGAUA CUCGCUAG	1197	CUAGCGAG CUGAUGAGGNNNNNNNNCCGAA AUCUGUUU	5353
6913	CAGAUACUC GCUAGCCU	1198	AGGCUAGC CUGAUGAGGNNNNNNNNCCGAA AGUAUCUG	5354
6917	UACUCGCUA GCCUCAUU	1199	AAUGAGGC CUGAUGAGGNNNNNNNNCCGAA AGCGAGUA	5355
6922	GCUAGCCUC AUUUAAAU	1200	AUUUAAAU CUGAUGAGGNNNNNNNNCCGAA AGGCUAGC	5356
6925	AGCCUCAUU UAAAUUGA	1201	UCAAUUUA CUGAUGAGGNNNNNNNNCCGAA AUGAGGCU	5357
6926	GCCUCAUUU AAAUUGAU	1202	AUCAAUUU CUGAUGAGGNNNNNNNNCCGAA AAUGAGGC	5358
6927	CCUCAUUUA AAUUGAUU	1203	AAUCAAUU CUGAUGAGGNNNNNNNNCCGAA AAAUGAGG	5359
6931	AUUUAAAUU GAUUAAAG	1204	CUUUAAUC CUGAUGAGGNNNNNNNNCCGAA AUUUAAAU	5360
6935	AAAUUGAUU AAAGGAGG	1205	CCUCCUUU CUGAUGAGGNNNNNNNNCCGAA AUCAAUUU	5361
6936	AAUUGAUUA AAGGAGGA	1206	UCCUCCUU CUGAUGAGGNNNNNNNNCCGAA AAUCAAUU	5362
6951	GAGUGCAUC UUUGGCCG	1207	CGGCCAAA CUGAUGAGGNNNNNNNNCCGAA AUGCACUC	5363
6953	GUGCAUCUU UGGCCGAC	1208	GUCGGCCA CUGAUGAGGNNNNNNNNCCGAA AGAUGCAC	5364
6954	UGCAUCUUU GGCCGACA	1209	UGUCGGCC CUGAUGAGGNNNNNNNNCCGAA AAGAUGCA	5365
6970	AGUGGUGUA ACUGUGUG	1210	CACACAGU CUGAUGAGGNNNNNNNNCCGAA ACACCACU	5366
7026	GUGGGUGUA UGUGUGUU	1211	AACACACA CUGAUGAGGNNNNNNNNCCGAA ACACCCAC	5367
7034	AUGUGUGUU UUGUGCAU	1212	AUGCACAA CUGAUGAGGNNNNNNNNCCGAA ACACACAU	5368
7035	UGUGUGUUU UGUGCAUA	1213	UAUGCACA CUGAUGAGGNNNNNNNNCCGAA AACACACA	5369
7036	GUGUGUUUU GUGCAUAA	1214	UUAUGCAC CUGAUGAGGNNNNNNNNCCGAA AAACACAC	5370
7043	UUGUGCAUA ACUAUUUA	1215	UAAAUAGU CUGAUGAGGNNNNNNNNCCGAA AUGCACAA	5371
7047	GCAUAACUA UUUAAGGA	1216	UCCUUAAA CUGAUGAGGNNNNNNNNCCGAA AGUUAUGC	5372
7049	AUAACUAUU UAAGGAAA	1217	UUUCCUUA CUGAUGAGGNNNNNNNNCCGAA AUAGUUAU	5373
7050	UAACUAUUU AAGGAAAC	1218	GUUUCCUU CUGAUGAGGNNNNNNNNCCGAA AAUAGUUA	5374
7051	AACUAUUUA AGGAAACU	1219	AGUUUCCU CUGAUGAGGNNNNNNNNCCGAA AAAUAGUU	5375
7065	ACUGGAAUU UUAAAGUU	1220	AACUUUAA CUGAUGAGGNNNNNNNNCCGAA AUUCCAGU	5376
7066	CUGGAAUUU UAAAGUUA	1221	UAACUUUA CUGAUGAGGNNNNNNNNCCGAA AAUUCCAG	5377
7067	UGGAAUUUU AAAGUUAC	1222	GUAACUUU CUGAUGAGGNNNNNNNNCCGAA AAAUUCCA	5378
7068	GGAAUUUUA AAGUUACU	1223	AGUAACUU CUGAUGAGGNNNNNNNNCCGAA AAAAUUCC	5379
7073	UUUAAAGUU ACUUUUAU	1224	AUAAAAGU CUGAUGAGGNNNNNNNNCCGAA ACUUUAAA	5380
7074	UUAAAGUUA CUUUUAUA	1225	UAUAAAAG CUGAUGAGGNNNNNNNNCCGAA AACUUUAA	5381
7077	AAGUUACUU UUAUACAA	1226	UUGUAUAA CUGAUGAGGNNNNNNNNCCGAA AGUAACUU	5382
7078	AGUUACUUU UAUACAAA	1227	UUUGUAUA CUGAUGAGGNNNNNNNNCCGAA AAGUAACU	5383
7079	GUUACUUUU AUACAAAC	1228	GUUUGUAU CUGAUGAGGNNNNNNNNCCGAA AAAGUAAC	5384
7080	UUACUUUUA UACAAACC	1229	GGUUUGUA CUGAUGAGGNNNNNNNNCCGAA AAAAGUAA	5385
7082	ACUUUUAUA CAAACCAA	1230	UUGGUUUG CUGAUGAGGNNNNNNNNCCGAA AUAAAAGU	5386
7095	CCAAGAAUA UAUGCUAC	1231	GUAGCAUA CUGAUGAGGNNNNNNNNCCGAA AUUCUUGG	5387
7097	AAGAAUAUA UGCUACAG	1232	CUGUAGCA CUGAUGAGGNNNNNNNNCCGAA AUAUUCUU	5388
7102	UAUAUGCUA CAGAUAUA	1233	UAUAUCUG CUGAUGAGGNNNNNNNNCCGAA AGCAUAUA	5389
7108	CUACAGAUA UAAGACAG	1234	CUGUCUUA CUGAUGAGGNNNNNNNNCCGAA AUCUGUAG	5390
7110	ACAGAUAUA AGACAGAC	1235	GUCUGUCU CUGAUGAGGNNNNNNNNCCGAA AUAUCUGU	5391
7124	GACAUGGUU UGGUCCUA	1236	UAGGACCA CUGAUGAGGNNNNNNNNCCGAA ACCAUGUC	5392
7125	ACAUGGUUU GGUCCUAU	1237	AUAGGACC CUGAUGAGGNNNNNNNNCCGAA AACCAUGU	5393
7129	GGUUUGGUC CUAUAUUU	1238	AAAUAUAG CUGAUGAGGNNNNNNNNCCGAA ACCAAACC	5394
7132	UUGGUCCUA UAUUUCUA	1239	UAGAAAUA CUGAUGAGGNNNNNNNNCCGAA AGGACCAA	5395
7134	GGUCCUAUA UUUCUAGU	1240	ACUAGAAA CUGAUGAGGNNNNNNNNCCGAA AUAGGACC	5396
7136	UCCUAUAUU UCUAGUCA	1241	UGACUAGA CUGAUGAGGNNNNNNNNCCGAA AUAUAGGA	5397
7137	CCUAUAUUU CUAGUCAU	1242	AUGACUAG CUGAUGAGGNNNNNNNNCCGAA AAUAUAGG	5398
7138	CUAUAUUUC UAGUCAUG	1243	CAUGACUA CUGAUGAGGNNNNNNNNCCGAA AAAUAUAG	5399
7140	AUAUUUCUA GUCAUGAU	1244	AUCAUGAC CUGAUGAGGNNNNNNNNCCGAA AGAAAUAU	5400
7143	UUUCUAGUC AUGAUGAA	1245	UUCAUCAU CUGAUGAGGNNNNNNNNCCGAA ACUAGAAA	5401
7155	AUGAAUGUA UUUUGUAU	1246	AUACAAAA CUGAUGAGGNNNNNNNNCCGAA ACAUUCAU	5402
7157	GAAUGUAUU UUGUAUAC	1247	GUAUACAA CUGAUGAGGNNNNNNNNCCGAA AUACAUUC	5403
7158	AAUGUAUUU UGUAUACC	1248	GGUAUACA CUGAUGAGGNNNNNNNNCCGAA AAUACAUU	5404
7159	AUGUAUUUU GUAUACCA	1249	UGGUAUAC CUGAUGAGGNNNNNNNNCCGAA AAAUACAU	5405
7162	UAUUUUGUA UACCAUCU	1250	AGAUGGUA CUGAUGAGGNNNNNNNNCCGAA ACAAAAUA	5406
7164	UUUUGUAUA CCAUCUUC	1251	GAAGAUGG CUGAUGAGGNNNNNNNNCCGAA AUACAAAA	5407
7169	UAUACCAUC UUCAUAUA	1252	UAUAUGAA CUGAUGAGGNNNNNNNNCCGAA AUGGUAUA	5408
7171	UACCAUCUU CAUAUAAU	1253	AUUAUAUG CUGAUGAGGNNNNNNNNCCGAA AGAUGGUA	5409
7172	ACCAUCUUC AUAUAAUA	1254	UAUUAUAU CUGAUGAGGNNNNNNNNCCGAA AAGAUGGU	5410
7175	AUCUUCAUA UAAUAUAC	1255	GUAUAUUA CUGAUGAGGNNNNNNNNCCGAA AUGAAGAU	5411
7177	CUUCAUAUA AUAUACUU	1256	AAGUAUAU CUGAUGAGGNNNNNNNNCCGAA AUAUGAAG	5412
7180	CAUAUAAUA UACUUAAA	1257	UUUAAGUA CUGAUGAGGNNNNNNNNCCGAA AUUAUAUG	5413
7182	UAUAAUAUA CUUAAAAA	1258	UUUUUAAG CUGAUGAGGNNNNNNNNCCGAA AUAUUAUA	5414
7185	AAUAUACUU AAAAAUAU	1259	AUAUUUUU CUGAUGAGGNNNNNNNNCCGAA AGUAUAUU	5415
7186	AUAUACUUA AAAAUAUU	1260	AAUAUUUU CUGAUGAGGNNNNNNNNCCGAA AAGUAUAU	5416
7192	UUAAAAAUA UUUCUUAA	1261	UUAAGAAA CUGAUGAGGNNNNNNNNCCGAA AUUUUUAA	5417
7194	AAAAAUAUU UCUUAAUU	1262	AAUUAAGA CUGAUGAGGNNNNNNNNCCGAA AUAUUUUU	5418
7195	AAAAUAUUU CUUAAUUG	1263	CAAUUAAG CUGAUGAGGNNNNNNNNCCGAA AAUAUUUU	5419
7196	AAAUAUUUC UUAAUUGG	1264	CCAAUUAA CUGAUGAGGNNNNNNNNCCGAA AAAUAUUU	5420
7198	AUAUUUCUU AAUUGGGA	1265	UCCCAAUU CUGAUGAGGNNNNNNNNCCGAA AGAAAUAU	5421
7199	UAUUUCUUA AUUGGGAU	1266	AUCCCAAU CUGAUGAGGNNNNNNNNCCGAA AAGAAAUA	5422
7202	UUCUUAAUU GGGAUUUG	1267	CAAAUCCC CUGAUGAGGNNNNNNNNCCGAA AUUAAGAA	5423
7208	AUUGGGAUU UGUAAUCG	1268	CGAUUACA CUGAUGAGGNNNNNNNNCCGAA AUCCCAAU	5424
7209	UUGGGAUUU GUAAUCGU	1269	ACGAUUAC CUGAUGAGGNNNNNNNNCCGAA AAUCCCAA	5425
7212	GGAUUUGUA AUCGUACC	1270	GGUACGAU CUGAUGAGGNNNNNNNNCCGAA ACAAAUCC	5426
7215	UUUGUAAUC GUACCAAC	1271	GUUGGUAC CUGAUGAGGNNNNNNNNCCGAA AUUACAAA	5427
7218	GUAAUCGUA CCAACUUA	1272	UAAGUUGG CUGAUGAGGNNNNNNNNCCGAA ACGAUUAC	5428
7225	UACCAACUU AAUUGAUA	1273	UAUCAAUU CUGAUGAGGNNNNNNNNCCGAA AGUUGGUA	5429
7226	ACCAACUUA AUUGAUAA	1274	UUAUCAAU CUGAUGAGGNNNNNNNNCCGAA AAGUUGGU	5430
7229	AACUUAAUU GAUAAACU	1275	AGUUUAUC CUGAUGAGGNNNNNNNNCCGAA AUUAAGUU	5431
7233	UAAUUGAUA AACUUGGC	1276	GCCAAGUU CUGAUGAGGNNNNNNNNCCGAA AUCAAUUA	5432
7238	GAUAAACUU GGCAACUG	1277	CAGUUGCC CUGAUGAGGNNNNNNNNCCGAA AGUUUAUC	5433
7249	CAACUGCUU UUAUGUUC	1278	GAACAUAA CUGAUGAGGNNNNNNNNCCGAA AGCAGUUG	5434
7250	AACUGCUUU UAUGUUCU	1279	AGAACAUA CUGAUGAGGNNNNNNNNCCGAA AAGCAGUU	5435
7251	ACUGCUUUU AUGUUCUG	1280	CAGAACAU CUGAUGAGGNNNNNNNNCCGAA AAAGCAGU	5436
7252	CUGCUUUUA UGUUCUGU	1281	ACAGAACA CUGAUGAGGNNNNNNNNCCGAA AAAAGCAG	5437
7256	UUUUAUGUU CUGUCUCC	1282	GGAGACAG CUGAUGAGGNNNNNNNNCCGAA ACAUAAAA	5438
7257	UUUAUGUUC UGUCUCCU	1283	AGGAGACA CUGAUGAGGNNNNNNNNCCGAA AACAUAAA	5439
7261	UGUUCUGUC UCCUUCCA	1284	UGGAAGGA CUGAUGAGGNNNNNNNNCCGAA ACAGAACA	5440
7263	UUCUGUCUC CUUCCAUA	1285	UAUGGAAG CUGAUGAGGNNNNNNNNCCGAA AGACAGAA	5441
7266	UGUCUCCUU CCAUAAAU	1286	AUUUAUGG CUGAUGAGGNNNNNNNNCCGAA AGGAGACA	5442
7267	GUCUCCUUC CAUAAAUU	1287	AAUUUAUG CUGAUGAGGNNNNNNNNCCGAA AAGGAGAC	5443
7271	CCUUCCAUA AAUUUUUC	1288	GAAAAAUU CUGAUGAGGNNNNNNNNCCGAA AUGGAAGG	5444
7275	CCAUAAAUU UUUCAAAA	1289	UUUUGAAA CUGAUGAGGNNNNNNNNCCGAA AUUUAUGG	5445
7276	CAUAAAUUU UUCAAAAU	1290	AUUUUGAA CUGAUGAGGNNNNNNNNCCGAA AAUUUAUG	5446
7277	AUAAAUUUU UCAAAAUA	1291	UAUUUUGA CUGAUGAGGNNNNNNNNCCGAA AAAUUUAU	5447
7278	UAAAUUUUU CAAAAUAC	1292	GUAUUUUG CUGAUGAGGNNNNNNNNCCGAA AAAAUUUA	5448
7279	AAAUUUUUC AAAAUACU	1293	AGUAUUUU CUGAUGAGGNNNNNNNNCCGAA AAAAAUUU	5449
7285	UUCAAAAUA CUAAUUCA	1294	UGAAUUAG CUGAUGAGGNNNNNNNNCCGAA AUUUUGAA	5450
7288	AAAAUACUA AUUCAACA	1295	UGUUGAAU CUGAUGAGGNNNNNNNNCCGAA AGUAUUUU	5451
7291	AUACUAAUU CAACAAAG	1296	CUUUGUUG CUGAUGAGGNNNNNNNNCCGAA AUUAGUAU	5452
7292	UACUAAUUC AACAAAGA	1297	UCUUUGUU CUGAUGAGGNNNNNNNNCCGAA AAUUAGUA	5453
7308	AAAAAGCUC UUUUUUUU	1298	AAAAAAAA CUGAUGAGGNNNNNNNNCCGAA AGCUUUUU	5454
7310	AAAGCUCUU UUUUUUCC	1299	GGAAAAAA CUGAUGAGGNNNNNNNNCCGAA AGAGCUUU	5455
7311	AAGCUCUUU UUUUUCCU	1300	AGGAAAAA CUGAUGAGGNNNNNNNNCCGAA AAGAGCUU	5456
7312	AGCUCUUUU UUUUCCUA	1301	UAGGAAAA CUGAUGAGGNNNNNNNNCCGAA AAAGAGCU	5457
7313	GCUCUUUUU UUUCCUAA	1302	UUAGGAAA CUGAUGAGGNNNNNNNNCCGAA AAAAGAGC	5458
7314	CUCUUUUUU UUCCUAAA	1303	UUUAGGAA CUGAUGAGGNNNNNNNNCCGAA AAAAAGAG	5459
7315	UCUUUUUUU UCCUAAAA	1304	UUUUAGGA CUGAUGAGGNNNNNNNNCCGAA AAAAAAGA	5460
7316	CUUUUUUUU CCUAAAAU	1305	AUUUUAGG CUGAUGAGGNNNNNNNNCCGAA AAAAAAAG	5461
7317	UUUUUUUUC CUAAAAUA	1306	UAUUUUAG CUGAUGAGGNNNNNNNNCCGAA AAAAAAAA	5462
7320	UUUUUCCUA AAAUAAAC	1307	GUUUAUUU CUGAUGAGGNNNNNNNNCCGAA AGGAAAAA	5463
7325	CCUAAAAUA AACUCAAA	1308	UUUGAGUU CUGAUGAGGNNNNNNNNCCGAA AUUUUAGG	5464
7330	AAUAAACUC AAAUUUAU	1309	AUAAAUUU CUGAUGAGGNNNNNNNNCCGAA AGUUUAUU	5465
7335	ACUCAAAUU UAUCCUUG	1310	CAAGGAUA CUGAUGAGGNNNNNNNNCCGAA AUUUGAGU	5466
7336	CUCAAAUUU AUCCUUGU	1311	ACAAGGAU CUGAUGAGGNNNNNNNNCCGAA AAUUUGAG	5467
7337	UCAAAUUUA UCCUUGUU	1312	AACAAGGA CUGAUGAGGNNNNNNNNCCGAA AAAUUUGA	5468
7339	AAAUUUAUC CUUGUUUA	1313	UAAACAAG CUGAUGAGGNNNNNNNNCCGAA AUAAAUUU	5469
7342	UUUAUCCUU GUUUAGAG	1314	CUCUAAAC CUGAUGAGGNNNNNNNNCCGAA AGGAUAAA	5470
7345	AUCCUUGUU UAGAGCAG	1315	CUGCUCUA CUGAUGAGGNNNNNNNNCCGAA ACAAGGAU	5471
7346	UCCUUGUUU AGAGCAGA	1316	UCUGCUCU CUGAUGAGGNNNNNNNNCCGAA AACAAGGA	5472
7347	CCUUGUUUA GAGCAGAG	1317	CUCUGCUC CUGAUGAGGNNNNNNNNCCGAA AAACAAGG	5473
7362	AGAAAAAUU AAGAAAAA	1318	UUUUUCUU CUGAUGAGGNNNNNNNNCCGAA AUUUUUCU	5474
7363	GAAAAAUUA AGAAAAAC	1319	GUUUUUCU CUGAUGAGGNNNNNNNNCCGAA AAUUUUUC	5475
7373	GAAAAACUU UGAAAUGG	1320	CCAUUUCA CUGAUGAGGNNNNNNNNCCGAA AGUUUUUC	5476
7374	AAAAACUUU GAAAUGGU	1321	ACCAUUUC CUGAUGAGGNNNNNNNNCCGAA AAGUUUUU	5477
7383	GAAAUGGUC UCAAAAAA	1322	UUUUUUGA CUGAUGAGGNNNNNNNNCCGAA ACCAUUUC	5478
7385	AAUGGUCUC AAAAAAUU	1323	AAUUUUUU CUGAUGAGGNNNNNNNNCCGAA AGACCAUU	5479
7393	CAAAAAAUU GCUAAAUA	1324	UAUUUAGC CUGAUGAGGNNNNNNNNCCGAA AUUUUUUG	5480
7397	AAAUUGCUA AAUAUUUU	1325	AAAAUAUU CUGAUGAGGNNNNNNNNCCGAA AGCAAUUU	5481
7401	UGCUAAAUA UUUUCAAU	1326	AUUGAAAA CUGAUGAGGNNNNNNNNCCGAA AUUUAGCA	5482
7403	CUAAAUAUU UUCAAUGG	1327	CCAUUGAA CUGAUGAGGNNNNNNNNCCGAA AUAUUUAG	5483
7404	UAAAUAUUU UCAAUGGA	1328	UCCAUUGA CUGAUGAGGNNNNNNNNCCGAA AAUAUUUA	5484
7405	AAAUAUUUU CAAUGGAA	1329	UUCCAUUG CUGAUGAGGNNNNNNNNCCGAA AAAUAUUU	5485
7406	AAUAUUUUC AAUGGAAA	1330	UUUCCAUU CUGAUGAGGNNNNNNNNCCGAA AAAAUAUU	5486
7418	GGAAAACUA AAUGUUAG	1331	CUAACAUU CUGAUGAGGNNNNNNNNCCGAA AGUUUUCC	5487
7424	CUAAAUGUU AGUUUAGC	1332	GCUAAACU CUGAUGAGGNNNNNNNNCCGAA ACAUUUAG	5488
7425	UAAAUGUUA GUUUAGCU	1333	AGCUAAAC CUGAUGAGGNNNNNNNNCCGAA AACAUUUA	5489
7428	AUGUUAGUU UAGCUGAU	1334	AUCAGCUA CUGAUGAGGNNNNNNNNCCGAA ACUAACAU	5490
7429	UGUUAGUUU AGCUGAUU	1335	AAUCAGCU CUGAUGAGGNNNNNNNNCCGAA AACUAACA	5491
7430	GUUAGUUUA GCUGAUUG	1336	CAAUCAGC CUGAUGAGGNNNNNNNNCCGAA AAACUAAC	5492
7437	UAGCUGAUU GUAUGGGG	1337	CCCCAUAC CUGAUGAGGNNNNNNNNCCGAA AUCAGCUA	5493
7440	CUGAUUGUA UGGGGUUU	1338	AAACCCCA CUGAUGAGGNNNNNNNNCCGAA ACAAUCAG	5494
7447	UAUGGGGUU UUCGAACC	1339	GGUUCGAA CUGAUGAGGNNNNNNNNCCGAA ACCCCAUA	5495
7448	AUGGGGUUU UCGAACCU	1340	AGGUUCGA CUGAUGAGGNNNNNNNNCCGAA AACCCCAU	5496
7449	UGGGGUUUU CGAACCUU	1341	AAGGUUCG CUGAUGAGGNNNNNNNNCCGAA AAACCCCA	5497
7450	GGGGUUUUC GAACCUUU	1342	AAAGGUUC CUGAUGAGGNNNNNNNNCCGAA AAAACCCC	5498
7457	UCGAACCUU UCACUUUU	1343	AAAAGUGA CUGAUGAGGNNNNNNNNCCGAA AGGUUCGA	5499
7458	CGAACCUUU CACUUUUU	1344	AAAAAGUG CUGAUGAGGNNNNNNNNCCGAA AAGGUUCG	5500
7459	GAACCUUUC ACUUUUUG	1345	CAAAAAGU CUGAUGAGGNNNNNNNNCCGAA AAAGGUUC	5501
7463	CUUUCACUU UUUGUUUG	1346	CAAACAAA CUGAUGAGGNNNNNNNNCCGAA AGUGAAAG	5502
7464	UUUCACUUU UUGUUUGU	1347	ACAAACAA CUGAUGAGGNNNNNNNNCCGAA AAGUGAAA	5503
7465	UUCACUUUU UGUUUGUU	1348	AACAAACA CUGAUGAGGNNNNNNNNCCGAA AAAGUGAA	5504
7466	UCACUUUUU GUUUGUUU	1349	AAACAAAC CUGAUGAGGNNNNNNNNCCGAA AAAAGUGA	5505
7469	CUUUUUGUU UGUUUUAC	1350	GUAAAACA CUGAUGAGGNNNNNNNNCCGAA ACAAAAAG	5506
7470	UUUUUGUUU GUUUUACC	1351	GGUAAAAC CUGAUGAGGNNNNNNNNCCGAA AACAAAAA	5507
7473	UUGUUUGUU UUACCUAU	1352	AUAGGUAA CUGAUGAGGNNNNNNNNCCGAA ACAAACAA	5508
7474	UGUUUGUUU UACCUAUU	1353	AAUAGGUA CUGAUGAGGNNNNNNNNCCGAA AACAAACA	5509
7475	GUUUGUUUU ACCUAUUU	1354	AAAUAGGU CUGAUGAGGNNNNNNNNCCGAA AAACAAAC	5510
7476	UUUGUUUUA CCUAUUUC	1355	GAAAUAGG CUGAUGAGGNNNNNNNNCCGAA AAAACAAA	5511
7480	UUUUACCUA UUUCACAA	1356	UUGUGAAA CUGAUGAGGNNNNNNNNCCGAA AGGUAAAA	5512
7482	UUACCUAUU UCACAACU	1357	AGUUGUGA CUGAUGAGGNNNNNNNNCCGAA AUAGGUAA	5513
7483	UACCUAUUU CACAACUG	1358	CAGUUGUG CUGAUGAGGNNNNNNNNCCGAA AAUAGGUA	5514
7484	ACCUAUUUC ACAACUGU	1359	ACAGUUGU CUGAUGAGGNNNNNNNNCCGAA AAAUAGGU	5515
7495	AACUGUGUA AAUUGCCA	1360	UGGCAAUU CUGAUGAGGNNNNNNNNCCGAA ACACAGUU	5516
7499	GUGUAAAUU GCCAAUAA	1361	UUAUUGGC CUGAUGAGGNNNNNNNNCCGAA AUUUACAC	5517
7506	UUGCCAAUA AUUCCUGU	1362	ACAGGAAU CUGAUGAGGNNNNNNNNCCGAA AUUGGCAA	5518
7509	CCAAUAAUU CCUGUCCA	1363	UGGACAGG CUGAUGAGGNNNNNNNNCCGAA AUUAUUGG	5519
7510	CAAUAAUUC CUGUCCAU	1364	AUGGACAG CUGAUGAGGNNNNNNNNCCGAA AAUUAUUG	5520
7515	AUUCCUGUC CAUGAAAA	1365	UUUUCAUG CUGAUGAGGNNNNNNNNCCGAA ACAGGAAU	5521
7531	AUGCAAAUU AUCCAGUG	1366	CACUGGAU CUGAUGAGGNNNNNNNNCCGAA AUUUGCAU	5522
7532	UGCAAAUUA UCCAGUGU	1367	ACACUGGA CUGAUGAGGNNNNNNNNCCGAA AAUUUGCA	5523
7534	CAAAUUAUC CAGUGUAG	1368	CUACACUG CUGAUGAGGNNNNNNNNCCGAA AUAAUUUG	5524
7541	UCCAGUGUA GAUAUAUU	1369	AAUAUAUC CUGAUGAGGNNNNNNNNCCGAA ACACUGGA	5525
7545	GUGUAGAUA UAUUUGAC	1370	GUCAAAUA CUGAUGAGGNNNNNNNNCCGAA AUCUACAC	5526
7547	GUAGAUAUA UUUGACCA	1371	UGGUCAAA CUGAUGAGGNNNNNNNNCCGAA AUAUCUAC	5527
7549	AGAUAUAUU UGACCAUC	1372	GAUGGUCA CUGAUGAGGNNNNNNNNCCGAA AUAUAUCU	5528
7550	GAUAUAUUU GACCAUCA	1373	UGAUGGUC CUGAUGAGGNNNNNNNNCCGAA AAUAUAUC	5529
7557	UUGACCAUC ACCCUAUG	1374	CAUAGGGU CUGAUGAGGNNNNNNNNCCGAA AUGGUCAA	5530
7563	AUCACCCUA UGGAUAUU	1375	AAUAUCCA CUGAUGAGGNNNNNNNNCCGAA AGGGUGAU	5531
7569	CUAUGGAUA UUGGCUAG	1376	CUAGCCAA CUGAUGAGGNNNNNNNNCCGAA AUCCAUAG	5532
7571	AUGGAUAUU GGCUAGUU	1377	AACUAGCC CUGAUGAGGNNNNNNNNCCGAA AUAUCCAU	5533
7576	UAUUGGCUA GUUUUGCC	1378	GGCAAAAC CUGAUGAGGNNNNNNNNCCGAA AGCCAAUA	5534
7579	UGGCUAGUU UUGCCUUU	1379	AAAGGCAA CUGAUGAGGNNNNNNNNCCGAA ACUAGCCA	5535
7580	GGCUAGUUU UGCCUUUA	1380	UAAAGGCA CUGAUGAGGNNNNNNNNCCGAA AACUAGCC	5536
7581	GCUAGUUUU GCCUUUAU	1381	AUAAAGGC CUGAUGAGGNNNNNNNNCCGAA AAACUAGC	5537
7586	UUUUGCCUU UAUUAAGC	1382	GCUUAAUA CUGAUGAGGNNNNNNNNCCGAA AGGCAAAA	5538
7587	UUUGCCUUU AUUAAGCA	1383	UGCUUAAU CUGAUGAGGNNNNNNNNCCGAA AAGGCAAA	5539
7588	UUGCCUUUA UUAAGCAA	1384	UUGCUUAA CUGAUGAGGNNNNNNNNCCGAA AAAGGCAA	5540
7590	GCCUUUAUU AAGCAAAU	1385	AUUUGCUU CUGAUGAGGNNNNNNNNCCGAA AUAAAGGC	5541
7591	CCUUUAUUA AGCAAAUU	1386	AAUUUGCU CUGAUGAGGNNNNNNNNCCGAA AAUAAAGG	5542
7599	AAGCAAAUU CAUUUCAG	1387	CUGAAAUG CUGAUGAGGNNNNNNNNCCGAA AUUUGCUU	5543
7600	AGCAAAUUC AUUUCAGC	1388	GCUGAAAU CUGAUGAGGNNNNNNNNCCGAA AAUUUGCU	5544
7603	AAAUUCAUU UCAGCCUG	1389	CAGGCUGA CUGAUGAGGNNNNNNNNCCGAA AUGAAUUU	5545
7604	AAUUCAUUU CAGCCUGA	1390	UCAGGCUG CUGAUGAGGNNNNNNNNCCGAA AAUGAAUU	5546
7605	AUUCAUUUC AGCCUGAA	1391	UUCAGGCU CUGAUGAGGNNNNNNNNCCGAA AAAUGAAU	5547
7617	CUGAAUGUC UGCCUAUA	1392	UAUAGGCA CUGAUGAGGNNNNNNNNCCGAA ACAUUCAG	5548
7623	GUCUGCCUA UAUAUUCU	1393	AGAAUAUA CUGAUGAGGNNNNNNNNCCGAA AGGCAGAC	5549
7625	CUGCCUAUA UAUUCUCU	1394	AGAGAAUA CUGAUGAGGNNNNNNNNCCGAA AUAGGCAG	5550
7627	GCCUAUAUA UUCUCUGC	1395	GCAGAGAA CUGAUGAGGNNNNNNNNCCGAA AUAUAGGC	5551
7629	CUAUAUAUU CUCUGCUC	1396	GAGCAGAG CUGAUGAGGNNNNNNNNCCGAA AUAUAUAG	5552
7630	UAUAUAUUC UCUGCUCU	1397	AGAGCAGA CUGAUGAGGNNNNNNNNCCGAA AAUAUAUA	5553
7632	UAUAUUCUC UGCUCUUU	1398	AAAGAGCA CUGAUGAGGNNNNNNNNCCGAA AGAAUAUA	5554
7637	UCUCUGCUC UUUGUAUU	1399	AAUACAAA CUGAUGAGGNNNNNNNNCCGAA AGCAGAGA	5555
7639	UCUGCUCUU UGUAUUCU	1400	AGAAUACA CUGAUGAGGNNNNNNNNCCGAA AGAGCAGA	5556
7640	CUGCUCUUU GUAUUCUC	1401	GAGAAUAC CUGAUGAGGNNNNNNNNCCGAA AAGAGCAG	5557
7643	CUCUUUGUA UUCUCCUU	1402	AAGGAGAA CUGAUGAGGNNNNNNNNCCGAA ACAAAGAG	5558
7645	CUUUGUAUU CUCCUUUG	1403	CAAAGGAG CUGAUGAGGNNNNNNNNCCGAA AUACAAAG	5559
7646	UUUGUAUUC UCCUUUGA	1404	UCAAAGGA CUGAUGAGGNNNNNNNNCCGAA AAUACAAA	5560
7648	UGUAUUCUC CUUUGAAC	1405	GUUCAAAG CUGAUGAGGNNNNNNNNCCGAA AGAAUACA	5561
7651	AUUCUCCUU UGAACCCG	1406	CGGGUUCA CUGAUGAGGNNNNNNNNCCGAA AGGAGAAU	5562
7652	UUCUCCUUU GAACCCGU	1407	ACGGGUUC CUGAUGAGGNNNNNNNNCCGAA AAGGAGAA	5563
7661	GAACCCGUU AAAACAUC	1408	GAUGUUUU CUGAUGAGGNNNNNNNNCCGAA ACGGGUUC	5564
7662	AACCCGUUA AAACAUCC	1409	GGAUGUUU CUGAUGAGGNNNNNNNNCCGAA AACGGGUU	5565
7669	UAAAACAUC CUGUGGCA	1410	UGCCACAG CUGAUGAGGNNNNNNNNCCGAA AUGUUUUA	5566

Where “N” represents stem II region of a HH ribozyme (Hertel et al., 1992 Nucleic Acids Res. 20 3252).

TABLE III
Human flt1 VEGF Receptor-Hairpin Ribozyme and Substrate sequence
Pos	Substrate	Seq ID No	HP Ribozyme Sequence	Seq ID No
16	CCUCUCG GCU CCUCCCCG	1411	CGGGGAGG AGAA GAGAGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5567
39	GGCGGCG GCU CGGAGCGG	1412	CCGCUCCG AGAA GCCGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5568
180	GAGGACG GAC UCUGGCGG	1413	CCGCCAGA AGAA GUCCUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5569
190	UCUGGCG GCC GGGUCGUU	1414	AACGACCC AGAA GCCAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5570
278	GGGUCCU GCU GUGCGCGC	1415	GCGCGCAC AGAA GGACCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5571
290	GCGCGCU GCU CAGCUGUC	1416	GACAGCUG AGAA GCGCGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5572
295	CUGCUCA GCU GUCUGCUU	1417	AAGCAGAC AGAA GAGCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5573
298	CUCAGCU GUC UGCUUCUC	1418	GAGAAGCA AGAA GCUGAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5574
302	GCUGUCU GCU UCUCACAG	1419	CUGUGAGA AGAA GACAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5575
420	GGAAGCA GCC CAUAAAUG	1420	CAUUUAUG AGAA GCUUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5576
486	UAAAUCU GCC UGUGGAAG	1421	CUUCCACA AGAA GAUUUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5577
537	GAACACA GCU CAAGCAAA	1422	UUUGCUUG AGAA GUGUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5578
565	UUCUACA GCU GCAAAUAU	1423	AUAUUUGC AGAA GUAGAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5579
721	AUUCCCU GCC GGGUUACG	1424	CGUAACCC AGAA GGGAAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5580
786	GAUCCCU GAU GGAAAACG	1425	CGUUUUCC AGAA GGGAUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5581
863	GGCUUCU GAC CUGUGAAG	1426	CUUCACAG AGAA GAAGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5582
1056	UUACCCU GAU GAAAAAAA	1427	UUUUUUUC AGAA GGGUAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5583
1301	GCAAGCG GUC UUACCGGC	1428	GCCGGUAA AGAA GCUUGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5584
1310	CUUACCG GCU CUCUAUGA	1429	UCAUAGAG AGAA GGUAAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5585
1389	GAAAUCU GCU CGCUAUUU	1430	AAAUAGCG AGAA GAUUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5586
1535	AACCCCA GAU UUACGAAA	1431	UUUCGUAA AGAA GGGGUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5587
1566	GUUUCCA GAC CCGGCUCU	1432	AGAGCCGG AGAA GGAAAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5588
1572	AGACCCG GCU CUCUACCC	1433	GGGUAGAG AGAA GGGUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5589
1604	AAAUCCU GAC UUGUACCG	1434	CGGUACAA AGAA GGAUUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5590
1824	UGUGGCU GAC UCUAGAAU	1435	AUUCUAGA AGAA GCCACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5591
1908	UAUCACA GAU GUGCCAAA	1436	UUUGGCAC AGAA GUGAUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5592
1949	AAAUGCC GAC GGAAGGAG	1437	CUCCUUCC AGAA GCAUUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5593
1973	UGAAACU GUC UUGCACAG	1438	CUGUGCAA AGAA GUUUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5594
2275	AUCAGCA GUU CCACCACU	1439	AGUGGUGG AGAA GCUGAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5595
2321	AGCCUCA GAU CACUUGGU	1440	ACCAAGUG AGAA GAGGCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5596
2396	GCACGCU GUU UAUUGAAA	1441	UUUCAAUA AGAA GCGUGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5597
2490	CCUCACU GUU CAAGGAAC	1442	GUUCCUUG AGAA GUGAGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5598
2525	UGGAGCU GAU CACUCUAA	1443	UUAGAGUG AGAA GCUCCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5599
2625	AAAGACU GAC UACCUAUC	1444	GAUAGGUA AGAA GUCUUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5600
2652	GGACCCA GAU GAAGUUCC	1445	GGAACUUC AGAA GGGUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5601
2684	GUGAGCG GCU CCCUUAUG	1446	CAUAAGGG AGAA GCUCAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5602
2816	CGUGCCG GAC UGUGGCUG	1447	CAGCCACA AGAA GGCACG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5603
2873	AAGCUCU GAU GACUGAGC	1448	GCUCAGUC AGAA GAGCUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5604
2930	UUAACCU GCU GGGAGCCU	1449	AGGCUCCC AGAA GGUUAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5605
2963	GGCCUCU GAU GGUGAUUG	1450	CAAUCACC AGAA GAGGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5606
3157	AGCUCCG GCU UUCAGGAA	1451	UUCCUGAA AGAA GGAGCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5607
3207	GGAUUCU GAC GGUUUCUA	1452	UAGAAACC AGAA GAAUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5608
3211	UCUGACG GUU UCUACAAG	1453	CUUGUAGA AGAA GUCAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5609
3245	AAGAUCU GAU UUCUUACA	1454	UGUAAGAA AGAA GAUCUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5610
3256	UCUUACA GUU UUCAAGUG	1455	CACUUGAA AGAA GUAAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5611
3287	AGUUCCU GUC UUCCAGAA	1456	UUCUGGAA AGAA GGAACU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5612
3402	GAACCCC GAU UAUGUGAG	1457	CUCACAUA AGAA GGGUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5613
3580	UUUUGCA GUC GCCUGAGG	1458	CCUCAGGC AGAA GCAAAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5614
3641	UCUAUCA GAU CAUGCUGG	1459	CCAGCAUG AGAA GAUAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5615
3655	CUGGACU GCU GGCACAGA	1460	UCUGUGCC AGAA GUCCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5616
3810	AACUCCU GCC UUCUCUGA	1461	UCAGAGAA AGAA GGAGUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5617
3846	UAUUUCA GCU CCGAAGUU	1462	AACUUCGG AGAA GAAAUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5618
3873	AAGCUCU GAU GAUGUCAG	1463	CUGACAUC AGAA GAGCUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5619
3995	GCACUCU GUU GGCCUCUC	1464	GAGAGGCC AGAA GAGUGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5620
4100	CGGGGCU GUC UGAUGUCA	1465	UGACAUCA AGAA GCCCCG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5621
4104	GCUGUCU GAU GUCAGCAG	1466	CUGCUGAC AGAA GACAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5622
4120	AGGCCCA GUU UCUGCCAU	1467	AUGGCAGA AGAA GGGCCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5623
4135	CAUUCCA GCU GUGGGCAC	1468	GUGCCCAC AGAA GGAAUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5624
4210	GCGUGCU GCU CCCCGCCC	1469	GGGCGGGG AGAA GCACGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5625
4217	GCUCCCC GCC CCCAGACU	1470	AGUCUGGG AGAA GGGAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5626
4224	GCCCCCA GAC UACAACUC	1471	GAGUUGUA AGAA GGGGGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5627
4382	GGAGCCA GCU GCUUUUUG	1472	CAAAAAGC AGAA GGCUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5628
4385	GCCAGCU GCU UUUUGUGA	1473	UCACAAAA AGAA GCUGGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5629
4537	CUUCCCU GCU CCAACCCC	1474	GGGGUUGG AGAA GGGAAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5630
4573	AGGACCA GUU UGAUUGAG	1475	CUCAAUCA AGAA GGUCCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5631
4594	CUGCACU GAU CACCCAAU	1476	AUUGGGUG AGAA GUGCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5632
4628	UGGGCCA GCC CUGCAGCC	1477	GGCUGCAG AGAA GGCCCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5633
4636	CCCUGCA GCC CAAAACCC	1478	GGGUUUUG AGAA GCAGGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5634
4866	CUUCCCA GCU CUGACCCU	1479	AGGGUCAG AGAA GGGAAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5635
4871	CAGCUCU GAC CCUUCUAC	1480	GUAGAAGG AGAA GAGCUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5636
4905	AGGACCA GAU GGACAGCG	1481	CGCUGUCC AGAA GCUCCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5637
5233	UUAUUCU GUU UUGCACAG	1482	CUGUGCAA AGAA GAAUAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5638
5281	AAAUGCA GUC CUGAGGAG	1483	CUCCUCAG AGAA GCAUUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5639
5319	GAGGGCU GAU GGAGGAAA	1484	UUUCCUCC AGAA GCCCUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5640
5358	AGACCCC GUC UCUAUACC	1485	GGUAUAGA AGAA GGGUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5641
5392	CAACACA GUU GGGACCCA	1486	UGGGUCCC AGAA GUGUUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5642
5563	UUCUCCA GUU GGGACUCA	1487	UGAGUCCC AGAA GGAGAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5643
5622	UUCAACU GCU UUGAAACU	1488	AGUUUCAA AGAA GUUGAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5644
5738	UGGCUCU GUU UGAUGCUA	1489	UAGCAUCA AGAA GAGCCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5645
5838	UGGCUCU GUU UGAUGCUA	1489	UAGCAUCA AGAA GAGCCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5645
5933	GAUUGCU GCU UCUUGGGG	1490	CCCCAAGA AGAA GCAAUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5646
6022	UGCCUCU GUU CUUAUGUG	1491	CACAUAAG AGAA GAGGCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5647
6120	GGCAGCG GCU UUUGUGGA	1492	UCCACAAA AGAA GCUGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5648
6163	UGGGACA GUC CUCUCCAC	1493	GUGGAGAG AGAA GUCCCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5649
6270	UGUGACA GCU GGCAAUUU	1494	AAAUUGCC AGAA GUCACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5650
6412	CUUAGCU GUU CAUGUCUU	1495	AAGACAUG AGAA GCUAAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5651
6511	UUACUCA GCU CCUUCAAA	1496	UUUGAAGG AGAA GAGUAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5652
6778	UGGAACA GUC UGGGUGGA	1497	UCCACCCA AGAA GUUCCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5653
6826	CUUGUCA GUC CAAGAAGU	1498	ACUUCUUG AGAA GACAAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5654
7245	GGCAACU GCU UUUAUGUU	1499	AACAUAAA AGAA GUUGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5655
7258	AUGUUCU GUC UCCUUCCA	1500	UGGAAGGA AGAA GAACAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5656
7433	UUUAGCU GAU UGUAUGGG	1501	CCCAUACA AGAA GCUAAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5657
7512	AAUUCCU GUC CAUGAAAA	1502	UUUUCAUG AGAA GGAAUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5658
7606	CAUUUCA GCC UGAAUGUC	1503	GACAUUCA AGAA GAAAUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5659
7618	AAUGUCU GCC UAUAUAUU	1504	AAUAUAUA AGAA GACAUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5660
7633	AUUCUCU GCU CUUUGUAU	1505	AUACAAAG AGAA GAGAAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5661

TABLE IV
Human KDR VEGF Receptor-Hammerhead Ribozyme and Substrate Sequence
		Seq ID		Seq ID
Pos	Substrate	No	HH Ribozyme Sequence	No
21	CUGGCCGUC GCCCUGUG	1506	CACAGGGC CUGAUGAGGNNNNNNNNCCGAA ACGGCCAG	5662
33	CUGUGGCUC UGCGUGGA	1507	UCCACGCA CUGAUGAGGNNNNNNNNCCGAA AGCCACAG	5663
56	GGCCGCCUC UGUGGGUU	1508	AACCCACA CUGAUGAGGNNNNNNNNCCGAA AGGCGGCC	5664
64	CUGUGGGUU UGCCUAGU	1509	ACUAGGCA CUGAUGAGGNNNNNNNNCCGAA ACCCACAG	5665
65	UGUGGGUUU GCCUAGUG	1510	CACUAGGC CUGAUGAGGNNNNNNNNCCGAA AACCCACA	5666
70	GUUUGCCUA GUGUUUCU	1511	AGAAACAC CUGAUGAGGNNNNNNNNCCGAA AGGCAAAC	5667
75	CCUAGUGUU UCUCUUGA	1512	UCAAGAGA CUGAUGAGGNNNNNNNNCCGAA ACACUAGG	5668
76	CUAGUGUUU CUCUUGAU	1513	AUCAAGAG CUGAUGAGGNNNNNNNNCCGAA AACACUAG	5669
77	UAGUGUUUC UCUUGAUC	1514	GAUCAAGA CUGAUGAGGNNNNNNNNCCGAA AAACACUA	5670
79	GUGUUUCUC UUGAUCUG	1515	CAGAUCAA CUGAUGAGGNNNNNNNNCCGAA AGAAACAC	5671
81	GUUUCUCUU GAUCUGCC	1516	GGCAGAUC CUGAUGAGGNNNNNNNNCCGAA AGAGAAAC	5672
85	CUCUUGAUC UGCCCAGG	1517	CCUGGGCA CUGAUGAGGNNNNNNNNCCGAA AUCAAGAG	5673
96	CCCAGGCUC AGCAUACA	1518	UGUAUGCU CUGAUGAGGNNNNNNNNCCGAA AGCCUGGG	5674
102	CUCAGCAUA CAAAAAGA	1519	UCUUUUUG CUGAUGAGGNNNNNNNNCCGAA AUGCUGAG	5675
114	AAAGACAUA CUUACAAU	1520	AUUGUAAG CUGAUGAGGNNNNNNNNCCGAA AUGUCUUU	5676
117	GACAUACUU ACAAUUAA	1521	UUAAUUGU CUGAUGAGGNNNNNNNNCCGAA AGUAUGUC	5677
118	ACAUACUUA CAAUUAAG	1522	CUUAAUUG CUGAUGAGGNNNNNNNNCCGAA AAGUAUGU	5678
123	CUUACAAUU AAGGCUAA	1523	UUAGCCUU CUGAUGAGGNNNNNNNNCCGAA AUUGUAAG	5679
124	UUACAAUUA AGGCUAAU	1524	AUUAGCCU CUGAUGAGGNNNNNNNNCCGAA AAUUGUAA	5680
130	UUAAGGCUA AUACAACU	1525	AGUUGUAU CUGAUGAGGNNNNNNNNCCGAA AGCCUUAA	5681
133	AGGCUAAUA CAACUCUU	1526	AAGAGUUG CUGAUGAGGNNNNNNNNCCGAA AUUAGCCU	5682
139	AUACAACUC UUCAAAUU	1527	AAUUUGAA CUGAUGAGGNNNNNNNNCCGAA AGUUGUAU	5683
141	ACAACUCUU CAAAUUAC	1528	GUAAUUUG CUGAUGAGGNNNNNNNNCCGAA AGAGUUGU	5684
142	CAACUCUUC AAAUUACU	1529	AGUAAUUU CUGAUGAGGNNNNNNNNCCGAA AAGAGUUG	5685
147	CUUCAAAUU ACUUGCAG	1530	CUGCAAGU CUGAUGAGGNNNNNNNNCCGAA AUUUGAAG	5686
148	UUCAAAUUA CUUGCAGG	1531	CCUGCAAG CUGAUGAGGNNNNNNNNCCGAA AAUUUGAA	5687
151	AAAUUACUU GCAGGGGA	1532	UCCCCUGC CUGAUGAGGNNNNNNNNCCGAA AGUAAUUU	5688
170	GAGGGACUU GGACUGGC	1533	GCCAGUCC CUGAUGAGGNNNNNNNNCCGAA AGUCCCUC	5689
180	GACUGGCUU UGGCCCAA	1534	UUGGGCCA CUGAUGAGGNNNNNNNNCCGAA AGCCAGUC	5690
181	ACUGGCUUU GGCCCAAU	1535	AUUGGGCC CUGAUGAGGNNNNNNNNCCGAA AAGCCAGU	5691
190	GGCCCAAUA AUCAGAGU	1536	ACUCUGAU CUGAUGAGGNNNNNNNNCCGAA AUUGGGCC	5692
193	CCAAUAAUC AGAGUGGC	1537	GCCACUCU CUGAUGAGGNNNNNNNNCCGAA AUUAUUGG	5693
243	GAUGGCCUC UUCUGUAA	1538	UUACAGAA CUGAUGAGGNNNNNNNNCCGAA AGGCCAUC	5694
245	UGGCCUCUU CUGUAAGA	1539	UCUUACAG CUGAUGAGGNNNNNNNNCCGAA AGAGGCCA	5695
246	GGCCUCUUC UGUAAGAC	1540	GUCUUACA CUGAUGAGGNNNNNNNNCCGAA AAGAGGCC	5696
250	UCUUCUGUA AGACACUC	1541	GAGUGUCU CUGAUGAGGNNNNNNNNCCGAA ACAGAAGA	5697
258	AAGACACUC ACAAUUCC	1542	GGAAUUGU CUGAUGAGGNNNNNNNNCCGAA AGUGUCUU	5698
264	CUCACAAUU CCAAAAGU	1543	ACUUUUGG CUGAUGAGGNNNNNNNNCCGAA AUUGUGAG	5699
265	UCACAAUUC CAAAAGUG	1544	CACUUUUG CUGAUGAGGNNNNNNNNCCGAA AAUUGUGA	5700
276	AAAGUGAUC GGAAAUGA	1545	UCAUUUCC CUGAUGAGGNNNNNNNNCCGAA AUCACUUU	5701
296	UGGAGCCUA CAAGUGCU	1546	AGCACUUG CUGAUGAGGNNNNNNNNCCGAA AGGCUCCA	5702
305	CAAGUGCUU CUACCGGG	1547	CCCGGUAG CUGAUGAGGNNNNNNNNCCGAA AGCACUUG	5703
306	AAGUGCUUC UACCGGGA	1548	UCCCGGUA CUGAUGAGGNNNNNNNNCCGAA AAGCACUU	5704
308	GUGCUUCUA CCGGGAAA	1549	UUUCCCGG CUGAUGAGGNNNNNNNNCCGAA AGAAGCAC	5705
323	AACUGACUU GGGCUCGG	1550	CCGAGGCC CUGAUGAGGNNNNNNNNCCGAA AGUCAGUU	5706
329	CUUGGCCUC GGUCAUUU	1551	AAAUGACC CUGAUGAGGNNNNNNNNCCGAA AGGCCAAG	5707
333	GCCUCGGUC AUUUAUGU	1552	ACAUAAAU CUGAUGAGGNNNNNNNNCCGAA ACCGAGGC	5708
336	UCGGUCAUU UAUGUCUA	1553	UAGACAUA CUGAUGAGGNNNNNNNNCCGAA AUGACCGA	5709
337	CGGUCAUUU AUGUCUAU	1554	AUAGACAU CUGAUGAGGNNNNNNNNCCGAA AAUGACCG	5710
338	GGUCAUUUA UGUCUAUG	1555	CAUAGACA CUGAUGAGGNNNNNNNNCCGAA AAAUGACC	5711
342	AUUUAUGUC UAUGUUCA	1556	UGAACAUA CUGAUGAGGNNNNNNNNCCGAA ACAUAAAU	5712
344	UUAUGUCUA UGUUCAAG	1557	CUUGAACA CUGAUGAGGNNNNNNNNCCGAA AGACAUAA	5713
348	GUCUAUGUU CAAGAUUA	1558	UAAUCUUG CUGAUGAGGNNNNNNNNCCGAA AGAUAGAC	5714
349	UCUAUGUUC AAGAUUAC	1559	GUAAUCUU CUGAUGAGGNNNNNNNNCCGAA AACAUAGA	5715
355	UUCAAGAUU ACAGAUCU	1560	AGAUCUGU CUGAUGAGGNNNNNNNNCCGAA AUCUUGAA	5716
356	UCAAGAUUA CAGAUCUC	1561	GAGAUCUG CUGAUGAGGNNNNNNNNCCGAA AAUCUUGA	5717
362	UUACAGAUC UCCAUUUA	1562	UAAAUGGA CUGAUGAGGNNNNNNNNCCGAA AUCUGUAA	5718
364	ACAGAUCUC CAUUUAUU	1563	AAUAAAUG CUGAUGAGGNNNNNNNNCCGAA AGAUCUGU	5719
368	AUCUCCAUU UAUUGCUU	1564	AAGCAAUA CUGAUGAGGNNNNNNNNCCGAA AUGGAGAU	5720
369	UCUCCAUUU AUUGCUUC	1565	GAAGCAAU CUGAUGAGGNNNNNNNNCCGAA AAUGGAGA	5721
370	CUCCAUUUA UUGCUUCU	1566	AGAAGCAA CUGAUGAGGNNNNNNNNCCGAA AAAUGGAG	5722
372	CCAUUUAUU GCUUCUGU	1567	ACAGAAGC CUGAUGAGGNNNNNNNNCCGAA AUAAAUGG	5723
376	UUAUUGCUU CUGUUAGU	1568	ACUAACAG CUGAUGAGGNNNNNNNNCCGAA AGCAAUAA	5724
377	UAUUGCUUC UGUUAGUG	1569	CACUAACA CUGAUGAGGNNNNNNNNCCGAA AAGCAAUA	5725
381	GCUUCUGUU AGUGACCA	1570	UGGUCACU CUGAUGAGGNNNNNNNNCCGAA ACAGAAGC	5726
382	CUUCUGUUA GUGACCAA	1571	UUGGUCAC CUGAUGAGGNNNNNNNNCCGAA AACAGAAG	5727
399	CAUGGAGUC GUGUACAU	1572	AUGUACAC CUGAUGAGGNNNNNNNNCCGAA ACUCCAUG	5728
404	AGUCGUGUA CAUUACUG	1573	CAGUAAUG CUGAUGAGGNNNNNNNNCCGAA ACACGACU	5729
408	GUGUACAUU ACUGAGAA	1574	UUCUCAGU CUGAUGAGGNNNNNNNNCCGAA AUGUACAC	5730
409	UGUACAUUA CUGAGAAC	1575	GUUCUCAG CUGAUGAGGNNNNNNNNCCGAA AAUGUACA	5731
438	GUGGUGAUU CCAUGUCU	1576	AGACAUGG CUGAUGAGGNNNNNNNNCCGAA AUCACCAC	5732
439	UGGUGAUUC CAUGUCUC	1577	GAGACAUG CUGAUGAGGNNNNNNNNCCGAA AAUCACCA	5733
445	UUCCAUGUC UCGGGUCC	1578	GGACCCGA CUGAUGAGGNNNNNNNNCCGAA ACAUGGAA	5734
447	CCAUGUCUC GGGUCCAU	1579	AUGGACCC CUGAUGAGGNNNNNNNNCCGAA AGACAUGG	5735
452	UCUCGGGUC CAUUUCAA	1580	UUGAAAUG CUGAUGAGGNNNNNNNNCCGAA ACCCGAGA	5736
456	GGGUCCAUU UCAAAUCU	1581	AGAUUUGA CUGAUGAGGNNNNNNNNCCGAA AUGGACCC	5737
457	GGUCCAUUU CAAAUCUC	1582	GAGAUUUG CUGAUGAGGNNNNNNNNCCGAA AAUGGACC	5738
458	GUCCAUUUC AAAUCUCA	1583	UGAGAUUU CUGAUGAGGNNNNNNNNCCGAA AAAUGGAC	5739
463	UUUCAAAUC UCAACGUG	1584	CACGUUGA CUGAUGAGGNNNNNNNNCCGAA AUUUGAAA	5740
465	UCAAAUCUC AACGUGUC	1585	GACACGUU CUGAUGAGGNNNNNNNNCCGAA AGAUUUGA	5741
473	CAACGUGUC ACUUUGUG	1586	CACAAAGU CUGAUGAGGNNNNNNNNCCGAA ACACGUUG	5742
477	GUGUCACUU UGUGCAAG	1587	CUUGCACA CUGAUGAGGNNNNNNNNCCGAA AGUGACAC	5743
478	UGUCACUUU GUGCAAGA	1588	UCUUGCAC CUGAUGAGGNNNNNNNNCCGAA AAGUGACA	5744
488	UGCAAGAUA CCCAGAAA	1589	UUUCUGGG CUGAUGAGGNNNNNNNNCCGAA AUCUUGCA	5745
503	AAAGAGAUU UGUUCCUG	1590	CAGGAACA CUGAUGAGGNNNNNNNNCCGAA AUCUCUUU	5746
504	AAGAGAUUU GUUCCUGA	1591	UCAGGAAC CUGAUGAGGNNNNNNNNCCGAA AAUCUCUU	5747
507	AGAUUUGUU CCUGAUGG	1592	CCAUCAGG CUGAUGAGGNNNNNNNNCCGAA ACAAAUCU	5748
508	GAUUUGUUC CUGAUGGU	1593	ACCAUCAG CUGAUGAGGNNNNNNNNCCGAA AACAAAUC	5749
517	CUGAUGGUA ACAGAAUU	1594	AAUUCUGU CUGAUGAGGNNNNNNNNCCGAA ACCAUCAG	5750
525	AACAGAAUU UCCUGGGA	1595	UCCCAGGA CUGAUGAGGNNNNNNNNCCGAA AUUCUGUU	5751
526	ACAGAAUUU CCUGGGAC	1596	GUCCCAGG CUGAUGAGGNNNNNNNNCCGAA AAUUCUGU	5752
527	CAGAAUUUC CUGGGACA	1597	UGUCCCAG CUGAUGAGGNNNNNNNNCCGAA AAAUUCUG	5753
548	GAAGGGCUU UACUAUUC	1598	GAAUAGUA CUGAUGAGGNNNNNNNNCCGAA AGCCCUUC	5754
549	AAGGGCUUU ACUAUUCC	1599	GGAAUAGU CUGAUGAGGNNNNNNNNCCGAA AAGCCCUU	5755
550	AGGGCUUUA CUAUUCCC	1600	GGGAAUAG CUGAUGAGGNNNNNNNNCCGAA AAAGCCCU	5756
553	GCUUUACUA UUCCCAGC	1601	GCUGGGAA CUGAUGAGGNNNNNNNNCCGAA AGUAAAGC	5757
555	UUUACUAUU CCCAGCUA	1602	UAGCUGGG CUGAUGAGGNNNNNNNNCCGAA AUAGUAAA	5758
556	UUACUAUUC CCAGCUAC	1603	GUAGCUGG CUGAUGAGGNNNNNNNNCCGAA AAUAGUAA	5759
563	UCCCAGCUA CAUGAUCA	1604	UGAUCAUG CUGAUGAGGNNNNNNNNCCGAA AGCUGGGA	5760
570	UACAUGAUC AGCUAUGC	1605	GCAUAGCU CUGAUGAGGNNNNNNNNCCGAA AUCAUGUA	5761
575	GAUCAGCUA UGCUGGCA	1606	UGCCAGCA CUGAUGAGGNNNNNNNNCCGAA AGCUGAUC	5762
588	GGCAUGGUC UUCUGUGA	1607	UCACAGAA CUGAUGAGGNNNNNNNNCCGAA ACCAUGCC	5763
590	CAUGGUCUU CUGUGAAG	1608	CUUCACAG CUGAUGAGGNNNNNNNNCCGAA AGACCAUG	5764
591	AUGGUCUUC UGUGAAGC	1609	GCUUCACA CUGAUGAGGNNNNNNNNCCGAA AAGACCAU	5765
606	GCAAAAAUU AAUGAUGA	1610	UCAUCAUU CUGAUGAGGNNNNNNNNCCGAA AUUUUUGC	5766
607	CAAAAAUUA AUGAUGAA	1611	UUCAUCAU CUGAUGAGGNNNNNNNNCCGAA AAUUUUUG	5767
619	AUGAAAGUU ACCAGUCU	1612	AGACUGGU CUGAUGAGGNNNNNNNNCCGAA ACUUUCAU	5768
620	UGAAAGUUA CCAGUCUA	1613	UAGACUGG CUGAUGAGGNNNNNNNNCCGAA AACUUUCA	5769
626	UUACCAGUC UAUUAUGU	1614	ACAUAAUA CUGAUGAGGNNNNNNNNCCGAA ACUGGUAA	5770
628	ACCAGUCUA UUAUGUAC	1615	GUACAUAA CUGAUGAGGNNNNNNNNCCGAA AGACUGGU	5771
630	CAGUCUAUU AUGUACAU	1616	AUGUACAU CUGAUGAGGNNNNNNNNCCGAA AUAGACUG	5772
631	AGUCUAUUA UGUACAUA	1617	UAUGUACA CUGAUGAGGNNNNNNNNCCGAA AAUAGACU	5773
635	UAUUAUGUA CAUAGUUG	1618	CAACUAUG CUGAUGAGGNNNNNNNNCCGAA ACAUAAUA	5774
639	AUGUACAUA GUUGUCGU	1619	ACGACAAC CUGAUGAGGNNNNNNNNCCGAA AUGUACAU	5775
642	UACAUAGUU GUCGUUGU	1620	ACAACGAC CUGAUGAGGNNNNNNNNCCGAA ACUAUGUA	5776
645	AUAGUUGUC GUUGUAGG	1621	CCUACAAC CUGAUGAGGNNNNNNNNCCGAA ACAACUAU	5777
648	GUUGUCGUU GUAGGGUA	1622	UACCCUAC CUGAUGAGGNNNNNNNNCCGAA ACGACAAC	5778
651	GUCGUUGUA GGGUAUAG	1623	CUAUACCC CUGAUGAGGNNNNNNNNCCGAA ACAACGAC	5779
656	UGUAGGGUA UAGGAUUU	1624	AAAUCCUA CUGAUGAGGNNNNNNNNCCGAA ACCCUACA	5780
658	UAGGGUAUA GGAUUUAU	1625	AUAAAUCC CUGAUGAGGNNNNNNNNCCGAA AUACCCUA	5781
663	UAUAGGAUU UAUGAUGU	1626	ACAUCAUA CUGAUGAGGNNNNNNNNCCGAA AUCCUAUA	5782
664	AUAGGAUUU AUGAUGUG	1627	CACAUCAU CUGAUGAGGNNNNNNNNCCGAA AAUCCUAU	5783
665	UAGGAUUUA UGAUGUGG	1628	CCACAUCA CUGAUGAGGNNNNNNNNCCGAA AAAUCCUA	5784
675	GAUGUGGUU CUGAGUCC	1629	GGACUCAG CUGAUGAGGNNNNNNNNCCGAA ACCACAUC	5785
676	AUGUGGUUC UGAGUCCG	1630	CGGACUCA CUGAUGAGGNNNNNNNNCCGAA AACCACAU	5786
682	UUCUGAGUC CGUCUCAU	1631	AUGAGACG CUGAUGAGGNNNNNNNNCCGAA ACUCAGAA	5787
686	GAGUCCGUC UCAUGGAA	1632	UUCCAUGA CUGAUGAGGNNNNNNNNCCGAA ACGGACUC	5788
688	GUCCGUCUC AUGGAAUU	1633	AAUUCCAU CUGAUGAGGNNNNNNNNCCGAA AGACGGAC	5789
696	CAUGGAAUU GAACUAUC	1634	GAUAGUUC CUGAUGAGGNNNNNNNNCCGAA AUUCCAUG	5790
702	AUUGAACUA UCUGUUGG	1635	CCAACAGA CUGAUGAGGNNNNNNNNCCGAA AGUUCAAU	5791
704	UGAACUAUC UGUUGGAG	1636	CUCCAACA CUGAUGAGGNNNNNNNNCCGAA AUAGUUCA	5792
708	CUAUCUGUU GGAGAAAA	1637	UUUUCUCC CUGAUGAGGNNNNNNNNCCGAA ACAGAUAG	5793
720	GAAAAGCUU GUCUUAAA	1638	UUUAAGAC CUGAUGAGGNNNNNNNNCCGAA AGCUUUUC	5794
723	AAGCUUGUC UUAAAUUG	1639	CAAUUUAA CUGAUGAGGNNNNNNNNCCGAA ACAAGCUU	5795
725	GCUUGUCUU AAAUUGUA	1640	UACAAUUU CUGAUGAGGNNNNNNNNCCGAA AGACAAGC	5796
726	CUUGUCUUA AAUUGUAC	1641	GUACAAUU CUGAUGAGGNNNNNNNNCCGAA AAGACAAG	5797
730	UCUUAAAUU GUACAGCA	1642	UGGUGUAC CUGAUGAGGNNNNNNNNCCGAA AUUUAAGA	5798
733	UAAAUUGUA CAGCAAGA	1643	UCUUGCUG CUGAUGAGGNNNNNNNNCCGAA ACAAUUUA	5799
750	ACUGAACUA AAUGUGGG	1644	CCCACAUU CUGAUGAGGNNNNNNNNCCGAA AGUUCAGU	5800
762	GUGGGGAUU GACUUCAA	1645	UUGAAGUC CUGAUGAGGNNNNNNNNCCGAA AUCCCCAC	5801
767	GAUUGACUU CAACUGGG	1646	CCCAGUUG CUGAUGAGGNNNNNNNNCCGAA AGUCAAUC	5802
768	AUUGACUUC AACUGGGA	1647	UCCCAGUU CUGAUGAGGNNNNNNNNCCGAA AAGUCAAU	5803
779	CUGGGAAUA CCCUUCUU	1648	AAGAAGGG CUGAUGAGGNNNNNNNNCCGAA AUUCCCAG	5804
784	AAUACCCUU CUUCGAAG	1649	CUUCGAAG CUGAUGAGGNNNNNNNNCCGAA AGGGUAUU	5805
785	AUACCCUUC UUCGAAGC	1650	GCUUCGAA CUGAUGAGGNNNNNNNNCCGAA AAGGGUAU	5806
787	ACCCUUCUU CGAAGCAU	1651	AUGCUUCG CUGAUGAGGNNNNNNNNCCGAA AGAAGGGU	5807
788	CCCUUCUUC GAAGCAUC	1652	GAUGCUUC CUGAUGAGGNNNNNNNNCCGAA AAGAAGGG	5808
796	CGAAGCAUC AGCAUAAG	1653	CUUAUGCU CUGAUGAGGNNNNNNNNCCGAA AUGCUUCG	5809
802	AUCAGCAUA AGAAACUU	1654	AAGUUUCU CUGAUGAGGNNNNNNNNCCGAA AUGCUGAU	5810
810	AAGAAACUU GUAAACCG	1655	CGGUUUAC CUGAUGAGGNNNNNNNNCCGAA AGUUUCUU	5811
813	AAACUUGUA AACCGAGA	1656	UCUCGGUU CUGAUGAGGNNNNNNNNCCGAA ACAAGUUU	5812
825	CGAGACCUA AAAACCCA	1657	UGGGUUUU CUGAUGAGGNNNNNNNNCCGAA AGGUCUCG	5813
836	AACCCAGUC UGGGAGUG	1658	CACUCCCA CUGAUGAGGNNNNNNNNCCGAA ACUGGGUU	5814
857	GAAGAAAUU UUUGAGCA	1659	UGCUCAAA CUGAUGAGGNNNNNNNNCCGAA AUUUCUUC	5815
858	AAGAAAUUU UUGAGCAC	1660	GUGCUCAA CUGAUGAGGNNNNNNNNCCGAA AAUUUCUU	5816
859	AGAAAUUUU UGAGCACC	1661	GGUGCUCA CUGAUGAGGNNNNNNNNCCGAA AAAUUUCU	5817
860	GAAAUUUUU GAGCACCU	1662	AGGUGCUC CUGAUGAGGNNNNNNNNCCGAA AAAAUUUC	5818
869	GAGCACCUU AACUAUAG	1663	CUAUAGUU CUGAUGAGGNNNNNNNNCCGAA AGGUGCUC	5819
870	AGCACCUUA ACUAUAGA	1664	UCUAUAGU CUGAUGAGGNNNNNNNNCCGAA AAGGUGCU	5820
874	CCUUAACUA UAGAUGGU	1665	ACCAUCUA CUGAUGAGGNNNNNNNNCCGAA AGUUAAGG	5821
876	UUAACUAUA GAUGGUGU	1666	ACACCAUC CUGAUGAGGNNNNNNNNCCGAA AUAGUUAA	5822
885	GAUGGUGUA ACCCGGAG	1667	CUCCGGGU CUGAUGAGGNNNNNNNNCCGAA ACACCAUC	5823
905	CCAAGGAUU GUACACCU	1668	AGGUGUAC CUGAUGAGGNNNNNNNNCCGAA AUCCUUGG	5824
908	AGGAUUGUA CACCUGUG	1669	CACAGGUG CUGAUGAGGNNNNNNNNCCGAA ACAAUCCU	5825
923	UGCAGCAUC CAGUGGGC	1670	GCCCACUG CUGAUGAGGNNNNNNNNCCGAA AUGCUGCA	5826
956	CAGCACAUU UGUCAGGG	1671	CCCUGACA CUGAUGAGGNNNNNNNNCCGAA AUGUGCUG	5827
957	AGCACAUUU GUCAGGGU	1672	ACCCUGAC CUGAUGAGGNNNNNNNNCCGAA AAUGUGCU	5828
960	ACAUUUGUC AGGGUCCA	1673	UGGACCCU CUGAUGAGGNNNNNNNNCCGAA ACAAAUGU	5829
966	GUCAGGGUC CAUGAAAA	1674	UUUUCAUG CUGAUGAGGNNNNNNNNCCGAA ACCCUGAC	5830
979	AAAAACCUU UUGUUGCU	1675	AGCAACAA CUGAUGAGGNNNNNNNNCCGAA AGGUUUUU	5831
980	AAAACCUUU UGUUGCUU	1676	AAGCAACA CUGAUGAGGNNNNNNNNCCGAA AAGGUUUU	5832
981	AAACCUUUU GUUGCUUU	1677	AAAGCAAC CUGAUGAGGNNNNNNNNCCGAA AAAGGUUU	5833
984	CCUUUUGUU GCUUUUGG	1678	CCAAAAGC CUGAUGAGGNNNNNNNNCCGAA ACAAAAGG	5834
988	UUGUUGCUU UUGGAAGU	1679	ACUUCCAA CUGAUGAGGNNNNNNNNCCGAA AGCAACAA	5835
989	UGUUGCUUU UGGAAGUG	1680	CACUUCCA CUGAUGAGGNNNNNNNNCCGAA AAGCAACA	5836
990	GUUGCUUUU GGAAGUGG	1681	CCACUUCC CUGAUGAGGNNNNNNNNCCGAA AAAGCAAC	5837
1007	CAUGGAAUC UCUGGUGG	1682	CCACCAGA CUGAUGAGGNNNNNNNNCCGAA AUUCCAUG	5838
1009	UGGAAUCUC UGGUGGAA	1683	UUCCACCA CUGAUGAGGNNNNNNNNCCGAA AGAUUCCA	5839
1038	GAGCGUGUC AGAAUCCC	1684	GGGAUUCU CUGAUGAGGNNNNNNNNCCGAA ACACGCUC	5840
1044	GUCAGAAUC CCUGCGAA	1685	UUCGCAGG CUGAUGAGGNNNNNNNNCCGAA AUUCUGAC	5841
1055	UGCGAAGUA CCUUGGUU	1686	AACCAAGG CUGAUGAGGNNNNNNNNCCGAA ACUUCGCA	5842
1059	AAGUACCUU GGUUACCC	1687	GGGUAACC CUGAUGAGGNNNNNNNNCCGAA AGGUACUU	5843
1063	ACCUUGGUU ACCCACCC	1688	GGGUGGGU CUGAUGAGGNNNNNNNNCCGAA ACCAAGGU	5844
1064	CCUUGGUUA CCCACCCC	1689	GGGGUGGG CUGAUGAGGNNNNNNNNCCGAA AACCAAGG	5845
1080	CCAGAAAUA AAAUGGUA	1690	UACCAUUU CUGAUGAGGNNNNNNNNCCGAA AUUUCUGG	5846
1088	AAAAUGGUA UAAAAAUG	1691	CAUUUUUA CUGAUGAGGNNNNNNNNCCGAA ACCAUUUU	5847
1090	AAUGGUAUA AAAAUGGA	1692	UCCAUUUU CUGAUGAGGNNNNNNNNCCGAA AUACCAUU	5848
1101	AAUGGAAUA CCCCUUGA	1693	UCAAGGGG CUGAUGAGGNNNNNNNNCCGAA AUUCCAUU	5849
1107	AUACCCCUU GAGUCCAA	1694	UUGGACUC CUGAUGAGGNNNNNNNNCCGAA AGGGGUAU	5850
1112	CCUUGAGUC CAAUCACA	1695	UGUGAUUG CUGAUGAGGNNNNNNNNCCGAA ACUCAAGG	5851
1117	AGUCCAAUC ACACAAUU	1696	AAUUGUGU CUGAUGAGGNNNNNNNNCCGAA AUUGGACU	5852
1125	CACACAAUU AAAGCGGG	1697	CCCGCUUU CUGAUGAGGNNNNNNNNCCGAA AUUGUGUG	5853
1126	ACACAAUUA AAGCGGGG	1698	CCCCGCUU CUGAUGAGGNNNNNNNNCCGAA AAUUGUGU	5854
1140	GGGCAUGUA CUGACGAU	1699	AUCGUCAG CUGAUGAGGNNNNNNNNCCGAA ACAUGCCC	5855
1149	CUGACGAUU AUGGAAGU	1700	ACUUCCAU CUGAUGAGGNNNNNNNNCCGAA AUCGUCAG	5856
1150	UGACGAUUA UGGAAGUG	1701	CACUUCCA CUGAUGAGGNNNNNNNNCCGAA AAUCGUCA	5857
1180	CAGGAAAUU ACACUGUC	1702	GACAGUGU CUGAUGAGGNNNNNNNNCCGAA AUUUCCUG	5858
1181	AGGAAAUUA CACUGUCA	1703	UGACAGUG CUGAUGAGGNNNNNNNNCCGAA AAUUUCCU	5859
1188	UACACUGUC AUCCUUAC	1704	GUAAGGAU CUGAUGAGGNNNNNNNNCCGAA ACAGUGUA	5860
1191	ACUGUCAUC CUUACCAA	1705	UUGGUAAG CUGAUGAGGNNNNNNNNCCGAA AUGACAGU	5861
1194	GUCAUCCUU ACCAAUCC	1706	GGAUUGGU CUGAUGAGGNNNNNNNNCCGAA AGGAUGAC	5862
1195	UCAUCCUUA CCAAUCCC	1707	GGGAUUGG CUGAUGAGGNNNNNNNNCCGAA AAGGAUGA	5863
1201	UUACCAAUC CCAUUUCA	1708	UGAAAUGG CUGAUGAGGNNNNNNNNCCGAA AUUGGUAA	5864
1206	AAUCCCAUU UCAAAGGA	1709	UCCUUUGA CUGAUGAGGNNNNNNNNCCGAA AUGGGAUU	5865
1207	AUCCCAUUU CAAAGGAG	1710	CUCCUUUG CUGAUGAGGNNNNNNNNCCGAA AAUGGGAU	5866
1208	UCCCAUUUC AAAGGAGA	1711	UCUCCUUU CUGAUGAGGNNNNNNNNCCGAA AAAUGGGA	5867
1233	CAUGUGGUC UCUCUGGU	1712	ACCAGAGA CUGAUGAGGNNNNNNNNCCGAA ACCACAUG	5868
1235	UGUGGUCUC UCUGGUUG	1713	CAACCAGA CUGAUGAGGNNNNNNNNCCGAA AGACCACA	5869
1237	UGGUCUCUC UGGUUGUG	1714	CACAACCA CUGAUGAGGNNNNNNNNCCGAA AGAGACCA	5870
1242	UCUCUGGUU GUGUAUGU	1715	ACAUACAC CUGAUGAGGNNNNNNNNCCGAA ACCAGAGA	5871
1247	GGUUGUGUA UGUCCCAC	1716	GUGGGACA CUGAUGAGGNNNNNNNNCCGAA ACACAACC	5872
1251	GUGUAUGUC CCACCCCA	1717	UGGGGUGG CUGAUGAGGNNNNNNNNCCGAA ACAUACAC	5873
1263	CCCCAGAUU GGUGAGAA	1718	UUCUCACC CUGAUGAGGNNNNNNNNCCGAA AUCUGGGG	5874
1274	UGAGAAAUC UCUAAUCU	1719	AGAUUAGA CUGAUGAGGNNNNNNNNCCGAA AUUUCUCA	5875
1276	AGAAAUCUC UAAUCUCU	1720	AGAGAUUA CUGAUGAGGNNNNNNNNCCGAA AGAUUUCU	5876
1278	AAAUCUCUA AUCUCUCC	1721	GGAGAGAU CUGAUGAGGNNNNNNNNCCGAA AGAGAUUU	5877
1281	UCUCUAAUC UCUCCUGU	1722	ACAGGAGA CUGAUGAGGNNNNNNNNCCGAA AUUAGAGA	5878
1283	UCUAAUCUC UCCUGUGG	1723	CCACAGGA CUGAUGAGGNNNNNNNNCCGAA AGAUUAGA	5879
1285	UAAUCUCUC CUGUGGAU	1724	AUCCACAG CUGAUGAGGNNNNNNNNCCGAA AGAGAUUA	5880
1294	CUGUGGAUU CCUACCAG	1725	CUGGUAGG CUGAUGAGGNNNNNNNNCCGAA AUCCACAG	5881
1295	UGUGGAUUC CUACCAGU	1726	ACUGGUAG CUGAUGAGGNNNNNNNNCCGAA AAUCCACA	5882
1298	GGAUUCCUA CCAGUACG	1727	CGUACUGG CUGAUGAGGNNNNNNNNCCGAA AGGAAUCC	5883
1304	CUACCAGUA CGGCACCA	1728	UGGUGCCG CUGAUGAGGNNNNNNNNCCGAA ACUGGUAG	5884
1315	GCACCACUC AAACGCUG	1729	CAGCGUUU CUGAUGAGGNNNNNNNNCCGAA AGUGGUGC	5885
1330	UGACAUGUA CGGUCUAU	1730	AUAGACCG CUGAUGAGGNNNNNNNNCCGAA ACAUGUCA	5886
1335	UGUACGGUC UAUGCCAU	1731	AUGGCAUA CUGAUGAGGNNNNNNNNCCGAA ACCGUACA	5887
1337	UACGGUCUA UGCCAUUC	1732	GAAUGGCA CUGAUGAGGNNNNNNNNCCGAA AGACCGUA	5888
1344	UAUGCCAUU CCUCCCCC	1733	GGGGGAGG CUGAUGAGGNNNNNNNNCCGAA AUGGCAUA	5889
1345	AUGCCAUUC CUCCCCCG	1734	CGGGGGAG CUGAUGAGGNNNNNNNNCCGAA AAUGGCAU	5890
1348	CCAUUCCUC CCCCGCAU	1735	AUGCGGGG CUGAUGAGGNNNNNNNNCCGAA AGGAAUGG	5891
1357	CCCCGCAUC ACAUCCAC	1736	GUGGAUGU CUGAUGAGGNNNNNNNNCCGAA AUGCGGGG	5892
1362	CAUCACAUC CACUGGUA	1737	UACCAGUG CUGAUGAGGNNNNNNNNCCGAA AUGUGAUG	5893
1370	CCACUGGUA UUGGCAGU	1738	ACUGCCAA CUGAUGAGGNNNNNNNNCCGAA ACCAGUGG	5894
1372	ACUGGUAUU GGCAGUUG	1739	CAACUGCC CUGAUGAGGNNNNNNNNCCGAA AUACCAGU	5895
1379	UUGGCAGUU GGAGGAAG	1740	CUUCCUCC CUGAUGAGGNNNNNNNNCCGAA ACUGCCAA	5896
1416	CAAGCUGUC UCAGUGAC	1741	GUCACUGA CUGAUGAGGNNNNNNNNCCGAA ACAGCUUG	5897
1418	AGCUGUCUC AGUGACAA	1742	UUGUCACU CUGAUGAGGNNNNNNNNCCGAA AGACAGCU	5898
1433	AAACCCAUA CCCUUGUG	1743	CACAAGGG CUGAUGAGGNNNNNNNNCCGAA AUGGGUUU	5899
1438	CAUACCCUU GUGAAGAA	1744	UUCUUCAC CUGAUGAGGNNNNNNNNCCGAA AGGGUAUG	5900
1466	GGAGGACUU CCAGGGAG	1745	CUCCCUGG CUGAUGAGGNNNNNNNNCCGAA AGUCCUCC	5901
1467	GAGGACUUC CAGGGAGG	1746	CCUCCCUG CUGAUGAGGNNNNNNNNCCGAA AAGUCCUC	5902
1480	GAGGAAAUA AAAUUGAA	1747	UUCAAUUU CUGAUGAGGNNNNNNNNCCGAA AUUUCCUC	5903
1485	AAUAAAAUU GAAGUUAA	1748	UUAACUUC CUGAUGAGGNNNNNNNNCCGAA AUUUUAUU	5904
1491	AUUGAAGUU AAUAAAAA	1749	UUUUUAUU CUGAUGAGGNNNNNNNNCCGAA ACUUCAAU	5905
1492	UUGAAGUUA AUAAAAAU	1750	AUUUUUAU CUGAUGAGGNNNNNNNNCCGAA AACUUCAA	5906
1495	AAGUUAAUA AAAAUCAA	1751	UUGAUUUU CUGAUGAGGNNNNNNNNCCGAA AUUAACUU	5907
1501	AUAAAAAUC AAUUUGCU	1752	AGCAAAUU CUGAUGAGGNNNNNNNNCCGAA AUUUUUAU	5908
1505	AAAUCAAUU UGCUCUAA	1753	UUAGAGCA CUGAUGAGGNNNNNNNNCCGAA AUUGAUUU	5909
1506	AAUCAAUUU GCUCUAAU	1754	AUUAGAGC CUGAUGAGGNNNNNNNNCCGAA AAUUGAUU	5910
1510	AAUUUGCUC UAAUUGAA	1755	UUCAAUUA CUGAUGAGGNNNNNNNNCCGAA AGCAAAUU	5911
1512	UUUGCUCUA AUUGAAGG	1756	CCUUCAAU CUGAUGAGGNNNNNNNNCCGAA AGAGCAAA	5912
1515	GCUCUAAUU GAAGGAAA	1757	UUUCCUUC CUGAUGAGGNNNNNNNNCCGAA AUUAGAGC	5913
1536	AAAACUGUA AGUACCCU	1758	AGGGUACU CUGAUGAGGNNNNNNNNCCGAA ACAGUUUU	5914
1540	CUGUAAGUA CCCUUGUU	1759	AACAAGGG CUGAUGAGGNNNNNNNNCCGAA ACUUACAG	5915
1545	AGUACCCUU GUUAUCCA	1760	UGGAUAAC CUGAUGAGGNNNNNNNNCCGAA AGGGUACU	5916
1548	ACCCUUGUU AUCCAAGC	1761	GCUUGGAU CUGAUGAGGNNNNNNNNCCGAA ACAAGGGU	5917
1549	CCCUUGUUA UCCAAGCG	1762	CGCUUGGA CUGAUGAGGNNNNNNNNCCGAA AACAAGGG	5918
1551	CUUGUUAUC CAAGCGGC	1763	GCCGCUUG CUGAUGAGGNNNNNNNNCCGAA AUAACAAG	5919
1568	AAAUGUGUC AGCUUUGU	1764	ACAAAGCU CUGAUGAGGNNNNNNNNCCGAA ACACAUUU	5920
1573	UGUCAGCUU UGUACAAA	1765	UUUGUACA CUGAUGAGGNNNNNNNNCCGAA AGCUGACA	5921
1574	GUCAGCUUU GUACAAAU	1766	AUUUGUAC CUGAUGAGGNNNNNNNNCCGAA AAGCUGAC	5922
1577	AGCUUUGUA CAAAUGUG	1767	CACAUUUG CUGAUGAGGNNNNNNNNCCGAA ACAAAGCU	5923
1593	GAAGCGGUC AACAAAGU	1768	ACUUUGUU CUGAUGAGGNNNNNNNNCCGAA ACCGCUUC	5924
1602	AACAAAGUC GGGAGAGG	1769	CCUCUCCC CUGAUGAGGNNNNNNNNCCGAA ACUUUGUU	5925
1623	AGGGUGAUC UCCUUCCA	1770	UGGAAGGA CUGAUGAGGNNNNNNNNCCGAA AUCACCCU	5926
1625	GGUGAUCUC CUUCCACG	1771	CGUGGAAG CUGAUGAGGNNNNNNNNCCGAA AGAUCACC	5927
1628	GAUCUCCUU CCACGUGA	1772	UCACGUGG CUGAUGAGGNNNNNNNNCCGAA AGGAGAUC	5928
1629	AUCUCCUUC CACGUGAC	1773	GUCACGUG CUGAUGAGGNNNNNNNNCCGAA AAGGAGAU	5929
1645	CCAGGGGUC CUGAAAUU	1774	AAUUUCAG CUGAUGAGGNNNNNNNNCCGAA ACCCCUGG	5930
1653	CCUGAAAUU ACUUUGCA	1775	UGCAAAGU CUGAUGAGGNNNNNNNNCCGAA AUUUCAGG	5931
1654	CUGAAAUUA CUUUGCAA	1776	UUGCAAAG CUGAUGAGGNNNNNNNNCCGAA AAUUUCAG	5932
1657	AAAUUACUU UGCAACCU	1777	AGGUUGCA CUGAUGAGGNNNNNNNNCCGAA AGUAAUUU	5933
1658	AAUUACUUU GCAACCUG	1778	CAGGUUGC CUGAUGAGGNNNNNNNNCCGAA AAGUAAUU	5934
1697	GAGCGUGUC UUUGUGGU	1779	ACCACAAA CUGAUGAGGNNNNNNNNCCGAA ACACGCUC	5935
1699	GCGUGUCUU UGUGGUGC	1780	GCACCACA CUGAUGAGGNNNNNNNNCCGAA AGACACGC	5936
1700	CGUGUCUUU GUGGUGCA	1781	UGCACCAC CUGAUGAGGNNNNNNNNCCGAA AAGACACG	5937
1721	AGACAGAUC UACGUUUG	1782	CAAACGUA CUGAUGAGGNNNNNNNNCCGAA AUCUGUCU	5938
1723	ACAGAUCUA CGUUUGAG	1783	CUCAAACG CUGAUGAGGNNNNNNNNCCGAA AGAUCUGU	5939
1727	AUCUACGUU UGAGAACC	1784	GGUUCUCA CUGAUGAGGNNNNNNNNCCGAA ACGUAGAU	5940
1728	UCUACGUUU GAGAACCU	1785	AGGUUCUC CUGAUGAGGNNNNNNNNCCGAA AACGUAGA	5941
1737	GAGAACCUC ACAUGGUA	1786	UACCAUGU CUGAUGAGGNNNNNNNNCCGAA AGGUUCUC	5942
1745	CACAUGGUA CAAGCUUG	1787	CAAGCUUG CUGAUGAGGNNNNNNNNCCGAA ACCAUGUG	5943
1752	UACAAGCUU GGCCCACA	1788	UGUGGGCC CUGAUGAGGNNNNNNNNCCGAA AGCUUGUA	5944
1765	CACAGCCUC UGCCAAUC	1789	GAUUGGCA CUGAUGAGGNNNNNNNNCCGAA AGGCUGUG	5945
1773	CUGCCAAUC CAUGUGGG	1790	CCCACAUG CUGAUGAGGNNNNNNNNCCGAA AUUGGCAG	5946
1787	GGGAGAGUU GCCCACAC	1791	GUGUGGGC CUGAUGAGGNNNNNNNNCCGAA ACUCUCCC	5947
1800	ACACCUGUU UGCAAGAA	1792	UUCUUGCA CUGAUGAGGNNNNNNNNCCGAA ACAGGUGU	5948
1801	CACCUGUUU GCAAGAAC	1793	GUUCUUGC CUGAUGAGGNNNNNNNNCCGAA AACAGGUG	5949
1811	CAAGAACUU GGAUACUC	1794	GAGUAUCC CUGAUGAGGNNNNNNNNCCGAA AGUUCUUG	5950
1816	ACUUGGAUA CUCUUUGG	1795	CCAAAGAG CUGAUGAGGNNNNNNNNCCGAA AUCCAAGU	5951
1819	UGGAUACUC UUUGGAAA	1796	UUUCCAAA CUGAUGAGGNNNNNNNNCCGAA AGUAUCCA	5952
1821	GAUACUCUU UGGAAAUU	1797	AAUUUCCA CUGAUGAGGNNNNNNNNCCGAA AGAGUAUC	5953
1822	AUACUCUUU GGAAAUUG	1798	CAAUUUCC CUGAUGAGGNNNNNNNNCCGAA AAGAGUAU	5954
1829	UUGGAAAUU GAAUGCCA	1799	UGGCAUUC CUGAUGAGGNNNNNNNNCCGAA AUUUCCAA	5955
1844	CACCAUGUU CUCUAAUA	1800	UAUUAGAG CUGAUGAGGNNNNNNNNCCGAA ACAUGGUG	5956
1845	ACCAUGUUC UCUAAUAG	1801	CUAUUAGA CUGAUGAGGNNNNNNNNCCGAA AACAUGGU	5957
1847	CAUGUUCUC UAAUAGCA	1802	UGCUAUUA CUGAUGAGGNNNNNNNNCCGAA AGAACAUG	5958
1849	UGUUCUCUA AUAGCACA	1803	UGUGCUAU CUGAUGAGGNNNNNNNNCCGAA AGAGAACA	5959
1852	UCUCUAAUA GCACAAAU	1804	AUUUGUGC CUGAUGAGGNNNNNNNNCCGAA AUUAGAGA	5960
1866	AAUGACAUU UUGAUCAU	1805	AUGAUCAA CUGAUGAGGNNNNNNNNCCGAA AUGUCAUU	5961
1867	AUGACAUUU UGAUCAUG	1806	CAUGAUCA CUGAUGAGGNNNNNNNNCCGAA AAUGUCAU	5962
1868	UGACAUUUU GAUCAUGG	1807	CCAUGAUC CUGAUGAGGNNNNNNNNCCGAA AAAUGUCA	5963
1872	AUUUUGAUC AUGGAGCU	1808	AGCUCCAU CUGAUGAGGNNNNNNNNCCGAA AUCAAAAU	5964
1881	AUGGAGCUU AAGAAUGC	1809	GCAUUCUU CUGAUGAGGNNNNNNNNCCGAA AGCUCCAU	5965
1882	UGGAGCUUA AGAAUGCA	1810	UGCAUUCU CUGAUGAGGNNNNNNNNCCGAA AAGCUCCA	5966
1892	GAAUGCAUC CUUGCAGG	1811	CCUGCAAG CUGAUGAGGNNNNNNNNCCGAA AUGCAUUC	5967
1895	UGCAUCCUU GCAGGACC	1812	GGUCCUGC CUGAUGAGGNNNNNNNNCCGAA AGGAUGCA	5968
1913	AGGAGACUA UGUCUGCC	1813	GGCAGACA CUGAUGAGGNNNNNNNNCCGAA AGUCUCCU	5969
1917	GACUAUGUC UGCCUUGC	1814	GCAAGGCA CUGAUGAGGNNNNNNNNCCGAA ACAUAGUC	5970
1923	GUCUGCCUU GCUCAAGA	1815	UCUUGAGC CUGAUGAGGNNNNNNNNCCGAA AGGCAGAC	5971
1927	GCCUUGCUC AAGACAGG	1816	CCUGUCUU CUGAUGAGGNNNNNNNNCCGAA AGCAAGGC	5972
1954	AAAGACAUU GCGUGGUC	1817	GACCACGC CUGAUGAGGNNNNNNNNCCGAA AUGUCUUU	5973
1962	UGCGUGGUC AGGCAGCU	1818	AGCUGCCU CUGAUGAGGNNNNNNNNCCGAA ACCACGCA	5974
1971	AGGCAGCUC ACAGUCCU	1819	AGGACUGU CUGAUGAGGNNNNNNNNCCGAA AGCUGCCU	5975
1977	CUCACAGUC CUAGAGCG	1820	CGCUCUAG CUGAUGAGGNNNNNNNNCCGAA ACUGUGAG	5976
1980	ACAGUCCUA GAGCGUGU	1821	ACACGCUC CUGAUGAGGNNNNNNNNCCGAA AGGACUGU	5977
2001	CCCACGAUC ACAGGAAA	1822	UUUCCUGU CUGAUGAGGNNNNNNNNCCGAA AUCGUGGG	5978
2020	UGGAGAAUC AGACGACA	1823	UGUCGUCU CUGAUGAGGNNNNNNNNCCGAA AUUCUCCA	5979
2032	CGACAAGUA UUGGGGAA	1824	UUCCCCAA CUGAUGAGGNNNNNNNNCCGAA ACUUGUCG	5980
2034	ACAAGUAUU GGGGAAAG	1825	CUUUCCCC CUGAUGAGGNNNNNNNNCCGAA AUACUUGU	5981
2046	GAAAGCAUC GAAGUCUC	1826	GAGACUUC CUGAUGAGGNNNNNNNNCCGAA AUGCUUUC	5982
2052	AUCGAAGUC UCAUGCAC	1827	GUGCAUGA CUGAUGAGGNNNNNNNNCCGAA ACUUCGAU	5983
2054	CGAAGUCUC AUGCACGG	1828	CCGUGCAU CUGAUGAGGNNNNNNNNCCGAA AGACUUCG	5984
2066	CACGGCAUC UGGGAAUC	1829	GAUUCCCA CUGAUGAGGNNNNNNNNCCGAA AUGCCGUG	5985
2074	CUGGGAAUC CCCCUCCA	1830	UGGAGGGG CUGAUGAGGNNNNNNNNCCGAA AUUCCCAG	5986
2080	AUCCCCCUC CACAGAUC	1831	GAUCUGUG CUGAUGAGGNNNNNNNNCCGAA AGGGGGAU	5987
2088	CCACAGAUC AUGUGGUU	1832	AACCACAU CUGAUGAGGNNNNNNNNCCGAA AUCUGUGG	5988
2096	CAUGUGGUU UAAAGAUA	1833	UAUCUUUA CUGAUGAGGNNNNNNNNCCGAA ACCACAUG	5989
2097	AUGUGGUUU AAAGAUAA	1834	UUAUCUUU CUGAUGAGGNNNNNNNNCCGAA AACCACAU	5990
2098	UGUGGUUUA AAGAUAAU	1835	AUUAUCUU CUGAUGAGGNNNNNNNNCCGAA AAACCACA	5991
2104	UUAAAGAUA AUGAGACC	1836	GGUCUCAU CUGAUGAGGNNNNNNNNCCGAA AUCUUUAA	5992
2115	GAGACCCUU GUAGAAGA	1837	UCUUCUAC CUGAUGAGGNNNNNNNNCCGAA AGGGUCUC	5993
2118	ACCCUUGUA GAAGACUC	1838	GAGUCUUC CUGAUGAGGNNNNNNNNCCGAA ACAAGGGU	5994
2126	AGAAGACUC AGGCAUUG	1839	CAAUGCCU CUGAUGAGGNNNNNNNNCCGAA AGUCUUCU	5995
2133	UCAGGCAUU GUAUUGAA	1840	UUCAAUAC CUGAUGAGGNNNNNNNNCCGAA AUGCCUGA	5996
2136	GGCAUUGUA UUGAAGGA	1841	UCCUUCAA CUGAUGAGGNNNNNNNNCCGAA ACAAUGCC	5997
2138	CAUUGUAUU GAAGGAUG	1842	CAUCCUUC CUGAUGAGGNNNNNNNNCCGAA AUACAAUG	5998
2160	CGGAACCUC ACUAUCCG	1843	CGGAUAGU CUGAUGAGGNNNNNNNNCCGAA AGGUUCCG	5999
2164	ACCUCACUA UCCGCAGA	1844	UCUGCGGA CUGAUGAGGNNNNNNNNCCGAA AGUGAGGU	6000
2166	CUCACUAUC CGCAGAGU	1845	ACUCUGCG CUGAUGAGGNNNNNNNNCCGAA AUAGUGAG	6001
2196	GAAGGCCUC UACACCUG	1846	CAGGUGUA CUGAUGAGGNNNNNNNNCCGAA AGGCCUUC	6002
2198	AGGCCUCUA CACCUGCC	1847	GGCAGGUG CUGAUGAGGNNNNNNNNCCGAA AGAGGCCU	6003
2220	UGCAGUGUU CUUGGCUG	1848	CAGCCAAG CUGAUGAGGNNNNNNNNCCGAA ACACUGGA	6004
2221	GCAGUGUUC UUGGCUGU	1849	ACAGCCAA CUGAUGAGGNNNNNNNNCCGAA AACACUGC	6005
2223	AGUGUUCUU GGCUGUGC	1850	GCACAGCC CUGAUGAGGNNNNNNNNCCGAA AGAACACU	6006
2246	GGAGGCAUU UUUCAUAA	1851	UUAUGAAA CUGAUGAGGNNNNNNNNCCGAA AUGCCUCC	6007
2247	GAGGCAUUU UUCAUAAU	1852	AUUAUGAA CUGAUGAGGNNNNNNNNCCGAA AAUGCCUC	6008
2248	AGGCAUUUU UCAUAAUA	1853	UAUUAUGA CUGAUGAGGNNNNNNNNCCGAA AAAUGCCU	6009
2249	GGCAUUUUU CAUAAUAG	1854	CUAUUAUG CUGAUGAGGNNNNNNNNCCGAA AAAAUGCC	6010
2250	GCAUUUUUC AUAAUAGA	1855	UCUAUUAU CUGAUGAGGNNNNNNNNCCGAA AAAAAUGC	6011
2253	UUUUUCAUA AUAGAAGG	1856	CCUUCUAU CUGAUGAGGNNNNNNNNCCGAA AUGAAAAA	6012
2256	UUCAUAAUA GAAGGUGC	1857	GCACCUUC CUGAUGAGGNNNNNNNNCCGAA AUUAUGAA	6013
2282	GACGAACUU GGAAAUCA	1858	UGAUUUCC CUGAUGAGGNNNNNNNNCCGAA AGUUCGUC	6014
2289	UUGGAAAUC AUUAUUCU	1859	AGAAUAAU CUGAUGAGGNNNNNNNNCCGAA AUUUCCAA	6015
2292	GAAAUCAUU AUUCUAGU	1860	ACUAGAAU CUGAUGAGGNNNNNNNNCCGAA AUGAUUUC	6016
2293	AAAUCAUUA UUCUAGUA	1861	UACUAGAA CUGAUGAGGNNNNNNNNCCGAA AAUGAUUU	6017
2295	AUCAUUAUU CUAGUAGG	1862	CCUACUAG CUGAUGAGGNNNNNNNNCCGAA AUAAUGAU	6018
2296	UCAUUAUUC UAGUAGGC	1863	GCCUACUA CUGAUGAGGNNNNNNNNCCGAA AAUAAUGA	6019
2298	AUUAUUCUA GUAGGCAC	1864	GUGCCUAC CUGAUGAGGNNNNNNNNCCGAA AGAAUAAU	6020
2301	AUUCUAGUA GGCACGAC	1865	GUCGUGCC CUGAUGAGGNNNNNNNNCCGAA ACUAGAAU	6021
2316	ACGGUGAUU GCCAUGUU	1866	AACAUGGC CUGAUGAGGNNNNNNNNCCGAA AUCACCGU	6022
2324	UGCCAUGUU CUUCUGGC	1867	GCCAGAAG CUGAUGAGGNNNNNNNNCCGAA ACAUGGCA	6023
2325	GCCAUGUUC UUCUGGCU	1868	AGCCAGAA CUGAUGAGGNNNNNNNNCCGAA AACAUGGC	6024
2327	CAUGUUCUU CUGGCUAC	1869	GUAGCCAG CUGAUGAGGNNNNNNNNCCGAA AGAACAUG	6025
2328	AUGUUCUUC UGGCUACU	1870	AGUAGCCA CUGAUGAGGNNNNNNNNCCGAA AAGAACAU	6026
2334	UUCUGGCUA CUUCUUGU	1871	ACAAGAAG CUGAUGAGGNNNNNNNNCCGAA AGCCAGAA	6027
2337	UGGCUACUU CUUGUCAU	1872	AUGACAAG CUGAUGAGGNNNNNNNNCCGAA AGUAGCCA	6028
2338	GGCUACUUC UUGUCAUC	1873	GAUGACAA CUGAUGAGGNNNNNNNNCCGAA AAGUAGCC	6029
2340	CUACUUCUU GUCAUCAU	1874	AUGAUGAC CUGAUGAGGNNNNNNNNCCGAA AGAAGUAG	6030
2343	CUUCUUGUC AUCAUCCU	1875	AGGAUGAU CUGAUGAGGNNNNNNNNCCGAA ACAAGAAG	6031
2346	CCUGUCAUC AUCCUAGG	1876	CCUAGGAU CUGAUGAGGNNNNNNNNCCGAA AUGACAAG	6032
2349	GUCAUCAUC CUAGGGAC	1877	GUCCCUAG CUGAUGAGGNNNNNNNNCCGAA AUGAUGAC	6033
2352	AUCAUCCUA GGGACCGU	1878	ACGGUCCC CUGAUGAGGNNNNNNNNCCGAA AGGAUGAU	6034
2361	GGGACCGUU AAGCGGGC	1879	GCCCGCUU CUGAUGAGGNNNNNNNNCCGAA ACGGUCCC	6035
2362	GGACCGUUA AGCGGGCC	1880	GGCCCGCU CUGAUGAGGNNNNNNNNCCGAA AACGGUCC	6036
2396	GACAGGCUA CUUGUCCA	1881	UGGACAAG CUGAUGAGGNNNNNNNNCCGAA AGCCUGUC	6037
2399	AGGCUACUU GUCCAUCG	1882	CGAUGGAC CUGAUGAGGNNNNNNNNCCGAA AGUAGCCU	6038
2402	CUACUUGUC CAUCGUCA	1883	UGACGAUG CUGAUGAGGNNNNNNNNCCGAA ACAAGUAG	6039
2406	UUGUCCAUC GUCAUGGA	1884	UCCAUGAC CUGAUGAGGNNNNNNNNCCGAA AUGGACAA	6040
2409	UCCAUCGUC AUGGAUCC	1885	GGAUCCAU CUGAUGAGGNNNNNNNNCCGAA ACGAUGGA	6041
2416	UCAUGGAUC CAGAUGAA	1886	UUCAUCUG CUGAUGAGGNNNNNNNNCCGAA AUCCAUGA	6042
2427	GAUGAACUC CCAUUGGA	1887	UCCAAUGG CUGAUGAGGNNNNNNNNCCGAA AGUUCAUC	6043
2432	ACUCCCAUU GGAUGAAC	1888	GUUCAUCC CUGAUGAGGNNNNNNNNCCGAA AUGGGAGU	6044
2443	AUGAACAUU GUGAACGA	1889	UCGUUCAC CUGAUGAGGNNNNNNNNCCGAA AUGUUCAU	6045
2458	GACUGCCUU AUGAUGCC	1890	GGCAUCAU CUGAUGAGGNNNNNNNNCCGAA AGGCAGUC	6046
2459	ACUGCCUUA UGAUGCCA	1891	UGGCAUCA CUGAUGAGGNNNNNNNNCCGAA AAGGCAGU	6047
2480	AUGGGAAUU CCCCAGAG	1892	CUCUGGGG CUGAUGAGGNNNNNNNNCCGAA AUUCCCAU	6048
2481	UGGGAAUUC CCCAGAGA	1893	UCUCUGGG CUGAUGAGGNNNNNNNNCCGAA AAUUCCCA	6049
2502	CUGAACCUA GGUAAGCC	1894	GGCUUACC CUGAUGAGGNNNNNNNNCCGAA AGGUUCAG	6050
2506	ACCUAGGUA AGCCUCUU	1895	AAGAGGCU CUGAUGAGGNNNNNNNNCCGAA ACCUAGGU	6051
2512	GUAAGCCUC UUGGCCGU	1896	ACGGCCAA CUGAUGAGGNNNNNNNNCCGAA AGGCUUAC	6052
2514	AAGCCUCUU GGCCGUGG	1897	CCACGGCC CUGAUGAGGNNNNNNNNCCGAA AGAGGCUU	6053
2528	UGGUGCCUU UGGCCAAG	1898	CUUGGCCA CUGAUGAGGNNNNNNNNCCGAA AGGCACCA	6054
2529	GGUGCCUUU GGCCAAGA	1899	UCUUGGCC CUGAUGAGGNNNNNNNNCCGAA AAGGCACC	6055
2541	CAAGAGAUU GAAGCAGA	1900	UCUGCUUC CUGAUGAGGNNNNNNNNCCGAA AUCUCUUG	6056
2555	AGAUGCCUU UGGAAUUG	1901	CAAUUCCA CUGAUGAGGNNNNNNNNCCGAA AGGCAUCU	6057
2556	GAUGCCUUU GGAAUUGA	1902	UCAAUUCC CUGAUGAGGNNNNNNNNCCGAA AAGGCAUC	6058
2562	UUUGGAAUU GACAAGAC	1903	GUCUUGUC CUGAUGAGGNNNNNNNNCCGAA AUUCCAAA	6059
2578	CAGCAACUU GCAGGACA	1904	UGUCCUGC CUGAUGAGGNNNNNNNNCCGAA AGUUGCUG	6060
2589	AGGACAGUA GCAGUCAA	1905	UUGACUGC CUGAUGAGGNNNNNNNNCCGAA ACUGUCCU	6061
2595	GUAGCAGUC AAAAUGUU	1906	AACAUUUU CUGAUGAGGNNNNNNNNCCGAA ACUGGUAC	6062
2603	CAAAAUGUU GAAAGAAG	1907	CUUCUUUC CUGAUGAGGNNNNNNNNCCGAA ACAUUUUG	6063
2632	GUGAGCAUC GAGCUCUC	1908	GAGAGCUC CUGAUGAGGNNNNNNNNCCGAA AUGCUCAC	6064
2638	AUCGAGCUC UCAUGUCU	1909	AGACAUGA CUGAUGAGGNNNNNNNNCCGAA AGCUCGAU	6065
2640	CGAGCUCUC AUGUCUGA	1910	UCAGACAU CUGAUGAGGNNNNNNNNCCGAA AGAGCUCG	6066
2645	UCUCAUGUC UGAACUCA	1911	UGAGUUCA CUGAUGAGGNNNNNNNNCCGAA ACAUGAGA	6067
2652	UCUGAACUC AAGAUCCU	1912	AGGAUCUU CUGAUGAGGNNNNNNNNCCGAA AGUUCAGA	6068
2658	CUCAAGAUC CUCAUUCA	1913	UGAAUGAG CUGAUGAGGNNNNNNNNCCGAA AUCUUGAG	6069
2661	AAGAUCCUC AUUCAUAU	1914	AUAUGAAU CUGAUGAGGNNNNNNNNCCGAA AGGAUCUU	6070
2664	AUCCUCAUU CAUAUUGG	1915	CCAAUAUG CUGAUGAGGNNNNNNNNCCGAA AUGAGGAU	6071
2665	UCCUCAUUC AUAUUGGU	1916	ACCAAUAU CUGAUGAGGNNNNNNNNCCGAA AAUGAGGA	6072
2668	UCAUUCAUA UUGGUCAC	1917	GUGACCAA CUGAUGAGGNNNNNNNNCCGAA AUGAAUGA	6073
2670	AUUCAUAUU GGUCACCA	1918	UGGUGACC CUGAUGAGGNNNNNNNNCCGAA AUAUGAAU	6074
2674	AUAUUGGUC ACCAUCUC	1919	GAGAUGGU CUGAUGAGGNNNNNNNNCCGAA ACCAAUAU	6075
2680	GUCACCAUC UCAAUGUG	1920	CACAUUGA CUGAUGAGGNNNNNNNNCCGAA AUGGUGAC	6076
2682	CACCAUCUC AAUGUGGU	1921	ACCACAUU CUGAUGAGGNNNNNNNNCCGAA AGAUGGUG	6077
2691	AAUGUGGUC AACCUUCU	1922	AGAAGGUU CUGAUGAGGNNNNNNNNCCGAA ACCACAUU	6078
2697	GUCAACCUU CUAGGUGC	1923	GCACCUAG CUGAUGAGGNNNNNNNNCCGAA AGGUUGAC	6079
2698	UCAACCUUC UAGGUGCC	1924	GGCACCUA CUGAUGAGGNNNNNNNNCCGAA AAGGUUGA	6080
2700	AACCUUCUA GGUGCCUG	1925	CAGGCACC CUGAUGAGGNNNNNNNNCCGAA AGAAGGUU	6081
2710	GUGCCUGUA CCAAGCCA	1926	UGGCUUGG CUGAUGAGGNNNNNNNNCCGAA ACAGGCAC	6082
2730	GGGCCACUC AUGGUGAU	1927	AUCACCAU CUGAUGAGGNNNNNNNNCCGAA AGUGGCCC	6083
2739	AUGGUGAUU GUGGAAUU	1928	AAUUCCAC CUGAUGAGGNNNNNNNNCCGAA AUCACCAU	6084
2747	UGUGGAAUU CUGCAAAU	1929	AUUUGCAG CUGAUGAGGNNNNNNNNCCGAA AUUCCACA	6085
2748	GUGGAAUUC UGCAAAUU	1930	AAUUUGCA CUGAUGAGGNNNNNNNNCCGAA AAUUCCAC	6086
2756	CUGCAAAUU UGGAAACC	1931	GGUUUCCA CUGAUGAGGNNNNNNNNCCGAA AUUUGCAG	6087
2757	UGCAAAUUU GGAAACCU	1932	AGGUUUCC CUGAUGAGGNNNNNNNNCCGAA AAUUUGCA	6088
2768	AAACCUGUC CACUUACC	1933	GGUAAGUG CUGAUGAGGNNNNNNNNCCGAA ACAGGUUU	6089
2773	UGUCCACUU ACCUGAGG	1934	CCUCAGGU CUGAUGAGGNNNNNNNNCCGAA AGUGGACA	6090
2774	GUCCACUUA CCUGAGGA	1935	UCCUCAGG CUGAUGAGGNNNNNNNNCCGAA AAGUGGAC	6091
2798	AAAUGAAUU UGUCCCCU	1936	AGGGGACA CUGAUGAGGNNNNNNNNCCGAA AUUCAUUU	6092
2799	AAUGAAUUU GUCCCCUA	1937	UAGGGGAC CUGAUGAGGNNNNNNNNCCGAA AAUUCAUU	6093
2802	GAAUUUGUC CCCUACAA	1938	UUGUAGGG CUGAUGAGGNNNNNNNNCCGAA ACAAAUUC	6094
2807	UGUCCCCUA CAAGACCA	1939	UGGUCUUG CUGAUGAGGNNNNNNNNCCGAA AGGGGACA	6095
2828	GGCACGAUU CCGUCAAG	1940	CUUGACGG CUGAUGAGGNNNNNNNNCCGAA AUCGUGCC	6096
2829	GCACGAUUC CGUCAAGG	1941	CCUUGACG CUGAUGAGGNNNNNNNNCCGAA AAUCGUGC	6097
2833	GAUUCCGUC AAGGGAAA	1942	UUUCCCUU CUGAUGAGGNNNNNNNNCCGAA ACGGAAUC	6098
2846	GAAAGACUA CGUUGGAG	1943	CUCCAACG CUGAUGAGGNNNNNNNNCCGAA AGUCUUUC	6099
2850	GACUACGUU GGAGCAAU	1944	AUUGCUCC CUGAUGAGGNNNNNNNNCCGAA ACGUAGUC	6100
2859	GGAGCAAUC CCUGUGGA	1945	UCCACAGG CUGAUGAGGNNNNNNNNCCGAA AUUGCUCC	6101
2869	CUGUGGAUC UGAAACGG	1946	CCGUUUCA CUGAUGAGGNNNNNNNNCCGAA AUCCACAG	6102
2882	ACGGCGCUU GGACAGCA	1947	UGCUGUCC CUGAUGAGGNNNNNNNNCCGAA AGCGCCGU	6103
2892	GACAGCAUC ACCAGUAG	1948	CUACUGGU CUGAUGAGGNNNNNNNNCCGAA AUGGUGUC	6104
2899	UCACCAGUA GCCAGAGC	1949	GCUCUGGC CUGAUGAGGNNNNNNNNCCGAA ACUGGUGA	6105
2909	CCAGAGCUC AGCCAGCU	1950	AGCUGGCU CUGAUGAGGNNNNNNNNCCGAA AGCUCUGG	6106
2918	AGCCAGCUC UGGAUUUG	1951	CAAAUCCA CUGAUGAGGNNNNNNNNCCGAA AGCUGGCU	6107
2924	CUCUGGAUU UGUGGAGG	1952	CCUCCACA CUGAUGAGGNNNNNNNNCCGAA AUCCAGAG	6108
2925	UCUGGAUUU GUGGAGGA	1953	UCCUCCAC CUGAUGAGGNNNNNNNNCCGAA AAUCCAGA	6109
2939	GGAGAAGUC CCUCAGUG	1954	CACUGAGG CUGAUGAGGNNNNNNNNCCGAA ACUUCUCC	6110
2943	AAGUCCCUC AGUGAUGU	1955	ACAUCACU CUGAUGAGGNNNNNNNNCCGAA AGGGACUU	6111
2952	AGUGAUGUA GAAGAAGA	1956	UCUUCUUC CUGAUGAGGNNNNNNNNCCGAA ACAUCACU	6112
2968	AGGAAGCUC CUGAAGAU	1957	AUCUUCAG CUGAUGAGGNNNNNNNNCCGAA AGCUUCCU	6113
2977	CUGAAGAUC UGUAUAAG	1958	CUUAUACA CUGAUGAGGNNNNNNNNCCGAA AUCUUCAG	6114
2981	AGAUCUGUA UAAGGACU	1959	AGUCCUUA CUGAUGAGGNNNNNNNNCCGAA ACAGAUCU	6115
2983	AUCUGUAUA AGGACUUC	1960	GAAGUCCU CUGAUGAGGNNNNNNNNCCGAA AUACAGAU	6116
2990	UAAGGACUU CCUGACCU	1961	AGGUCAGG CUGAUGAGGNNNNNNNNCCGAA AGUCCUUA	6117
2991	AAGGACUUC CUGACCUU	1962	AAGGUCAG CUGAUGAGGNNNNNNNNCCGAA AAGUCCUU	6118
2999	CCUGACCUU GGAGCAUC	1963	GAUGCUCC CUGAUGAGGNNNNNNNNCCGAA AGGUCAGG	6119
3007	UGGAGCAUC UCAUCUGU	1964	ACAGAUGA CUGAUGAGGNNNNNNNNCCGAA AUGGUCCA	6120
3009	GAGCAUCUC AUCUGUUA	1965	UAACAGAU CUGAUGAGGNNNNNNNNCCGAA AGAUGCUC	6121
3012	CAUCUCAUC UGUUACAG	1966	CUGUAACA CUGAUGAGGNNNNNNNNCCGAA AUGAGAUG	6122
3016	UCAUCUGUU ACAGCUUC	1967	GAAGCUGU CUGAUGAGGNNNNNNNNCCGAA ACAGAUGA	6123
3017	CAUCUGUUA CAGCUUCC	1968	GGAAGCUG CUGAUGAGGNNNNNNNNCCGAA AACAGAUG	6124
3023	UUACAGCUU CCAAGUGG	1969	CCACUUGG CUGAUGAGGNNNNNNNNCCGAA AGCUGUAA	6125
3024	UACAGCUUC CAAGUGGC	1970	GCCACUUG CUGAUGAGGNNNNNNNNCCGAA AAGCUGUA	6126
3034	AAGUGGCUA AGGGCAUG	1971	CAUGCCCU CUGAUGAGGNNNNNNNNCCGAA AGCCACUU	6127
3047	CAUGGAGUU CUUGGCAU	1972	AUGCCAAG CUGAUGAGGNNNNNNNNCCGAA ACUCCAUG	6128
3048	AUGGAGUUC UUGGCAUC	1973	GAUGCCAA CUGAUGAGGNNNNNNNNCCGAA AACUCCAU	6129
3050	GGAGUUCUU GGCAUCGC	1974	GCGAUGCC CUGAUGAGGNNNNNNNNCCGAA AGAACUCC	6130
3056	CUUGGCAUC GCGAAAGU	1975	ACUUUCGC CUGAUGAGGNNNNNNNNCCGAA AUGCCAAG	6131
3067	GAAAGUGUA UCCACAGG	1976	CCUGUGGA CUGAUGAGGNNNNNNNNCCGAA ACACUUUC	6132
3069	AAGUGUAUC CACAGGGA	1977	UCCCUGUG CUGAUGAGGNNNNNNNNCCGAA AUACACUU	6133
3094	CACGAAAUA UCCUCUUA	1978	UAAGAGGA CUGAUGAGGNNNNNNNNCCGAA AUUUCGUG	6134
3096	CGAAAUAUC CUCUUAUC	1979	GAUAAGAG CUGAUGAGGNNNNNNNNCCGAA AUAUUUCG	6135
3099	AAUAUCCUC UUAUCGGA	1980	UCCGAUAA CUGAUGAGGNNNNNNNNCCGAA AGGAUAUU	6136
3101	UAUCCUCUU AUCGGAGA	1981	UCUCCGAU CUGAUGAGGNNNNNNNNCCGAA AGAGGAUA	6137
3102	AUCCUCUUA UCGGAGAA	1982	UUCUCCGA CUGAUGAGGNNNNNNNNCCGAA AAGAGGAU	6138
3104	CCUCUUAUC GGAGAAGA	1983	UCUUCUCC CUGAUGAGGNNNNNNNNCCGAA AUAAGAGG	6139
3120	AACGUGGUU AAAAUCUG	1984	CAGAUUUU CUGAUGAGGNNNNNNNNCCGAA ACCACGUU	6140
3121	ACGUGGUUA AAAUCUGU	1985	ACAGAUUU CUGAUGAGGNNNNNNNNCCGAA AACCACGU	6141
3126	GUUAAAAUC UGUGACUU	1986	AAGUCACA CUGAUGAGGNNNNNNNNCCGAA AUUUUAAC	6142
3134	CUGUGACUU UGGCUUGG	1987	CCAAGCCA CUGAUGAGGNNNNNNNNCCGAA AGUCACAG	6143
3135	UGUGACUUU GGCUUGGC	1988	GCCAAGCC CUGAUGAGGNNNNNNNNCCGAA AAGUCACA	6144
3140	CUUUGGCUU GGCCCGGG	1989	CCCGGGCC CUGAUGAGGNNNNNNNNCCGAA AGCCAAAG	6145
3151	CCCGGGAUA UUUAUAAA	1990	UUUAUAAA CUGAUGAGGNNNNNNNNCCGAA AUCCCGGG	6146
3153	CGGGAUAUU UAUAAAGA	1991	UCUUUAUA CUGAUGAGGNNNNNNNNCCGAA AUAUCCCG	6147
3154	GGGAUAUUU AUAAAGAU	1992	AUCUUUAU CUGAUGAGGNNNNNNNNCCGAA AAUAUCCC	6148
3155	GGAUAUUUA UAAAGAUC	1993	GAUCUUUA CUGAUGAGGNNNNNNNNCCGAA AAAUAUCC	6149
3157	AUAUUUAUA AAGAUCCA	1994	UGGAUCUU CUGAUGAGGNNNNNNNNCCGAA AUAAAUAU	6150
3163	AUAAAGAUC CAGAUUAU	1995	AUAAUCUG CUGAUGAGGNNNNNNNNCCGAA AUCUUUAU	6151
3169	AUCCAGAUU AUGUCAGA	1996	UCUGACAU CUGAUGAGGNNNNNNNNCCGAA AUCUGGAU	6152
3170	UCCAGAUUA UGUCAGAA	1997	UUCUGACA CUGAUGAGGNNNNNNNNCCGAA AAUCUGGA	6153
3174	GAUUAUGUC AGAAAAGG	1998	CCUUUUCU CUGAUGAGGNNNNNNNNCCGAA ACAUAAUC	6154
3190	GAGAUGGUC GCCUCCCU	1999	AGGGAGGC CUGAUGAGGNNNNNNNNCCGAA AGCAUCUC	6155
3195	GCUCGCCUC CCUUUGAA	2000	UUCAAAGG CUGAUGAGGNNNNNNNNCCGAA AGGCGAGC	6156
3199	GCCUCCCUU UGAAAUGG	2001	CCAUUUCA CUGAUGAGGNNNNNNNNCCGAA AGGGAGGC	6157
3200	CCUCCCUUU GAAAUGGA	2002	UCCAUUUC CUGAUGAGGNNNNNNNNCCGAA AAGGGAGG	6158
3225	GAAACAAUU UUUGACAG	2003	CUGUCAAA CUGAUGAGGNNNNNNNNCCGAA AUUGUUUC	6159
3226	AAACAAUUU UUGACAGA	2004	UCUGUCAA CUGAUGAGGNNNNNNNNCCGAA AAUUGUUU	6160
3227	AACAAUUUU UGACAGAG	2005	CUCUGUCA CUGAUGAGGNNNNNNNNCCGAA AAAUUGUU	6161
3228	ACAAUUUUU GACAGAGU	2006	ACUCUGUC CUGAUGAGGNNNNNNNNCCGAA AAAAUUGU	6162
3239	CAGAGUGUA CACAAUCC	2007	GGAUUGUG CUGAUGAGGNNNNNNNNCCGAA ACACUCUG	6163
3246	UACACAAUC CAGAGUGA	2008	UCACUCUG CUGAUGAGGNNNNNNNNCCGAA AUUGUGUA	6164
3258	AGUGACGUC UGGUCUUU	2009	AAAGACCA CUGAUGAGGNNNNNNNNCCGAA ACGUCACU	6165
3263	CGUCUGGUC UUUUGGUG	2010	CACCAAAA CUGAUGAGGNNNNNNNNCCGAA ACCAGACG	6166
3265	UCUGGUCUU UUGGUGUU	2011	AACACCAA CUGAUGAGGNNNNNNNNCCGAA AGACCAGA	6167
3266	CUGGUCUUU UGGUGUUU	2012	AAACACCA CUGAUGAGGNNNNNNNNCCGAA AAGACCAG	6168
3267	UGGUCUUUU GGUGUUUU	2013	AAAACACC CUGAUGAGGNNNNNNNNCCGAA AAAGACCA	6169
3273	UUUGGUGUU UUGCUGUG	2014	CACAGCAA CUGAUGAGGNNNNNNNNCCGAA ACACCAAA	6170
3274	UUGGUGUUU UGCUGUGG	2015	CCACAGCA CUGAUGAGGNNNNNNNNCCGAA AACACCAA	6171
3275	UGGUGUUUU GCUGUGGG	2016	CCCACAGC CUGAUGAGGNNNNNNNNCCGAA AAACACCA	6172
3288	UGGGAAAUA UUUUCCUU	2017	AAGGAAAA CUGAUGAGGNNNNNNNNCCGAA AUUUCCCA	6173
3290	GGAAAUAUU UUCCUUAG	2018	CUAAGGAA CUGAUGAGGNNNNNNNNCCGAA AUAUUUCC	6174
3291	GAAAUAUUU UCCUUAGG	2019	CCUAAGGA CUGAUGAGGNNNNNNNNCCGAA AAUAUUUC	6175
3292	AAAUAUUUU CCUUAGGU	2020	ACCUAAGG CUGAUGAGGNNNNNNNNCCGAA AAAUAUUU	6176
3293	AAUAUUUUC CUUAGGUG	2021	CACCUAAG CUGAUGAGGNNNNNNNNCCGAA AAAAUAUU	6177
3296	AUUUUCCUU AGGUGCUU	2022	AAGCACCU CUGAUGAGGNNNNNNNNCCGAA AGGAAAAU	6178
3297	UUUUCCUUA GGUGCUUC	2023	GAAGCACC CUGAUGAGGNNNNNNNNCCGAA AAGGAAAA	6179
3304	UAGGUGCUU CUCCAUAU	2024	AUAUGGAG CUGAUGAGGNNNNNNNNCCGAA AGCACCUA	6180
3305	AGGUGCUUC UCCAUAUC	2025	GAUAUGGA CUGAUGAGGNNNNNNNNCCGAA AAGCACCU	6181
3307	GUGCUUCUC CAUAUCCU	2026	AGGAUAUG CUGAUGAGGNNNNNNNNCCGAA AGAAGCAC	6182
3311	UUCUCCAUA UCCUGGGG	2027	CCCCAGGA CUGAUGAGGNNNNNNNNCCGAA AUGGAGAA	6183
3313	CUCCAUAUC CUGGGGUA	2028	UACCCCAG CUGAUGAGGNNNNNNNNCCGAA AUAUGGAG	6184
3321	CCUGGGGUA AAGAUUGA	2029	UCAAUCUU CUGAUGAGGNNNNNNNNCCGAA ACCCCAGG	6185
3327	GUAAAGAUU GAUGAAGA	2030	UCUUCAUC CUGAUGAGGNNNNNNNNCCGAA AUCUUUAC	6186
3338	UGAAGAAUU UUGUAGGC	2031	GCCUACAA CUGAUGAGGNNNNNNNNCCGAA AUUCUUCA	6187
3339	GAAGAAUUU UGUAGGCG	2032	CGCCUACA CUGAUGAGGNNNNNNNNCCGAA AAUUCUUC	6188
3340	AAGAAUUUU GUAGGCGA	2033	UCGCCUAC CUGAUGAGGNNNNNNNNCCGAA AAAUUCUU	6189
3343	AAUUUUGUA GGCGAUUG	2034	CAAUCGCC CUGAUGAGGNNNNNNNNCCGAA ACAAAAUU	6190
3350	UAGGCGAUU GAAAGAAG	2035	CUUCUUUC CUGAUGAGGNNNNNNNNCCGAA AUCGCCUA	6191
3364	AAGGAACUA GAAUGAGG	2036	CCUCAUUC CUGAUGAGGNNNNNNNNCCGAA AGUUCCUU	6192
3382	CCCCUGAUU AUACUACA	2037	UGUAGUAU CUGAUGAGGNNNNNNNNCCGAA AUCAGGGG	6193
3383	CCCUGAUUA UACUACAC	2038	GUGUAGUA CUGAUGAGGNNNNNNNNCCGAA AAUCAGGG	6194
3385	CUGAUUAUA CUACACCA	2039	UGGUGUAG CUGAUGAGGNNNNNNNNCCGAA AUAAUCAG	6195
3388	AUUAUACUA CACCAGAA	2040	UUCUGGUG CUGAUGAGGNNNNNNNNCCGAA AGUAUAAU	6196
3401	AGAAAUGUA CCAGACCA	2041	UGGUCUGG CUGAUGAGGNNNNNNNNCCGAA ACAUUUCU	6197
3439	AGCCCAGUC AGAGACCC	2042	GGGUCUCU CUGAUGAGGNNNNNNNNCCGAA ACUGGGCU	6198
3452	ACCCACGUU UUCAGAGU	2043	ACUCUGAA CUGAUGAGGNNNNNNNNCCGAA ACGUGGGU	6199
3453	CCCACGUUU UCAGAGUU	2044	AACUCUGA CUGAUGAGGNNNNNNNNCCGAA AACGUGGG	6200
3454	CCACGUUUU CAGAGUUG	2045	CAACUCUG CUGAUGAGGNNNNNNNNCCGAA AAACGUGG	6201
3455	CACGUUUUC AGAGUUGG	2046	CCAACUCU CUGAUGAGGNNNNNNNNCCGAA AAAACGUG	6202
3461	UUCAGAGUU GGUGGAAC	2047	GUUCCACC CUGAUGAGGNNNNNNNNCCGAA ACUCUGAA	6203
3472	UGGAACAUU UGGGAAAU	2048	AUUUCCCA CUGAUGAGGNNNNNNNNCCGAA AUGUUCCA	6204
3473	GGAAGAUUU GGGAAAUC	2049	GAUUUCCC CUGAUGAGGNNNNNNNNCCGAA AAUGUUCC	6205
3481	UGGGAAAUC UCUUGCAA	2050	UUGCAAGA CUGAUGAGGNNNNNNNNCCGAA AUUUCCCA	6206
3483	GGAAAUCUC UUGCAAGC	2051	GCUUGCAA CUGAUGAGGNNNNNNNNCCGAA AGAUUUCC	6207
3485	AAAUCUCUU GCAAGCUA	2052	UAGCUUGC CUGAUGAGGNNNNNNNNCCGAA AGAGAUUU	6208
3493	UGCAAGCUA AUGCUCAG	2053	CUGAGCAU CUGAUGAGGNNNNNNNNCCGAA AGCUUGCA	6209
3499	CUAAUGCUC AGCAGGAU	2054	AUCCUGCU CUGAUGAGGNNNNNNNNCCGAA AGCAUUAG	6210
3518	CAAAGACUA CAUUGUUC	2055	GAACAAUG CUGAUGAGGNNNNNNNNCCGAA AGUCUUUG	6211
3522	GACUACAUU GUUCUUCC	2056	GGAAGAAC CUGAUGAGGNNNNNNNNCCGAA AUGUAGUC	6212
3525	UACAUUGUU CUUCCGAU	2057	AUCGGAAG CUGAUGAGGNNNNNNNNCCGAA ACAAUGUA	6213
3526	ACAUUGUUC UUCCGAUA	2058	UAUCGGAA CUGAUGAGGNNNNNNNNCCGAA AACAAUGU	6214
3528	AUUGUUCUU CCGAUAUC	2059	GAUAUCGG CUGAUGAGGNNNNNNNNCCGAA AGAACAAU	6215
3529	UUGUUCUUC CGAUAUCA	2060	UGAUAUCG CUGAUGAGGNNNNNNNNCCGAA AAGAACAA	6216
3534	CUUCCGAUA UCAGAGAC	2061	GUCUCUGA CUGAUGAGGNNNNNNNNCCGAA AUCGGAAG	6217
3536	UCCGAUAUC AGAGACUU	2062	AAGUCUCU CUGAUGAGGNNNNNNNNCCGAA AUAUCGGA	6218
3544	CAGAGACUU UGAGCAUG	2063	CAUGCUCA CUGAUGAGGNNNNNNNNCCGAA AGUCUCUG	6219
3545	AGAGACUUU GAGCAUGG	2064	CCAUGCUC CUGAUGAGGNNNNNNNNCCGAA AAGUCUCU	6220
3562	AAGAGGAUU CUGGACUC	2065	GAGUCCAG CUGAUGAGGNNNNNNNNCCGAA AUCCUCUU	6221
3563	AGAGGAUUC UGGACUCU	2066	AGAGUCCA CUGAUGAGGNNNNNNNNCCGAA AAUCCUCU	6222
3570	UCUGGACUC UCUCUGCC	2067	GGCAGAGA CUGAUGAGGNNNNNNNNCCGAA AGUCCAGA	6223
3572	UGGACUCUC UCUGCCUA	2068	UAGGCAGA CUGAUGAGGNNNNNNNNCCGAA AGAGUCCA	6224
3574	GACUCUCUC UGCCUACC	2069	GGUAGGCA CUGAUGAGGNNNNNNNNCCGAA AGAGAGUC	6225
3580	CUCUGCCUA CCUCACCU	2070	AGGUGAGG CUGAUGAGGNNNNNNNNCCGAA AGGCAGAG	6226
3584	GCCUACCUC ACCUGUUU	2071	AAACAGGU CUGAUGAGGNNNNNNNNCCGAA AGGUAGGC	6227
3591	UCACCUGUU UCCUGUAU	2072	AUACAGGA CUGAUGAGGNNNNNNNNCCGAA ACAGGUGA	6228
3592	CACCUGUUU CCUGUAUG	2073	CAUACAGG CUGAUGAGGNNNNNNNNCCGAA AACAGGUG	6229
3593	ACCUGUUUC CUGUAUGG	2074	CCAUACAG CUGAUGAGGNNNNNNNNCCGAA AAACAGGU	6230
3598	UUUCCUGUA UGGAGGAG	2075	CUCCUCCA CUGAUGAGGNNNNNNNNCCGAA ACAGGAAA	6231
3615	GAGGAAGUA UGUGACCC	2076	GGGUCACA CUGAUGAGGNNNNNNNNCCGAA ACUUCCUC	6232
3629	CCCCAAAUU CCAUUAUG	2077	CAUAAUGG CUGAUGAGGNNNNNNNNCCGAA AUUUGGGG	6233
3630	CCCAAAUUC CAUUAUGA	2078	UCAUAAUG CUGAUGAGGNNNNNNNNCCGAA AAUUUGGG	6234
3634	AAUUCCAUU AUGACAAC	2079	GUUGUCAU CUGAUGAGGNNNNNNNNCCGAA AUGGAAUU	6235
3635	AUUCCAUUA UGACAACA	2080	UGUUGUCA CUGAUGAGGNNNNNNNNCCGAA AAUGGAAU	6236
3654	GCAGGAAUC AGUCAGUA	2081	UACUGACU CUGAUGAGGNNNNNNNNCCGAA AUUCCUGC	6237
3658	GAAUCAGUC AGUAUCUG	2082	CAGAUACU CUGAUGAGGNNNNNNNNCCGAA ACUGAUUC	6238
3662	CAGUCAGUA UCUGCAGA	2083	UCUGCAGA CUGAUGAGGNNNNNNNNCCGAA ACUGACUG	6239
3664	GUCAGUAUC UGCAGAAC	2084	GUUCUGCA CUGAUGAGGNNNNNNNNCCGAA AUACUGAC	6240
3676	AGAACAGUA AGCGAAAG	2085	CUUUCGCU CUGAUGAGGNNNNNNNNCCGAA ACUGUUCU	6241
3702	GUGAGUGUA AAAACAUU	2086	AAUGUUUU CUGAUGAGGNNNNNNNNCCGAA ACACUCAC	6242
3710	AAAAACAUU UGAAGAUA	2087	UAUCUUCA CUGAUGAGGNNNNNNNNCCGAA AUGUUUUU	6243
3711	AAAACAUUU GAAGAUAU	2088	AUAUCUUC CUGAUGAGGNNNNNNNNCCGAA AAUGUUUU	6244
3718	UUGAAGAUA UCCCGUUA	2089	UAACGGGA CUGAUGAGGNNNNNNNNCCGAA AUCUUCAA	6245
3720	GAAGAUAUC CCGUUAGA	2090	UCUAACGG CUGAUGAGGNNNNNNNNCCGAA AUAUCUUC	6246
3725	UAUCCCGUU AGAAGAAC	2091	GUUCUUCU CUGAUGAGGNNNNNNNNCCGAA ACGGGAUA	6247
3726	AUCCCGUUA GAAGAACC	2092	GGUUCUUC CUGAUGAGGNNNNNNNNCCGAA AACGGGAU	6248
3741	CCAGAAGUA AAAGUAAU	2093	AUUACUUU CUGAUGAGGNNNNNNNNCCGAA ACUUCUGG	6249
3747	GUAAAAGUA AUCCCAGA	2094	UCUGGGAU CUGAUGAGGNNNNNNNNCCGAA ACUUUUAC	6250
3750	AAAGUAAUC CCAGAUGA	2095	UCAUCUGG CUGAUGAGGNNNNNNNNCCGAA AUUACUUU	6251
3778	ACAGUGGUA UGGUUCUU	2096	AAGAACCA CUGAUGAGGNNNNNNNNCCGAA ACCACUGU	6252
3783	GGUAUGGUU CUUGCCUC	2097	GAGGCAAG CUGAUGAGGNNNNNNNNCCGAA ACCAUACC	6253
3784	GUAUGGUUC UUGCCUCA	2098	UGAGGCAA CUGAUGAGGNNNNNNNNCCGAA AACCAUAC	6254
3786	AUGGUUCUU GCCUCAGA	2099	UCUGAGGC CUGAUGAGGNNNNNNNNCCGAA AGAACCAU	6255
3791	UCUUGCCUC AGAAGAGC	2100	GCUCUUCU CUGAUGAGGNNNNNNNNCCGAA AGGCAAGA	6256
3808	UGAAAACUU UGGAAGAC	2101	GUCUUCCA CUGAUGAGGNNNNNNNNCCGAA AGUUUUCA	6257
3809	GAAAACUUU GGAAGACA	2102	UGUCUUCC CUGAUGAGGNNNNNNNNCCGAA AAGUUUUC	6258
3827	AACCAAAUU AUCUCCAU	2103	AUGGAGAU CUGAUGAGGNNNNNNNNCCGAA AUUUGGUU	6259
3828	ACCAAAUUA UCUCCAUC	2104	GAUGGAGA CUGAUGAGGNNNNNNNNCCGAA AAUUUGGU	6260
3830	CAAAUUAUC UCCAUCUU	2105	AAGAUGGA CUGAUGAGGNNNNNNNNCCGAA AUAAUUUG	6261
3832	AAUUAUCUC CAUCUUUU	2106	AAAAGAUG CUGAUGAGGNNNNNNNNCCGAA AGAUAAUU	6262
3836	AUCUCCAUC UUUUGGUG	2107	CACCAAAA CUGAUGAGGNNNNNNNNCCGAA AUGGAGAU	6263
3838	CUCCAUCUU UUGGUGGA	2108	UCCACCAA CUGAUGAGGNNNNNNNNCCGAA AGAUGGAG	6264
3839	UCCAUCUUU UGGUGGAA	2109	UUCCACCA CUGAUGAGGNNNNNNNNCCGAA AAGAUGGA	6265
3840	CCAUCUUUU GGUGGAAU	2110	AUUCCACC CUGAUGAGGNNNNNNNNCCGAA AAAGAUGG	6266
3872	CAGGGAGUC UGUGGCAU	2111	AUGCCACA CUGAUGAGGNNNNNNNNCCGAA ACUCCCUG	6267
3881	UGUGGCAUC UGAAGGCU	2112	AGCCUUCA CUGAUGAGGNNNNNNNNCCGAA AUGCCACA	6268
3890	UGAAGGCUC AAACCAGA	2113	UCUGGUUU CUGAUGAGGNNNNNNNNCCGAA AGCCUUCA	6269
3908	AAGCGGCUA CCAGUCCG	2114	CGGACUGG CUGAUGAGGNNNNNNNNCCGAA AGCCGCUU	6270
3914	CUACCAGUC CGGAUAUC	2115	GAUAUCCG CUGAUGAGGNNNNNNNNCCGAA ACUGGUAG	6271
3920	GUCCGGAUA UCACUCCG	2116	CGGAGUGA CUGAUGAGGNNNNNNNNCCGAA AUCCGGAC	6272
3922	CCGGAUAUC ACUCCGAU	2117	AUCGGAGU CUGAUGAGGNNNNNNNNCCGAA AUAUCCGG	6273
3926	AUAUCACUC CGAUGACA	2118	UGUCAUCG CUGAUGAGGNNNNNNNNCCGAA AGUGAUAU	6274
3950	CACCGUGUA CUCCAGUG	2119	CACUGGAG CUGAUGAGGNNNNNNNNCCGAA ACACGGUG	6275
3953	CGUGUACUC CAGUGAGG	2120	CCUCACUG CUGAUGAGGNNNNNNNNCCGAA AGUACACG	6276
3972	GCAGAACUU UUAAAGCU	2121	AGCUUUAA CUGAUGAGGNNNNNNNNCCGAA AGUUCUGC	6277
3973	CAGAACUUU UAAAGCUG	2122	CAGCUUUA CUGAUGAGGNNNNNNNNCCGAA AAGUUCUG	6278
3974	AGAACUUUU AAAGCUGA	2123	UCAGCUUU CUGAUGAGGNNNNNNNNCCGAA AAAGUUCU	6279
3975	GAACUUUUA AAGCUGAU	2124	AUCAGCUU CUGAUGAGGNNNNNNNNCCGAA AAAAGUUC	6280
3984	AAGCUGAUA GAGAUUGG	2125	CCAAUCUC CUGAUGAGGNNNNNNNNCCGAA AUCAGCUU	6281
3990	AUAGAGAUU GGAGUGCA	2126	UGCACUCC CUGAUGAGGNNNNNNNNCCGAA AUCUCUAU	6282
4006	AAACCGGUA GCACAGCC	2127	GGCUGUGC CUGAUGAGGNNNNNNNNCCGAA ACCGGUUU	6283
4020	GCCCAGAUU CUCCAGCC	2128	GGCUGGAG CUGAUGAGGNNNNNNNNCCGAA AUCUGGGC	6284
4021	CCCAGAUUC UCCAGCCU	2129	AGGCUGGA CUGAUGAGGNNNNNNNNCCGAA AAUCUGGG	6285
4023	CAGAUUCUC CAGCCUGA	2130	UCAGGCUG CUGAUGAGGNNNNNNNNCCGAA AGAAUCUG	6286
4052	ACUGAGCUC UCCUCCUG	2131	CAGGAGGA CUGAUGAGGNNNNNNNNCCGAA AGCUCAGU	6287
4054	UGAGCUCUC CUCCUGUU	2132	AACAGGAG CUGAUGAGGNNNNNNNNCCGAA AGAGCUCA	6288
4057	GCUCUCCUC CUGUUUAA	2133	UUAAACAG CUGAUGAGGNNNNNNNNCCGAA AGGAGAGC	6289
4062	CCUCCUGUU UAAAAGGA	2134	UCCUUUUA CUGAUGAGGNNNNNNNNCCGAA ACAGGAGG	6290
4063	CUCCUGUUU AAAAGGAA	2135	UUCCUUUU CUGAUGAGGNNNNNNNNCCGAA AACAGGAG	6291
4064	UCCUGUUUA AAAGGAAG	2136	CUUCCUUU CUGAUGAGGNNNNNNNNCCGAA AAACAGGA	6292
4076	GGAAGCAUC CACACCCC	2137	GGGGUGUG CUGAUGAGGNNNNNNNNCCGAA AUGCUUCC	6293
4089	CCCCAACUC CCGGACAU	2138	AUGUCCGG CUGAUGAGGNNNNNNNNCCGAA AGUUGGGG	6294
4098	CCGGACAUC ACAUGAGA	2139	UCUCAUGU CUGAUGAGGNNNNNNNNCCGAA AUGUCCGG	6295
4110	UGAGAGGUC UGCUCAGA	2140	UCUGAGCA CUGAUGAGGNNNNNNNNCCGAA ACCUCUCA	6296
4115	GGUCUGCUC AGAUUUUG	2141	CAAAAUCU CUGAUGAGGNNNNNNNNCCGAA AGCAGACC	6297
4120	GCUCAGAUU UUGAAGUG	2142	CACUUCAA CUGAUGAGGNNNNNNNNCCGAA AUCUGAGC	6298
4121	CUCAGAUUU UGAAGUGU	2143	ACACUUCA CUGAUGAGGNNNNNNNNCCGAA AAUCUGAG	6299
4122	UCAGAUUUU GAAGUGUU	2144	AACACUUC CUGAUGAGGNNNNNNNNCCGAA AAAUCUGA	6300
4130	UGAAGUGUU GUUCUUUC	2145	GAAAGAAC CUGAUGAGGNNNNNNNNCCGAA ACACUUCA	6301
4133	AGUGUUGUU CUUUCCAC	2146	GUGGAAAG CUGAUGAGGNNNNNNNNCCGAA ACAACACU	6302
4134	GUGUUGUUC UUUCCACC	2147	GGUGGAAA CUGAUGAGGNNNNNNNNCCGAA AACAACAC	6303
4136	GUUGUUCUU UCCACCAG	2148	CUGGUGGA CUGAUGAGGNNNNNNNNCCGAA AGAACAAC	6304
4137	UUGUUCUUU CCACCAGC	2149	GCUGGUGG CUGAUGAGGNNNNNNNNCCGAA AAGAACAA	6305
4138	UGUUCUUUC CACCAGCA	2150	UGCUGGUG CUGAUGAGGNNNNNNNNCCGAA AAAGAACA	6306
4153	CAGGAAGUA GCCGCAUU	2151	AAUGCGGC CUGAUGAGGNNNNNNNNCCGAA ACUUCCUG	6307
4161	AGCCGCAUU UGAUUUUC	2152	GAAAAUCA CUGAUGAGGNNNNNNNNCCGAA AUGCGGCU	6308
4162	GCCGCAUUU GAUUUUCA	2153	UGAAAAUC CUGAUGAGGNNNNNNNNCCGAA AAUGCGGC	6309
4166	CAUUUGAUU UUCAUUUC	2154	GAAAUGAA CUGAUGAGGNNNNNNNNCCGAA AUCAAAUG	6310
4167	AUUUGAUUU UCAUUUCG	2155	CGAAAUGA CUGAUGAGGNNNNNNNNCCGAA AAUCAAAU	6311
4168	UUUGAUUUU CAUUUCGA	2156	UCGAAAUG CUGAUGAGGNNNNNNNNCCGAA AAAUCAAA	6312
4169	UUGAUUUUC AUUUCGAC	2157	GUCGAAAU CUGAUGAGGNNNNNNNNCCGAA AAAAUCAA	6313
4172	AUUUUCAUU UCGACAAC	2158	GUUGUCGA CUGAUGAGGNNNNNNNNCCGAA AUGAAAAU	6314
4173	UUUUCAUUU CGACAACA	2159	UGUUGUCG CUGAUGAGGNNNNNNNNCCGAA AAUGAAAA	6315
4174	UUUCAUUUC GACAACAG	2160	CUGUUGUC CUGAUGAGGNNNNNNNNCCGAA AAAUGAAA	6316
4194	AAGGACCUC GGACUGCA	2161	UGCAGUCC CUGAUGAGGNNNNNNNNCCGAA AGGUCCUU	6317
4214	AGCCAGCUC UUCUAGGC	2162	GCCUAGAA CUGAUGAGGNNNNNNNNCCGAA AGCUGGCU	6318
4216	CCAGCUCUU CUAGGCUU	2163	AAGCCUAG CUGAUGAGGNNNNNNNNCCGAA AGAGCUGG	6319
4217	CAGCUCUUC UAGGCUUG	2164	CAAGCCUA CUGAUGAGGNNNNNNNNCCGAA AAGAGCUG	6320
4219	GCUCUUCUA GGCUUGUG	2165	CACAAGCC CUGAUGAGGNNNNNNNNCCGAA AGAAGAGC	6321
Where “N” represents stem II region of a HH ribosyme (Hertel et al., 1992 Nucleic Acids Res. 20 3253).
The length of the stem II may be ≧2 base-pairs.
Underlined region can be any N sequence or linker, as described herein.

TABLE V
Human KDR VEGF Receptor-Hairpin Ribozyme and Substrate Sequences
Pos	Substrate	Seq ID No	Hairpin Ribozyme Sequence	Seq ID No
11	AGGUGCU GCU GGCCGUCG	2166	CGACGGCC AGAA GCACCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6322
18	GCUGGCC GUC GCCCUGUG	2167	CACAGGGC AGAA GCCAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6323
51	CCGGGCC GCC UCUGUGGG	2168	CCCACAGA AGAA GCCCGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6324
86	UUGAUCU GCC CAGGCUCA	2169	UGAGCCUG AGAA GAUCAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6325
318	GGAAACU GAC UUGGCCUC	2170	GAGGCCAA AGAA GUUUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6326
358	GAUUACA GAU CUCCAUUU	2171	AAAUGGAG AGAA GUAAUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6327
510	UGUUCCU GAU GGUAACAG	2172	CUGUUACC AGAA GGAACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6328
623	GUUACCA GUC UAUUAUGU	2173	ACAUAAUA AGAA GGUAAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6329
683	UGAGUCC GUC UCAUGGAA	2174	UUCCAUGA AGAA GACUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6330
705	ACUAUCU GUU GGAGAAAA	2175	UUUUCUCC AGAA GAUAGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6331
833	AAACCCA GUC UGGGAGUG	2176	CACUCCCA AGAA GGGUUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6332
932	GUGGGCU GAU GACCAAGA	2177	UCUUGGUC AGAA GCCCAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6333
1142	AUGUACU GAC GAUUAUGG	2178	CCAUAAUC AGAA GUACAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6334
1259	CACCCCA GAU UGGUGAGA	2179	UCUCACCA AGAA GGGGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6335
1332	AUGUACG GUC UAUGCCAU	2180	AUGGCAUA AGAA GUACAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6336
1376	AUUGGCA GUU GGAGGAAG	2181	CUUCCUCC AGAA GCCAAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6337
1413	CCAAGCU GUC UCAGUGAC	2182	GUCACUGA AGAA GCUUGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6338
1569	UGUGUCA GCU UUGUACAA	2183	UUGUACAA AGAA GACACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6339
1673	ACAUGCA GCC CACUGAGC	2184	GCUCAGUG AGAA GCAUGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6340
1717	GCAGACA GAU CUACGUUU	2185	AAACGUAG AGAA GUCUGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6341
1760	GCCCACA GCC UCUGCCAA	2186	UUGGCAGA AGAA GUGGGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6342
1797	CACACCU GUU UGCAAGAA	2187	UUCUUGCA AGAA GGUGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6343
1918	UAUGUCU GCC UUGCUCAA	2188	UUGAGCAA AGAA GACAUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6344
1967	UCAGGCA GCU CACAGUCC	2189	GGACUGUG AGAA GCCUGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6345
1974	GCUCACA GUC CUAGAGCG	2190	CGCUCUAG AGAA GUGAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6346
2021	AGAAUCA GAC GACAAGUA	2191	UACUUGUC AGAA GAUUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6347
2084	CUCCACA GAU CAUGUGGU	2192	ACCACAUG AGAA GUGGAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6348
2418	GGAUCCA GAU GAACUCCC	2193	GGGAGUUC AGAA GGAUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6349
2453	AACGACU GCC UUAUGAUG	2194	CAUCAUAA AGAA GUCGUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6350
2492	GAGACCG GCU GAACCUAG	2195	CUAGGUUC AGAA GGUCUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6351
2547	UGAAGCA GAU GCCUUUGG	2196	CCAAAGGC AGAA GCUUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6352
2765	GAAACCU GUC CACUUACC	2197	GGUAAGUG AGAA GGUUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6353
2914	UCAGCCA GCU CUGGAUUU	2198	AAAUCCAG AGAA GGCUGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6354
2993	ACUUCCU GAC CUUGGAGC	2199	GCUCCAAG AGAA GGAAGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6355
3019	UGUUACA GCU UCCAAGUG	2200	CACUUGGA AGAA GUAACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6356
3165	AGAUCCA GAU UAUGUCAG	2201	CUGACAUA AGAA GGAUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6357
3378	GGCCCCU GAU UAUACUAC	2202	GUAGUAUA AGAA GGGGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6358
3404	UGUACCA GAC CAUGCUGG	2203	CCAGCAUG AGAA GGUACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6359
3418	CUGGACU GCU GGCACGGG	2204	CCCGUGCC AGAA GUCCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6360
3575	UCUCUCU GCC UACCUCAC	2205	GUGAGGUA AGAA GAGAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6361
3588	CUCACCU GUU UCCUGUAU	2206	AUACAGGA AGAA GGUGAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6362
3689	AGAGCCG GCC UGUGAGUG	2207	CACUCACA AGAA GGCUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6363
3753	AAUCCCA GAU GACAACCA	2208	UGGUUGUC AGAA GGGAUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6364
3764	ACAACCA GAC GGACAGUG	2209	CACUGUCC AGAA GGUUGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6365
3911	GCUACCA GUC CGGAUAUC	2210	GAUAUCCG AGAA GGUAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6366
3927	UCACUCC GAU GACACAGA	2211	UCUGUGUC AGAA GAGUGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6367
4011	UAGCACA GCC CAGAUUCU	2212	AGAAUCUG AGAA GUGCUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6368
4016	CAGCCCA GAU UCUCCAGC	2213	GCUGGAGA AGAA GGGCUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6369
4025	UUCUCCA GCC UGACACGG	2214	CCGUGUCA AGAA GGAGAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6370
4059	UCCUCCU GUU UAAAAGGA	2215	UCCUUUUA AGAA GGAGGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6371
4111	GAGGUCU GCU CAGAUUUU	2216	AAAAUCUG AGAA GACCUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6372
4116	CUGCUCA GAU UUUGAAGU	2217	ACUUCAAA AGAA GAGCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6373
4195	GACCUCG GAC UGCAGGGA	2218	UCCCUGCA AGAA GAGGUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6374
4210	GGAGCCA GCU CUUCUAGG	2219	CCUAGAAG AGAA GGCUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6375

TABLE VI
Mouse flk-1 VEGF Receptor-Hammerhead Ribozyme and Substrate Sequence
		Seq		Seq
		ID		ID
Pos	Substrate	No	HH Ribozyme Sequence	No
13	GGGCGAAUU GGGUACGG	2220	CCGUACCC CUGAUGAGGNNNNNNNNCCGAA AUUCGCCC	6376
18	AAUUGGGUA CGGGACCC	2221	GGGUCCCG CUGAUGAGGNNNNNNNNCCGAA ACCCAAUU	6377
31	ACCCCCCUC GAGGUCGA	2222	UGGACCUC CUGAUGAGGNNNNNNNNCCGAA AGGGGGGU	6378
37	CUCGAGGUC GACGGUAU	2223	AUACCGUC CUGAUGAGGNNNNNNNNCCGAA ACCUCGAG	6379
44	UCGACGGUA UCGAUAAG	2224	CUUAUCGA CUGAUGAGGNNNNNNNNCCGAA ACCGUCGA	6380
46	GACGGUAUC GAUAAGCU	2225	AGCUUAUC CUGAUGAGGNNNNNNNNCCGAA AUACCGUC	6381
50	GUAUCGAUA AGCUUGAU	2226	AUCAAGCU CUGAUGAGGNNNNNNNNCCGAA AUCGAUAC	6382
55	GAUAAGCUU GAUAUCGA	2227	UCGAUAUC CUGAUGAGGNNNNNNNNCCGAA AGCUUAUC	6383
59	AGCUUGAUA UCGAAUUC	2228	GAAUUCGA CUGAUGAGGNNNNNNNNCCGAA AUCAAGCU	6384
61	CUUGAUAUC GAAUUCGG	2229	CCGAAUUC CUGAUGAGGNNNNNNNNCCGAA AUAUCAAG	6385
66	UAUCGAAUU CGGGCCCA	2230	UGGGCCCG CUGAUGAGGNNNNNNNNCCGAA AUUCGAUA	6386
67	AUCGAAUUC GGGCCCAG	2231	CUGGGCCC CUGAUGAGGNNNNNNNNCCGAA AAUUCGAU	6387
83	GACUGUGUC CCGCAGCC	2232	GGCUGCGG CUGAUGAGGNNNNNNNNCCGAA ACACAGUC	6388
97	GCCGGGAUA ACCUGGCU	2233	AGCCAGGU CUGAUGAGGNNNNNNNNCCGAA AUCCCGGC	6389
114	GACCCGAUU CCGCGGAC	2234	GUCCGCGG CUGAUGAGGNNNNNNNNCCGAA AUCGGGUC	6390
115	ACCCGAUUC CGCGGACA	2235	UGUCCGCG CUGAUGAGGNNNNNNNNCCGAA AAUCGGGU	6391
169	CCCGCGCUC UCCCCGGU	2236	ACCGGGGA CUGAUGAGGNNNNNNNNCCGAA AGCGCGGG	6392
171	CGCGCUCUC CCCGGUCU	2237	AGACCGGG CUGAUGAGGNNNNNNNNCCGAA AGAGCGCG	6393
178	UCCCCGGUC UUGCGCUG	2238	CAGCGCAA CUGAUGAGGNNNNNNNNCCGAA ACCGGGGA	6394
180	CCCGGUCUU GCGCUGCG	2239	CGCAGCGC CUGAUGAGGNNNNNNNNCCGAA AGACCGGG	6395
197	GGGGCCAUA CCGCCUCU	2240	AGAGGCGG CUGAUGAGGNNNNNNNNCCGAA AUGGCCCC	6396
204	UACCGCCUC UGUGACUU	2241	AAGUCACA CUGAUGAGGNNNNNNNNCCGAA AGGCGGUA	6397
212	CUGUGACUU CUUUGCGG	2242	CCGCAAAG CUGAUGAGGNNNNNNNNCCGAA AGUCACAG	6398
213	UGUGACUUC UUUGCGGG	2243	CCCGCAAA CUGAUGAGGNNNNNNNNCCGAA AAGUCACA	6399
215	UGACUUCUU UGCGGGCC	2244	GGCCCGCA CUGAUGAGGNNNNNNNNCCGAA AGAAGUCA	6400
216	GACUUCUUU GCGGGCCA	2245	UGGCCCGC CUGAUGAGGNNNNNNNNCCGAA AAGAAGUC	6401
241	GAAGGAGUC UGUGCCUG	2246	CAGGCACA CUGAUGAGGNNNNNNNNCCGAA ACUCCUUC	6402
262	ACUGGGCUC UGUGCCCA	2247	UGGGCACA CUGAUGAGGNNNNNNNNCCGAA AGCCCAGU	6403
306	GCGCUGCUA GCUGUCGC	2248	GCGACAGC CUGAUGAGGNNNNNNNNCCGAA AGCAGCGC	6404
312	CUAGCUGUC GCUCUGUG	2249	CACAGAGC CUGAUGAGGNNNNNNNNCCGAA ACAGCUAG	6405
316	CUGUCGCUC UGUGGUUC	2250	GAACCACA CUGAUGAGGNNNNNNNNCCGAA AGCGACAG	6406
323	UCUGUGGUU CUGCGUGG	2251	CCACGCAG CUGAUGAGGNNNNNNNNCCGAA ACCACAGA	6407
324	CUGUGGUUC UGCGUGGA	2252	UCCACGCA CUGAUGAGGNNNNNNNNCCGAA AACCACAG	6408
347	AGCCGCCUC UGUGGGUU	2253	AACCCACA CUGAUGAGGNNNNNNNNCCGAA AGGCGGCU	6409
355	CUGUGGGUU UGACUGGC	2254	GCCAGUCA CUGAUGAGGNNNNNNNNCCGAA ACCCACAG	6410
356	UGUGGGUUU GACUGGCG	2255	CGCCAGUC CUGAUGAGGNNNNNNNNCCGAA AACCCACA	6411
367	CUGGCGAUU UUCUCCAU	2256	AUGGAGAA CUGAUGAGGNNNNNNNNCCGAA AUCGCCAG	6412
368	UGGCGAUUU UCUCCAUC	2257	GAUGGAGA CUGAUGAGGNNNNNNNNCCGAA AAUCGCCA	6413
369	GGCGAUUUU CUCCAUCC	2258	GGAUGGAG CUGAUGAGGNNNNNNNNCCGAA AAAUCGCC	6414
370	GCGAUUUUC UCCAUCCC	2259	GGGAUGGA CUGAUGAGGNNNNNNNNCCGAA AAAAUCGC	6415
372	GAUUUUCUC CAUCCCCC	2260	GGGGGAUG CUGAUGAGGNNNNNNNNCCGAA AGAAAAUC	6416
376	UUCUCCAUC CCCCCAAG	2261	CUUGGGGG CUGAUGAGGNNNNNNNNCCGAA AUGGAGAA	6417
387	CCCAAGCUC AGGACACA	2262	UGUGUGCU CUGAUGAGGNNNNNNNNCCGAA AGCUUGGG	6418
405	AAAGACAUA CUGACAAU	2263	AUUGUCAG CUGAUGAGGNNNNNNNNCCGAA AUGUCUUU	6419
414	CUGACAAUU UUGGCAAA	2264	UUUGCCAA CUGAUGAGGNNNNNNNNCCGAA AUUGUCAG	6420
415	UGACAAUUU UGGCAAAU	2265	AUUUGCCA CUGAUGAGGNNNNNNNNCCGAA AAUUGUCA	6421
416	GACAAUUUU GGCAAAUA	2266	UAUUUGCC CUGAUGAGGNNNNNNNNCCGAA AAAUUGUC	6422
424	UGGCAAAUA CAACCCUU	2267	AAGGGUUG CUGAUGAGGNNNNNNNNCCGAA AUUUGCCA	6423
432	ACAACCCUU CAGAUUAC	2268	GUAAUCUG CUGAUGAGGNNNNNNNNCCGAA AGGGUUGU	6424
433	CAACCCUUC AGAUUACU	2269	AGUAAUCU CUGAUGAGGNNNNNNNNCCGAA AAGGGUUG	6425
438	CUUCAGAUU ACUUGCAG	2270	CUGCAAGU CUGAUGAGGNNNNNNNNCCGAA AUCUGAAG	6426
439	UUCAGAUUA CUUGCAGG	2271	CCUGCAAG CUGAUGAGGNNNNNNNNCCGAA AAUCUGAA	6427
442	AGAUUACUU GCAGGGGA	2272	UCCCCUGC CUGAUGAGGNNNNNNNNCCGAA AGUAAUCU	6428
471	GACUGGCUU UGGCCCAA	1534	UUGGGCCA CUGAUGAGGNNNNNNNNCCGAA AGCCAGUC	5690
472	ACUGGCUUU GGCCCAAU	1535	AUUGGGCC CUGAUGAGGNNNNNNNNCCGAA AAGCCAGU	5691
484	CCAAUGCUC AGCGUGAU	2273	AUCACGCU CUGAUGAGGNNNNNNNNCCGAA AGCAUUGG	6429
493	AGCGUGAUU CUGAGGAA	2274	UUCCUCAG CUGAUGAGGNNNNNNNNCCGAA AUCACGCU	6430
494	GCGUGAUUC UGAGGAAA	2275	UUUCCUCA CUGAUGAGGNNNNNNNNCCGAA AAUCACGC	6431
507	GAAAGGGUA UUGGUGAC	2276	GUCACCAA CUGAUGAGGNNNNNNNNCCGAA ACCCUUUC	6432
509	AAGGGUAUU GGUGACUG	2277	CAGUCACC CUGAUGAGGNNNNNNNNCCGAA AUACCCUU	6433
538	GUGACAGUA UCUUCUGC	2278	GCAGAAGA CUGAUGAGGNNNNNNNNCCGAA ACUGUCAC	6434
540	GACAGUAUC UUCUGCAA	2279	UUGCAGAA CUGAUGAGGNNNNNNNNCCGAA AUACUGUC	6435
542	CAGUAUCUU CUGCAAAA	2280	UUUUGCAG CUGAUGAGGNNNNNNNNCCGAA AGAUACUG	6436
543	AGUAUCUUC UGCAAAAC	2281	GUUUUGCA CUGAUGAGGNNNNNNNNCCGAA AAGAUACU	6437
555	AAAACACUC ACCAUUCC	2282	GGAAUGGU CUGAUGAGGNNNNNNNNCCGAA AGUGUUUU	6438
561	CUCACCAUU CCCAGGGU	2283	ACCCUGGG CUGAUGAGGNNNNNNNNCCGAA AUGGUGAG	6439
562	UCACCAUUC CCAGGGUG	2284	CACCCUGG CUGAUGAGGNNNNNNNNCCGAA AAUGGUGA	6440
573	AGGGUGGUU GGAAAUGA	2285	UCAUUUCC CUGAUGAGGNNNNNNNNCCGAA ACCACCCU	6441
583	GAAAUGAUA CUGGAGCC	2286	GGCUCCAG CUGAUGAGGNNNNNNNNCCGAA AUCAUUUC	6442
593	UGGAGCCUA CAAGUGCU	1546	AGCACUUG CUGAUGAGGNNNNNNNNCCGAA AGGCUCCA	5702
602	CAAGUGCUC GUACCGGG	2287	CCCGGUAC CUGAUGAGGNNNNNNNNCCGAA AGCACUUG	6443
605	GUGCUCGUA CCGGGACG	2288	CGUCCCGG CUGAUGAGGNNNNNNNNCCGAA ACGAGCAC	6444
615	CGGGACGUC GACAUAGC	2289	GCUAUGUC CUGAUGAGGNNNNNNNNCCGAA ACGUCCCG	6445
621	GUCGACAUA GCCUCCAC	2290	GUGGAGGC CUGAUGAGGNNNNNNNNCCGAA AUGUCGAC	6446
626	CAUAGCCUC CACUGUUU	2291	AAACAGUG CUGAUGAGGNNNNNNNNCCGAA AGGCUAUG	6447
633	UCCACUGUU UAUGUCUA	2292	UAGACAUA CUGAUGAGGNNNNNNNNCCGAA ACAGUGGA	6448
634	CCACUGUUU AUGUCUAU	2293	AUAGACAU CUGAUGAGGNNNNNNNNCCGAA AACAGUGG	6449
635	CACUGUUUA UGUCUAUG	2294	CAUAGACA CUGAUGAGGNNNNNNNNCCGAA AAACAGUG	6450
639	GUUUAUGUC UAUGUUCG	2295	CGAACAUA CUGAUGAGGNNNNNNNNCCGAA ACAUAAAC	6451
641	UUAUGUCUA UGUUCGAG	2296	CUCGAACA CUGAUGAGGNNNNNNNNCCGAA AGACAUAA	6452
645	GUCUAUGUU CGAGAUUA	2297	UAAUCUCG CUGAUGAGGNNNNNNNNCCGAA ACAUAGAC	6453
646	UCUAUGUUC GAGAUUAC	2298	GUAAUCUC CUGAUGAGGNNNNNNNNCCGAA AACAUAGA	6454
652	UUCGAGAUU ACAGAUCA	2299	UGAUCUGU CUGAUGAGGNNNNNNNNCCGAA AUCUCGAA	6455
653	UCGAGAUUA CAGAUCAC	2300	GUGAUCUG CUGAUGAGGNNNNNNNNCCGAA AAUCUCGA	6456
659	UUACAGAUC ACCAUUCA	2301	UGAAUGGU CUGAUGAGGNNNNNNNNCCGAA AUCUGUAA	6457
665	AUCACCAUU CAUCGCCU	2302	AGGCGAUG CUGAUGAGGNNNNNNNNCCGAA AUGGUGAU	6458
666	UCACCAUUC AUCGCCUC	2303	GAGGCGAU CUGAUGAGGNNNNNNNNCCGAA AAUGGUGA	6459
669	CCAUUCAUC GCCUCUGU	2304	ACAGAGGC CUGAUGAGGNNNNNNNNCCGAA AUGAAUGG	6460
674	CAUCGCCUC UGUCAGUG	2305	CACUGACA CUGAUGAGGNNNNNNNNCCGAA AGGCGAUG	6461
678	GCCUCUGUC AGUGACCA	2306	UGGUCACU CUGAUGAGGNNNNNNNNCCGAA ACAGAGGC	6462
696	CAUGGCAUC GUGUACAU	2307	AUGUACAC CUGAUGAGGNNNNNNNNCCGAA AUGCCAUG	6463
701	CAUCGUGUA CAUCACCG	2308	CGGUGAUG CUGAUGAGGNNNNNNNNCCGAA ACACGAUG	6464
705	GUGUACAUC ACCGAGAA	2309	UUCUCGGU CUGAUGAGGNNNNNNNNCCGAA AUGUACAC	6465
735	GUGGUGAUC CCCUGCCG	2310	CGGCAGGG CUGAUGAGGNNNNNNNNCCGAA AUCACCAC	6466
749	CCGAGGGUC GAUUUCAA	2311	UUGAAAUC CUGAUGAGGNNNNNNNNCCGAA ACCCUCGG	6467
753	GGGUCGAUU UCAAACCU	2312	AGGUUUGA CUGAUGAGGNNNNNNNNCCGAA AUCGACCC	6468
754	GGUCGAUUU CAAACCUC	2313	GAGGUUUG CUGAUGAGGNNNNNNNNCCGAA AAUCGACC	6469
755	GUCGAUUUC AAACCUCA	2314	UGAGGUUU CUGAUGAGGNNNNNNNNCCGAA AAAUCGAC	6470
762	UCAAACCUC AAUGUGUC	2315	GACACAUU CUGAUGAGGNNNNNNNNCCGAA AGGUUUGA	6471
770	CAAUGUGUC UCUUUGCG	2316	CGCAAAGA CUGAUGAGGNNNNNNNNCCGAA ACACAUUG	6472
772	AUGUGUCUC UUUGCGCU	2317	AGCGCAAA CUGAUGAGGNNNNNNNNCCGAA AGACACAU	6473
774	GUGUCUCUU UGCGCUAG	2318	CUAGCGCA CUGAUGAGGNNNNNNNNCCGAA AGAGACAC	6474
775	UGUCUCUUU GCGCUAGG	2319	CCUAGCGC CUGAUGAGGNNNNNNNNCCGAA AAGAGACA	6475
781	UUUGCGCUA GGUAUCCA	2320	UGGAUACC CUGAUGAGGNNNNNNNNCCGAA AGCGCAAA	6476
785	CGCUAGGUA UCCAGAAA	2321	UUUCUGGA CUGAUGAGGNNNNNNNNCCGAA ACCUAGCG	6477
787	CUAGGUAUC CAGAAAAG	2322	CUUUUCUG CUGAUGAGGNNNNNNNNCCGAA AUACCUAG	6478
800	AAAGAGAUU UGUUCCGG	2323	CCGGAACA CUGAUGAGGNNNNNNNNCCGAA AUCUCUUU	6479
801	AAGAGAUUU GUUCCGGA	2324	UCCGGAAC CUGAUGAGGNNNNNNNNCCGAA AAUCUCUU	6480
804	AGAUUUGUU CCGGAUGG	2325	CCAUCCGG CUGAUGAGGNNNNNNNNCCGAA ACAAAUCU	6481
805	GAUUUGUUC CGGAUGGA	2326	UCCAUCCG CUGAUGAGGNNNNNNNNCCGAA AACAAAUC	6482
822	AACAGAAUU UCCUGGGA	1595	UCCCAGGA CUGAUGAGGNNNNNNNNCCGAA AUUCUGUU	5751
823	ACAGAAUUU CCUGGGAC	1596	GUCCCAGG CUGAUGAGGNNNNNNNNCCGAA AAUUCUGU	5752
824	CAGAAUUUC CUGGGACA	1597	UGUCCCAG CUGAUGAGGNNNNNNNNCCGAA AAAUUCUG	5753
840	AGCGAGAUA GGCUUUAC	2327	GUAAAGCC CUGAUGAGGNNNNNNNNCCGAA AUCUCGCU	6483
845	GAUAGGCUU UACUCUCC	2328	GGAGAGUA CUGAUGAGGNNNNNNNNCCGAA AGCCUAUC	6484
846	AUAGGCUUU ACUCUCCC	2329	GGGAGAGU CUGAUGAGGNNNNNNNNCCGAA AAGCCUAU	6485
847	UAGGCUUUA CUCUCCCC	2330	GGGGAGAG CUGAUGAGGNNNNNNNNCCGAA AAAGCCUA	6486
850	GCUUUACUC UCCCCAGU	2331	ACUGGGGA CUGAUGAGGNNNNNNNNCCGAA AGUAAAGC	6487
852	UUUACUCUC CCCAGUUA	2332	UAACUGGG CUGAUGAGGNNNNNNNNCCGAA AGAGUAAA	6488
859	UCCCCAGUU ACAUGAUC	2333	GAUCAUGU CUGAUGAGGNNNNNNNNCCGAA ACUGGGGA	6489
860	CCCCAGUUA CAUGAUCA	2334	UGAUCAUG CUGAUGAGGNNNNNNNNCCGAA AACUGGGG	6490
867	UACAUGAUC AGCUAUGC	1605	GCAUAGCU CUGAUGAGGNNNNNNNNCCGAA AUCAUGUA	5761
872	GAUCAGCUA UGCCGGCA	2335	UGCCGGCA CUGAUGAGGNNNNNNNNCCGAA AGCUGAUC	6491
885	GGCAUGGUC UUCUGUGA	1607	UCACAGAA CUGAUGAGGNNNNNNNNCCGAA ACCAUGCC	5763
887	CAUGGUCUU CUGUGAGG	2336	CCUCACAG CUGAUGAGGNNNNNNNNCCGAA AGACCAUG	6492
888	AUGGUCUUC UGUGAGGC	2337	GCCUCACA CUGAUGAGGNNNNNNNNCCGAA AAGACCAU	6493
903	GCAAAGAUC AAUGAUGA	2338	UCAUCAUU CUGAUGAGGNNNNNNNNCCGAA AUCUUUGC	6494
917	UGAAACCUA UCAGUCUA	2339	UAGACUGA CUGAUGAGGNNNNNNNNCCGAA AGGUUUCA	6495
919	AAACCUAUC AGUCUAUC	2340	GAUAGACU CUGAUGAGGNNNNNNNNCCGAA AUAGGUUU	6496
923	CUAUCAGUC UAUCAUGU	2341	ACAUGAUA CUGAUGAGGNNNNNNNNCCGAA ACUGAUAG	6497
925	AUCAGUCUA UCAUGUAC	2342	GUACAUGA CUGAUGAGGNNNNNNNNCCGAA AGACUGAU	6498
927	CAGUCUAUC AUGUACAU	2343	AUGUACAU CUGAUGAGGNNNNNNNNCCGAA AUAGACUG	5772
932	UAUCAUGUA CAUAGUUG	2344	CAACUAUG CUGAUGAGGNNNNNNNNCCGAA ACAUGAUA	6499
936	AUGUACAUA GUUGUGGU	2345	ACCACAAC CUGAUGAGGNNNNNNNNCCGAA AUGUACAU	6500
939	UACAUAGUU GUGGUUGU	2346	ACAACCAC CUGAUGAGGNNNNNNNNCCGAA ACUAUGUA	6501
945	GUUGUGGUU GUAGGAUA	2347	UAUCCUAC CUGAUGAGGNNNNNNNNCCGAA ACCACAAC	6502
948	GUGGUUGUA GGAUAUAG	2348	CUAUAUCC CUGAUGAGGNNNNNNNNCCGAA ACAACCAC	6503
953	UGUAGGAUA UAGGAUUU	2349	AAAUCCUA CUGAUGAGGNNNNNNNNCCGAA AUCCUACA	6504
955	UAGGAUAUA GGAUUUAU	2350	AUAAAUCC CUGAUGAGGNNNNNNNNCCGAA AUAUCCUA	6505
960	UAUAGGAUU UAUGAUGU	1626	ACAUCAUA CUGAUGAGGNNNNNNNNCCGAA AUCCUAUA	5782
961	AUAGGAUUU AUGAUGUG	1627	CACAUCAU CUGAUGAGGNNNNNNNNCCGAA AAUCCUAU	5783
962	UAGGAUUUA UGAUGUGA	2351	UCACAUCA CUGAUGAGGNNNNNNNNCCGAA AAAUCCUA	6506
972	GAUGUGAUU CUGAGCCC	2352	GGGCUCAG CUGAUGAGGNNNNNNNNCCGAA AUCACAUC	6507
973	AUGUGAUUC UGAGCCCC	2353	GGGGCUCA CUGAUGAGGNNNNNNNNCCGAA AAUCACAU	6508
993	CAUGAAAUU GAGCUAUC	2354	GAUAGCUC CUGAUGAGGNNNNNNNNCCGAA AUUUCAUG	6509
999	AUUGAGCUA UCUGCCGG	2355	CCGGCAGA CUGAUGAGGNNNNNNNNCCGAA AGCUCAAU	6510
1001	UGAGCUAUC UGCCGGAG	2356	CUCCGGCA CUGAUGAGGNNNNNNNNCCGAA AUAGCUCA	6511
1017	GAAAAACUU GUCUUAAA	2357	UUUAAGAC CUGAUGAGGNNNNNNNNCCGAA AGUUUUUC	6512
1020	AAACUUGUC UUAAAUUG	2358	CAAUUUAA CUGAUGAGGNNNNNNNNCCGAA ACAAGUUU	6513
1022	ACUUGUCUU AAAUUGUA	2359	UACAAUUU CUGAUGAGGNNNNNNNNCCGAA AGACAAGU	6514
1023	CUUGUCUUA AAUUGUAC	1641	GUACAAUU CUGAUGAGGNNNNNNNNCCGAA AAGACAAG	5797
1027	UCUUAAAUU GUACAGCG	2360	CGCUGUAC CUGAUGAGGNNNNNNNNCCGAA AUUUAAGA	6515
1030	UAAAUUGUA CAGCGAGA	2361	UCUCGCUG CUGAUGAGGNNNNNNNNCCGAA ACAAUUUA	6516
1047	ACAGAGCUC AAUGUGGG	2362	CCCACAUU CUGAUGAGGNNNNNNNNCCGAA AGCUCUGU	6517
1059	GUGGGGCUU GAUUUCAC	2363	GUGAAAUC CUGAUGAGGNNNNNNNNCCGAA AGCCCCAC	6518
1063	GGCUUGAUU UCACCUGG	2364	CCAGGUGA CUGAUGAGGNNNNNNNNCCGAA AUCAAGCC	6519
1064	GCUUGAUUU CACCUGGC	2365	GCCAGGUG CUGAUGAGGNNNNNNNNCCGAA AAUCAAGC	6520
1065	CUUGAUUUC ACCUGGCA	2366	UGCCAGGU CUGAUGAGGNNNNNNNNCCGAA AAAUCAAG	6521
1076	CUGGCACUC UCCACCUU	2367	AAGGUGGA CUGAUGAGGNNNNNNNNCCGAA AGUGCCAG	6522
1078	GGCACUCUC CACCUUCA	2368	UGAAGGUG CUGAUGAGGNNNNNNNNCCGAA AGAGUGCC	6523
1084	CUCCACCUU CAAAGUCU	2369	AGACUUUG CUGAUGAGGNNNNNNNNCCGAA AGGUGGAG	6524
1085	UCCACCUUC AAAGUCUC	2370	GAGACUUU CUGAUGAGGNNNNNNNNCCGAA AAGGUGGA	6525
1091	UUCAAAGUC UCAUCAUA	2371	UAUGAUGA CUGAUGAGGNNNNNNNNCCGAA ACUUUGAA	6526
1093	CAAAGUCUC AUCAUAAG	2372	CUUAUGAU CUGAUGAGGNNNNNNNNCCGAA AGACUUUG	6527
1096	AGUCUCAUC AUAAGAAG	2373	CUUCUUAU CUGAUGAGGNNNNNNNNCCGAA AUGAGACU	6528
1099	CUCAUCAUA AGAAGAUU	2374	AAUCUUCU CUGAUGAGGNNNNNNNNCCGAA AUGAUGAG	6529
1107	AAGAAGAUU GUAAACCG	2375	CGGUUUAC CUGAUGAGGNNNNNNNNCCGAA AUCUUCUU	6530
1110	AAGAUUGUA AACCGGGA	2376	UCCCGGUU CUGAUGAGGNNNNNNNNCCGAA ACAAUCUU	6531
1130	GAAACCCUU UCCUGGGA	2377	UCCCAGGA CUGAUGAGGNNNNNNNNCCGAA AGGGUUUC	6532
1131	AAACCCUUU CCUGGGAC	2378	GUCCCAGG CUGAUGAGGNNNNNNNNCCGAA AAGGGUUU	6533
1132	AACCCUUUC CUGGGACU	2379	AGUCCCAG CUGAUGAGGNNNNNNNNCCGAA AAAGGGUU	6534
1154	GAAGAUGUU UUUGAGCA	2380	UGCUCAAA CUGAUGAGGNNNNNNNNCCGAA ACAUCUUC	6535
1155	AAGAUGUUU UUGAGCAC	2381	GUGCUCAA CUGAUGAGGNNNNNNNNCCGAA AACAUCUU	6536
1156	AGAUGUUUU UGAGCACC	2382	GGUGCUCA CUGAUGAGGNNNNNNNNCCGAA AAACAUCU	6537
1157	GAUGUUUUU GAGCACCU	2383	AGGUGCUC CUGAUGAGGNNNNNNNNCCGAA AAAACAUC	6538
1166	GAGCACCUU GACAAUAG	2384	CUAUUGUC CUGAUGAGGNNNNNNNNCCGAA AGGUGCUC	6539
1173	UUGACAAUA GAAAGUGU	2385	ACACUUUC CUGAUGAGGNNNNNNNNCCGAA AUUGUCAA	6540
1205	AGGGGAAUA CACCUGUG	2386	CACAGGUG CUGAUGAGGNNNNNNNNCCGAA AUUCCCCU	6541
1215	ACCUGUGUA GCGUCCAG	2387	CUGGACGC CUGAUGAGGNNNNNNNNCCGAA ACACAGGU	6542
1220	UGUAGCGUC CAGUGGAC	2388	GUCCACUG CUGAUGAGGNNNNNNNNCCGAA ACGCUACA	6543
1236	CGGAUGAUC AAGAGAAA	2389	UUUCUCUU CUGAUGAGGNNNNNNNNCCGAA AUCAUCCG	6544
1246	AGAGAAAUA GAACAUUU	2390	AAAUGUUC CUGAUGAGGNNNNNNNNCCGAA AUUUCUCU	6545
1253	UAGAACAUU UGUCCGAG	2391	CUCGGACA CUGAUGAGGNNNNNNNNCCGAA AUGUUCUA	6546
1254	AGAACAUUU GUCCGAGU	2392	ACUCGGAC CUGAUGAGGNNNNNNNNCCGAA AAUGUUCU	6547
1257	ACAUUUGUC CGAGUUCA	2393	UGAACUCG CUGAUGAGGNNNNNNNNCCGAA ACAAAUGU	6548
1263	GUCCGAGUU CACACAAA	2394	UUUGUGUG CUGAUGAGGNNNNNNNNCCGAA ACUCGGAC	6549
1264	UCCGAGUUC ACACAAAG	2395	CUUUGUGU CUGAUGAGGNNNNNNNNCCGAA AACUCGGA	6550
1276	CAAAGCCUU UUAUUGCU	2396	AGCAAUAA CUGAUGAGGNNNNNNNNCCGAA AGGCUUUG	6551
1277	AAAGCCUUU UAUUGCUU	2397	AAGCAAUA CUGAUGAGGNNNNNNNNCCGAA AAGGCUUU	6552
1278	AAGCCUUUU AUUGCUUU	2398	AAAGCAAU CUGAUGAGGNNNNNNNNCCGAA AAAGGCUU	6553
1279	AGCCUUUUA UUGCUUUC	2399	GAAAGCAA CUGAUGAGGNNNNNNNNCCGAA AAAAGGCU	6554
1281	CCUUUUAUU GCUUUCGG	2400	CCGAAAGC CUGAUGAGGNNNNNNNNCCGAA AUAAAAGG	6555
1285	UUAUUGCUU UCGGUAGU	2401	ACUACCGA CUGAUGAGGNNNNNNNNCCGAA AGCAAUAA	6556
1286	UAUUGCUUU CGGUAGUG	2402	CACUACCG CUGAUGAGGNNNNNNNNCCGAA AAGCAAUA	6557
1287	AUUGCUUUC GGUAGUGG	2403	CCACUACC CUGAUGAGGNNNNNNNNCCGAA AAAGCAAU	6558
1291	CUUUCGGUA GUGGGAUG	2404	CAUCCCAC CUGAUGAGGNNNNNNNNCCGAA ACCGAAAG	6559
1304	GAUGAAAUC UUUGGUGG	2405	CCACCAAA CUGAUGAGGNNNNNNNNCCGAA AUUUCAUC	6560
1306	UGAAAUCUU UGGUGGAA	2406	UUCCACCA CUGAUGAGGNNNNNNNNCCGAA AGAUUUCA	6561
1307	GAAAUCUUU GGUGGAAG	2407	CUUCCACC CUGAUGAGGNNNNNNNNCCGAA AAGAUUUC	6562
1330	UGGGCAGUC AAGUCCGA	2408	UCGGACUU CUGAUGAGGNNNNNNNNCCGAA ACUGCCCA	6563
1335	AGUCAAGUC CGAAUCCC	2409	GGGAUUCG CUGAUGAGGNNNNNNNNCCGAA ACUUGACU	6564
1341	GUCCGAAUC CCUGUGAA	2410	UUCACAGG CUGAUGAGGNNNNNNNNCCGAA AUUCGGAC	6565
1352	UGUGAAGUA UCUCAGUU	2411	AACUGAGA CUGAUGAGGNNNNNNNNCCGAA ACUUCACA	6566
1354	UGAAGUAUC UCAGUUAC	2412	GUAACUGA CUGAUGAGGNNNNNNNNCCGAA AUACUUCA	6567
1356	AAGUAUCUC AGUUACCC	2413	GGGUAACU CUGAUGAGGNNNNNNNNCCGAA AGAUACUU	6568
1360	AUCUCAGUU ACCCAGCU	2414	AGCUGGGU CUGAUGAGGNNNNNNNNCCGAA ACUGAGAU	6569
1361	UCUCAGUUA CCCAGCUC	2415	GAGCUGGG CUGAUGAGGNNNNNNNNCCGAA AACUGAGA	6570
1369	ACCCAGCUC CUGAUAUC	2416	GAUAUCAG CUGAUGAGGNNNNNNNNCCGAA AGCUGGGU	6571
1375	CUCCUGAUA UCAAAUGG	2417	CCAUUUGA CUGAUGAGGNNNNNNNNCCGAA AUCAGGAG	6572
1377	CCUGAUAUC AAAUGGUA	2418	UACCAUUU CUGAUGAGGNNNNNNNNCCGAA AUAUCAGG	6573
1385	CAAAUGGUA CAGAAAUG	2419	CAUUUCUG CUGAUGAGGNNNNNNNNCCGAA ACCAUUUG	6574
1404	AGGCCCAUU GAGUCCAA	2420	UUGGACUC CUGAUGAGGNNNNNNNNCCGAA AUGGGCCU	6575
1409	CAUUGAGUC CAACUACA	2421	UGUAGUUG CUGAUGAGGNNNNNNNNCCGAA ACUCAAUG	6576
1415	GUCCAACUA CACAAUGA	2422	UCAUUGUG CUGAUGAGGNNNNNNNNCCGAA AGUUGGAC	6577
1425	ACAAUGAUU GUUGGCGA	2423	UCGCCAAC CUGAUGAGGNNNNNNNNCCGAA AUCAUUGU	6578
1428	AUGAUUGUU GGCGAUGA	2424	UCAUCGCC CUGAUGAGGNNNNNNNNCCGAA ACAAUCAU	6579
1440	GAUGAACUC ACCAUCAU	2425	AUGAUGGU CUGAUGAGGNNNNNNNNCCGAA AGUUCAUC	6580
1446	CUCACCAUC AUGGAAGU	2426	ACUUCCAU CUGAUGAGGNNNNNNNNCCGAA AUGGUGAG	6581
1478	AGGAAACUA CACGGUCA	2427	UGACCGUG CUGAUGAGGNNNNNNNNCCGAA AGUUUCCU	6582
1485	UACACGGUC AUCCUCAC	2428	GUGAGGAU CUGAUGAGGNNNNNNNNCCGAA ACCGUGUA	6583
1488	ACGGUCAUC CUCACCAA	2429	UUGGUGAG CUGAUGAGGNNNNNNNNCCGAA AUGACCGU	6584
1491	GUCAUCCUC ACCAACCC	2430	GGGUUGGU CUGAUGAGGNNNNNNNNCCGAA AGGAUGAC	6585
1503	AACCCCAUU UCAAUGGA	2431	UCCAUUGA CUGAUGAGGNNNNNNNNCCGAA AUGGGGUU	6586
1504	ACCCCAUUU CAAUGGAG	2432	CUCCAUUG CUGAUGAGGNNNNNNNNCCGAA AAUGGGGU	6587
1505	CCCCAUUUC AAUGGAGA	2433	UCUCCAUU CUGAUGAGGNNNNNNNNCCGAA AAAUGGGG	6588
1530	CACAUGGUC UCUCUGGU	2434	ACCAGAGA CUGAUGAGGNNNNNNNNCCGAA ACCAUGUG	6589
1532	CAUGGUCUC UCUGGUUG	2435	CAACCAGA CUGAUGAGGNNNNNNNNCCGAA AGACCAUG	6590
1534	UGGUCUCUC UGGUUGUG	1714	CACAACCA CUGAUGAGGNNNNNNNNCCGAA AGAGACCA	5870
1539	UCUCUGGUU GUGAAUGU	2436	ACAUUCAC CUGAUGAGGNNNNNNNNCCGAA ACCAGAGA	6591
1548	GUGAAUGUC CCACCCCA	2437	UGGGGUGG CUGAUGAGGNNNNNNNNCCGAA ACAUUCAC	6592
1560	CCCCAGAUC GGUGAGAA	2438	UUCUCACC CUGAUGAGGNNNNNNNNCCGAA AUCUGGGG	5874
1574	GAAAGCCUU GAUCUCGC	2439	GCGAGAUC CUGAUGAGGNNNNNNNNCCGAA AGGCUUUC	6593
1578	GCCUUGAUC UCGCCUAU	2440	AUAGGCGA CUGAUGAGGNNNNNNNNCCGAA AUCAAGGC	6594
1580	CUUGAUCUC GCCUAUGG	2441	CCAUAGGC CUGAUGAGGNNNNNNNNCCGAA AGAUCAAG	6595
1585	UCUCGCCUA UGGAUUCC	2442	GGAAUCCA CUGAUGAGGNNNNNNNNCCGAA AGGCGAGA	6596
1591	CUAUGGAUU CCUACCAG	2443	CUGGUAGG CUGAUGAGGNNNNNNNNCCGAA AUCCAUAG	6597
1592	UAUGGAUUC CUACCAGU	2444	ACUGGUAG CUGAUGAGGNNNNNNNNCCGAA AAUCCAUA	6598
1595	GGAUUCCUA CCAGUAUG	2445	CAUACUGG CUGAUGAGGNNNNNNNNCCGAA AGGAAUCC	6599
1601	CUACCAGUA UGGGACCA	2446	UGGUCCCA CUGAUGAGGNNNNNNNNCCGAA ACUGGUAG	6600
1619	GCAGACAUU GACAUGCA	2447	UGCAUGUC CUGAUGAGGNNNNNNNNCCGAA AUGUCUGC	6601
1632	UGCACAGUC UACGCCAA	2448	UUGGCGUA CUGAUGAGGNNNNNNNNCCGAA ACUGUGCA	6602
1634	CACAGUCUA CGCCAACC	2449	GGUUGGCG CUGAUGAGGNNNNNNNNCCGAA AGACUGUG	6603
1645	CCAACCCUC CCCUGCAC	2450	GUGCAGGG CUGAUGAGGNNNNNNNNCCGAA AGGGUUGG	6604
1659	CACCACAUC CAGUGGUA	2451	UACCACUG CUGAUGAGGNNNNNNNNCCGAA AUGUGGUG	6605
1667	CCAGUGGUA CUGGCAGC	2452	GCUGCCAG CUGAUGAGGNNNNNNNNCCGAA ACCACUGG	6606
1677	UGGCAGCUA GAAGAAGC	2453	GCUUCUUC CUGAUGAGGNNNNNNNNCCGAA AGCUGCCA	6607
1691	AGCCUGCUC CUACAGAC	2454	GUCUGUAG CUGAUGAGGNNNNNNNNCCGAA AGCAGGCU	6608
1694	CUGCUCCUA CAGACCCG	2455	CGGGUCUG CUGAUGAGGNNNNNNNNCCGAA AGGAGCAG	6609
1718	AAGCCCGUA UGCUUGUA	2456	UACAAGCA CUGAUGAGGNNNNNNNNCCGAA ACGGGCUU	6610
1723	CGUAUGCUU GUAAAGAA	2457	UUCUUUAC CUGAUGAGGNNNNNNNNCCGAA AGCAUACG	6611
1726	AUGCUUGUA AAGAAUGG	2458	CCAUUCUU CUGAUGAGGNNNNNNNNCCGAA ACAAGCAU	6612
1750	UGGAGGAUU UCCAGGGG	2459	CCCCUGGA CUGAUGAGGNNNNNNNNCCGAA AUCCUCCA	6613
1751	GGAGGAUUU CCAGGGGG	2460	CCCCCUGG CUGAUGAGGNNNNNNNNCCGAA AAUCCUCC	6614
1752	GAGGAUUUC CAGGGGGG	2461	CCCCCCUG CUGAUGAGGNNNNNNNNCCGAA AAAUCCUC	6615
1770	AACAAGAUC GAAGUCAC	2462	GUGACUUC CUGAUGAGGNNNNNNNNCCGAA AUCUUGUU	6616
1776	AUCGAAGUC ACCAAAAA	2463	UUUUUGGU CUGAUGAGGNNNNNNNNCCGAA ACUUCGAU	6617
1790	AAACCAAUA UGCCCUGA	2464	UCAGGGCA CUGAUGAGGNNNNNNNNCCGAA AUUGGUUU	6618
1800	GCCCUGAUU GAAGGAAA	2465	UUUCCUUC CUGAUGAGGNNNNNNNNCCGAA AUCAGGGC	6619
1821	AAAACUGUA AGUACGCU	2466	AGCGUACU CUGAUGAGGNNNNNNNNCCGAA ACAGUUUU	6620
1825	CUGUAAGUA CGCUGGUC	2467	GACCAGCG CUGAUGAGGNNNNNNNNCCGAA ACUUACAG	6621
1833	ACGCUGGUC AUCCAAGC	2468	GCUUGGAU CUGAUGAGGNNNNNNNNCCGAA ACCAGCGU	6622
1836	CUGGUCAUC CAAGCUGC	2469	GCAGCUUG CUGAUGAGGNNNNNNNNCCGAA AUGACCAG	6623
1853	CAACGUGUC AGCGUUGU	2470	ACAACGCU CUGAUGAGGNNNNNNNNCCGAA ACACGUUG	6624
1859	GUCAGCGUU GUACAAAU	2471	AUUUGUAC CUGAUGAGGNNNNNNNNCCGAA ACGCUGAC	6625
1862	AGCGUUGUA CAAAUGUG	2472	CACAUUUG CUGAUGAGGNNNNNNNNCCGAA ACAACGCU	6626
1878	GAAGCCAUC AACAAAGC	2473	GCUUUGUU CUGAUGAGGNNNNNNNNCCGAA AUGGCUUC	6627
1905	GAGAGGGUC AUCUCCUU	2474	AAGGAGAU CUGAUGAGGNNNNNNNNCCGAA ACCCUCUC	6628
1908	AGGGUCAUC UCCUUCCA	2475	UGGAAGGA CUGAUGAGGNNNNNNNNCCGAA AUGACCCU	6629
1910	GGUCAUCUC CUUCCAUG	2476	CAUGGAAG CUGAUGAGGNNNNNNNNCCGAA AGAUGACC	6630
1913	CAUCUCCUU CCAUGUGA	2477	UCACAUGG CUGAUGAGGNNNNNNNNCCGAA AGGAGAUG	6631
1914	AUCUCCUUC CAUGUGAU	2478	AUCACAUG CUGAUGAGGNNNNNNNNCCGAA AAGGAGAU	6632
1923	CAUGUGAUC AGGGGUCC	2479	GGACCCCU CUGAUGAGGNNNNNNNNCCGAA AUCACAUG	6633
1930	UCAGGGGUC CUGAAAUU	2480	AAUUUCAG CUGAUGAGGNNNNNNNNCCGAA ACCCCUGA	6634
1938	CCUGAAAUU ACUGUGCA	2481	UGCACAGU CUGAUGAGGNNNNNNNNCCGAA AUUUCAGG	6635
1939	CUGAAAUUA CUGUGCAA	2482	UUGCACAG CUGAUGAGGNNNNNNNNCCGAA AAUUUCAG	6636
1982	GAGUGUGUC CCUGUUGU	2483	ACAACAGG CUGAUGACGNNNNNNNNCCGAA ACACACUC	6637
1988	GUCCCUGUU GUGCACUG	2484	CAGUGCAC CUGAUGAGGNNNNNNNNCCGAA ACAGGGAC	6638
2008	ACAGAAAUA CGUUUGAG	2485	CUCAAACG CUGAUGAGGNNNNNNNNCCGAA AUUUCUGU	6639
2012	AAAUACGUU UGAGAACC	2486	GGUUCUCA CUGAUGAGGNNNNNNNNCCGAA ACGUAUUU	6640
2013	AAUACGUUU GAGAACCU	2487	AGGUUCUC CUGAUGAGGNNNNNNNNCCGAA AACGUAUU	6641
2022	GAGAACCUC ACGUGGUA	2488	UACCACGU CUGAUGAGGNNNNNNNNCCGAA AGGCUCUC	6642
2030	CACGUGGUA CAAGCUUG	2489	CAAGCUUG CUGAUGAGGNNNNNNNNCCGAA ACCACGUG	6643
2037	UACAAGCUU GGCUCACA	2490	UGUGAGCC CUGAUGAGGNNNNNNNNCCGAA AGCUUGUA	6644
2042	GCUUGGCUC ACAGGCAA	2491	UUGCCUGU CUGAUGAGGNNNNNNNNCCGAA AGCCAAGC	6645
2054	GGCAACAUC GGUCCACA	2492	UGUGGACC CUGAUGAGGNNNNNNNNCCGAA AUGUUGCC	6646
2058	ACAUCGGUC CACAUGGG	2493	CCCAUGUG CUGAUGAGGNNNNNNNNCCGAA ACCGAUGU	6647
2072	GGGCGAAUC ACUCACAC	2494	GUGUGAGU CUGAUGAGGNNNNNNNNCCGAA AUUCGCCC	6648
2076	GAAUCACUC ACACCAGU	2495	ACUGGUGU CUGAUGAGGNNNNNNNNCCGAA AGUGAUUC	6649
2085	ACACCAGUU UGCAAGAA	2496	UUCUUGCA CUGAUGAGGNNNNNNNNCCGAA ACUGGUGU	6650
2086	CACCAGUUU GCAAGAAC	2497	GUUCUUGC CUGAUGAGGNNNNNNNNCCGAA AACUGGUG	6651
2096	CAAGAACUU GGAUGCUC	2498	GAGCAUCC CUGAUGAGGNNNNNNNNCCGAA AGUUCUUG	6652
2104	UGGAUGCUC UUUGGAAA	2499	UUUCCAAA CUGAUGAGGNNNNNNNNCCGAA AGCAUCCA	6653
2106	GAUGCUCUU UGGAAACU	2500	AGUUUCCA CUGAUGAGGNNNNNNNNCCGAA AGAGCAUC	6654
2107	AUGCUCUUU GGAAACUG	2501	CAGUUUCC CUGAUGAGGNNNNNNNNCCGAA AAGAGCAU	6655
2129	CACCAUGUU UUCUAACA	2502	UGUUAGAA CUGAUGAGGNNNNNNNNCCGAA ACAUGGUG	6656
2130	ACCAUGUUU UCUAACAG	2503	CUGUUAGA CUGAUGAGGNNNNNNNNCCGAA AACAUGGU	6657
2131	CCAUGUUUU CUAACAGC	2504	GCUGUUAG CUGAUGAGGNNNNNNNNCCGAA AAACAUGG	6658
2132	CAUGUUUUC UAACAGCA	2505	UGCUGUUA CUGAUGAGGNNNNNNNNCCGAA AAAACAUG	6659
2134	UGUUUUCUA ACAGCACA	2506	UGUGCUGU CUGAUGAGGNNNNNNNNCCGAA AGAAAACA	6660
2151	AAUGACAUC UUGAUUGU	2507	ACAAUCAA CUGAUGAGGNNNNNNNNCCGAA AUGUCAUU	6661
2153	UGACAUCUU GAUUGUGG	2508	CCACAAUC CUGAUGAGGNNNNNNNNCCGAA AGAUGUCA	6662
2157	AUCUUGAUU GUGGCAUU	2509	AAUGCCAC CUGAUGAGGNNNNNNNNCCGAA AUCAAGAU	6663
2165	UGUGGCAUU UCAGAAUG	2510	CAUUCUGA CUGAUGAGGNNNNNNNNCCGAA AUGCCACA	6664
2166	GUGGCAUUU CAGAAUGC	2511	GCAUUCUG CUGAUGAGGNNNNNNNNCCGAA AAUGCCAC	6665
2167	UGGCAUUUC AGAAUGCC	2512	GGCAUUCU CUGAUGAGGNNNNNNNNCCGAA AAAUGCCA	6666
2177	GAAUGCCUC UCUGCAGG	2513	CCUGCAGA CUGAUGAGGNNNNNNNNCCGAA AGGCAUUC	6667
2179	AUGCCUCUC UGCAGGAC	2514	GUCCUGCA CUGAUGAGGNNNNNNNNCCGAA AGAGGCAU	6668
2198	AGGCGACUA UGUUUGCU	2515	AGCAAACA CUGAUGAGGNNNNNNNNCCGAA AGUCGCCU	6669
2202	GACUAUGUU UGCUCUGC	2516	GCAGAGCA CUGAUGAGGNNNNNNNNCCGAA ACAUAGUC	6670
2203	ACUAUGUUU GCUCUGCU	2517	AGCAGAGC CUGAUGAGGNNNNNNNNCCGAA AACAUAGU	6671
2207	UGUUUGCUC UGCUCAAG	2518	CUUGAGCA CUGAUGAGGNNNNNNNNCCGAA AGCAAACA	6672
2212	GCUCUGCUC AAGAUAAG	2519	CUUAUCUU CUGAUGAGGNNNNNNNNCCGAA AGCAGAGC	6673
2218	CUCAAGAUA AGAAGACC	2520	GGUCUUCU CUGAUGAGGNNNNNNNNCCGAA AUCUUGAG	6674
2239	AAAGACAUU GCCUGGUC	2521	GACCAGGC CUGAUGAGGNNNNNNNNCCGAA AUGUCUUU	6675
2247	UGCCUGGUC AAACAGCU	2522	AGCUGUUU CUGAUGAGGNNNNNNNNCCGAA ACCAGGCA	6676
2256	AAACAGCUC AUCAUCCU	2523	AGGAUGAU CUGAUGAGGNNNNNNNNCCGAA AGCUGUUU	6677
2259	CAGCUCAUC AUCCUAGA	2524	UCUAGGAU CUGAUGAGGNNNNNNNNCCGAA AUGAGCUG	6678
2262	CUCAUCAUC CUAGAGCG	2525	CGCUCUAG CUGAUGAGGNNNNNNNNCCGAA AUGAUGAG	6679
2265	AUCAUCCUA GAGCGCAU	2526	AUGCGCUC CUGAUGAGGNNNNNNNNCCGAA AGGAUGAU	6680
2286	CCCAUGAUC ACCGGAAA	2527	UUUCCGGU CUGAUGAGGNNNNNNNNCCGAA AUCAUGGG	6681
2296	CCGGAAAUC UGGAGAAU	2528	AUUCUCCA CUGAUGAGGNNNNNNNNCCGAA AUUUCCGG	6682
2305	UGGAGAAUC AGACAACA	2529	UGUUGUCU CUGAUGAGGNNNNNNNNCCGAA AUUCUCCA	6683
2319	ACAACCAUU GGCGAGAC	2530	GUCUCGCC CUGAUGAGGNNNNNNNNCCGAA AUGGUUGU	6684
2331	GAGACCAUU GAAGUGAC	2531	GUCACUUC CUGAUGAGGNNNNNNNNCCGAA AUGGUCUC	6685
2341	AAGUGACUU GCCCAGCA	2532	UGCUGGGC CUGAUGAGGNNNNNNNNCCGAA AGUCACUU	6686
2351	CCCAGCAUC UGGAAAUC	2533	GAUUUCCA CUGAUGAGGNNNNNNNNCCGAA AUGCUGGG	6687
2359	CUGGAAAUC CUACCCCA	2534	UGGGGUAG CUGAUGAGGNNNNNNNNCCGAA AUUUCCAG	6688
2362	GAAAUCCUA CCCCACAC	2535	GUGUGGGG CUGAUGAGGNNNNNNNNCCGAA AGGAUUUC	6689
2373	CCACACAUU ACAUGGUU	2536	AACCAUGU CUGAUGAGGNNNNNNNNCCGAA AUGUGUGG	6690
2374	CACACAUUA CAUGGUUC	2537	GAACCAUG CUGAUGAGGNNNNNNNNCCGAA AAUGUGUG	6691
2381	UACAUGGUU CAAAGACA	2538	UGUCUUUG CUGAUGAGGNNNNNNNNCCGAA ACCAUGUA	6692
2382	ACAUGGUUC AAAGACAA	2539	UUGUCUUU CUGAUGAGGNNNNNNNNCCGAA AACCAUGU	6693
2403	ACCCUGGUA GAAGAUUC	2540	GAAUCUUC CUGAUGAGGNNNNNNNNCCGAA ACCAGGGU	6694
2410	UAGAAGAUU CAGGCAUU	2541	AAUGCCUG CUGAUGAGGNNNNNNNNCCGAA AUCUUCUA	6695
2411	AGAAGAUUC AGGCAUUG	2542	CAAUGCCU CUGAUGAGGNNNNNNNNCCGAA AAUCUUCU	6696
2418	UCAGGCAUU GUACUGAG	2543	CUCAGUAC CUGAUGAGGNNNNNNNNCCGAA AUGCCUGA	6697
2421	GGCAUUGUA CUGAGAGA	2544	UCUCUCAG CUGAUGAGGNNNNNNNNCCGAA ACAAUGCC	6698
2449	ACCUGACUA UCCGCAGG	2545	CCUGCGGA CUGAUGAGGNNNNNNNNCCGAA AGUCAGGU	6699
2451	CUGACUAUC CGCAGGGU	2546	ACCCUGCG CUGAUGAGGNNNNNNNNCCGAA AUAGUCAG	6700
2481	GGAGGCCUC UACACCUG	2547	CAGGUGUA CUGAUGAGGNNNNNNNNCCGAA AGGCCUCC	6701
2483	AGGCCUCUA CACCUGCC	1847	GGCAGGUG CUGAUGAGGNNNNNNNNCCGAA AGAGGCCU	6003
2505	UGCAAUGUC CUUGGCUG	2548	CAGCCAAG CUGAUGAGGNNNNNNNNCCGAA ACAUUGCA	6702
2508	AAUGUCCUU GGCUGUGC	2549	GCACAGCC CUGAUGAGGNNNNNNNNCCGAA AGGACAUU	6703
2532	GAGACGCUC UUCAUAAU	2550	AUUAUGAA CUGAUGAGGNNNNNNNNCCGAA AGCGUCUC	6704
2534	GACGCUCUU CAUAAUAG	2551	CUAUUAUG CUGAUGAGGNNNNNNNNCCGAA AGAGCGUC	6705
2535	ACGCUCUUC AUAAUAGA	2552	UCUAUUAU CUGAUGAGGNNNNNNNNCCGAA AAGAGCGU	6706
2538	CUCUUCAUA AUAGAAGG	2553	CCUUCUAU CUGAUGAGGNNNNNNNNCCGAA AUGAAGAG	6707
2541	UUCAUAAUA GAAGGUGC	1857	GCACCUUC CUGAUGAGGNNNNNNNNCCGAA AUUAUGAA	6013
2567	GACCAACUU GGAAGUCA	2554	UGACUUCC CUGAUGAGGNNNNNNNNCCGAA AGUUGGUC	6708
2574	UUGGAAGUC AUUAUCCU	2555	AGGAUAAU CUGAUGAGGNNNNNNNNCCGAA ACUUCCAA	6709
2577	GAAGUCAUU AUCCUCGU	2556	ACGAGGAU CUGAUGAGGNNNNNNNNCCGAA AUGACUUC	6710
2578	AAGUCAUUA UCCUCGUC	2557	GACGAGGA CUGAUGAGGNNNNNNNNCCGAA AAUGACUU	6711
2580	GUCAUUAUC CUCGUCGG	2558	CCGACGAG CUGAUGAGGNNNNNNNNCCGAA AUAAUGAC	6712
2583	AUUAUCCUC GUCGGCAC	2559	GUGCCGAC CUGAUGAGGNNNNNNNNCCGAA AGGAUAAU	6713
2586	AUCCUCGUC GGCACUGC	2560	GCAGUGCC CUGAUGAGGNNNNNNNNCCGAA ACGAGGAU	6714
2601	GCAGUGAUU GCCAUGUU	2561	AACAUGGC CUGAUGAGGNNNNNNNNCCGAA AUCACUGC	6715
2609	UGCCAUGUU CUUCUGGC	1867	GCCAGAAG CUGAUGAGGNNNNNNNNCCGAA ACAUGGCA	6023
2610	GCCAUGUUC UUCUGGCU	1868	AGCCAGAA CUGAUGAGGNNNNNNNNCCGAA AACAUGGC	6024
2612	CAUGUUCUU CUGGCUCC	2562	GGAGCCAG CUGAUGAGGNNNNNNNNCCGAA AGAACAUG	6716
2613	AUGUUCUUC UGGCUCCU	2563	AGGAGCCA CUGAUGAGGNNNNNNNNCCGAA AAGAACAU	6717
2619	UUCUGGCUC CUUCUUGU	2564	ACAAGAAG CUGAUGAGGNNNNNNNNCCGAA AGCCAGAA	6027
2622	UGGCUCCUU CUUGUCAU	2565	AUGACAAG CUGAUGAGGNNNNNNNNCCGAA AGGAGCCA	6718
2623	GGCUCCUUC UUGUCAUU	2566	AAUGACAA CUGAUGAGGNNNNNNNNCCGAA AAGGAGCC	6719
2625	CUCCUUCUU GUCAUUGU	2567	ACAAUGAC CUGAUGAGGNNNNNNNNCCGAA AGAAGGAG	6720
2628	CUUCUUGUC AUUGUCCU	2568	AGGACAAU CUGAUGAGGNNNNNNNNCCGAA ACAAGAAG	6721
2631	CUUGUCAUU GUCCUACG	2569	CGUAGGAC CUGAUGAGGNNNNNNNNCCGAA AUGACAAG	6722
2634	GUCAUUGUC CUACGGAC	2570	GUCCGUAG CUGAUGAGGNNNNNNNNCCGAA ACAAUGAC	6723
2637	AUUGUCCUA CGGACCGU	2571	ACGGUCCG CUGAUGAGGNNNNNNNNCCGAA AGGACAAU	6724
2646	CGGACCGUU AAGCGGGC	2572	GCCCGCUU CUGAUGAGGNNNNNNNNCCGAA ACGGUCCG	6725
2647	GGACCGUUA AGCGGGCC	1880	GGCCCGCU CUGAUGAGGNNNNNNNNCCGAA AACGGUCC	6036
2681	GACAGGCUA CUUGUCUA	2573	UAGACAAG CUGAUGAGGNNNNNNNNCCGAA AGCCUGUC	6726
2684	AGGCUACUU GUCUAUUG	2574	CAAUAGAC CUGAUGAGGNNNNNNNNCCGAA AGUAGCCU	6727
2687	CUACUUGUC UAUUGUCA	2575	UGACAAUA CUGAUGAGGNNNNNNNNCCGAA ACAAGUAG	6728
2689	ACUUGUCUA UUGUCAUG	2576	CAUGACAA CUGAUGAGGNNNNNNNNCCGAA AGACAAGU	6729
2691	UUGUCUAUU GUCAUGGA	2577	UCCAUGAC CUGAUGAGGNNNNNNNNCCGAA AUAGACAA	6730
2694	UCUAUUGUC AUGGAUCC	2578	GGAUCCAU CUGAUGAGGNNNNNNNNCCGAA ACAAUAGA	6731
2701	UCAUGGAUC CAGAUGAA	1886	UUCAUCUG CUGAUGAGGNNNNNNNNCCGAA AUCCAUGA	6042
2711	AGAUGAAUU GCCCUUGG	2579	CCAAGGGC CUGAUGAGGNNNNNNNNCCGAA AUUCAUCU	6732
2717	AUUGCCCUU GGAUGAGC	2580	GCUCAUCC CUGAUGAGGNNNNNNNNCCGAA AGGGCAAU	6733
2738	UGAACGCUU GCCUUAUG	2581	CAUAAGGC CUGAUGAGGNNNNNNNNCCGAA AGCGUUCA	6734
2743	GCUUGCCUU AUGAUGCC	2582	GGCAUCAU CUGAUGAGGNNNNNNNNCCGAA AGGCAAGC	6735
2744	CUUGCCUUA UGAUGCCA	2583	UGGCAUCA CUGAUGAGGNNNNNNNNCCGAA AAGGCAAG	6736
2765	GUGGGAAUU CCCCAGGG	2584	CCCUGGGG CUGAUGAGGNNNNNNNNCCGAA AUUCCCAC	6737
2766	UGGGAAUUC CCCAGGGA	2585	UCCCUGGG CUGAUGAGGNNNNNNNNCCGAA AAUUCCCA	6738
2787	CUGAAACUA GGAAAACC	2586	GGUUUUCC CUGAUGAGGNNNNNNNNCCGAA AGUUUCAG	6739
2797	GAAAACCUC UUGGCCGC	2587	GCGGCCAA CUGAUGAGGNNNNNNNNCCGAA AGGUUUUC	6740
2799	AAACCUCUU GGCCGCGG	2588	CCGCGGCC CUGAUGAGGNNNNNNNNCCGAA AGAGGUUU	6741
2813	CGGUGCCUU CGGCCAAG	2589	CUUGGCCG CUGAUGAGGNNNNNNNNCCGAA AGGCACCG	6742
2814	GGUGCCUUC GGCCAAGU	2590	ACUUGGCC CUGAUGAGGNNNNNNNNCCGAA AAGGCACC	6743
2826	CAAGUGAUU GAGGCAGA	2591	UCUGCCUC CUGAUGAGGNNNNNNNNCCGAA AUCACUUG	6744
2839	CAGACGCUU UUGGAAUU	2592	AAUUCCAA CUGAUGAGGNNNNNNNNCCGAA AGCGUCUG	6745
2840	AGACGCUUU UGGAAUUG	2593	CAAUUCCA CUGAUGAGGNNNNNNNNCCGAA AAGCGUCU	6746
2841	GACGCUUUU GGAAUUGA	2594	UCAAUUCC CUGAUGAGGNNNNNNNNCCGAA AAAGCGUC	6747
2847	UUUGGAAUU GACAAGAC	1903	GUCUUGUC CUGAUGAGGNNNNNNNNCCGAA AUUCCAAA	6059
2863	CAGCGACUU GCAAAACA	2595	UGUUUUGC CUGAUGAGGNNNNNNNNCCGAA AGUCGCUG	6748
2874	AAAACAGUA GCCGUCAA	2596	UUGACGGC CUGAUGAGGNNNNNNNNCCGAA ACUGUUUU	6749
2880	GUAGCCGUC AAGAUGUU	2597	AACAUCUU CUGAUGAGGNNNNNNNNCCGAA ACGGCUAC	6750
2888	CAAGAUGUU GAAAGAAG	2598	CUUCUUUC CUGAUGAGGNNNNNNNNCCGAA ACAUCUUG	6751
2917	GCGAGCAUC GAGCCCUC	2599	GAGGGCUC CUGAUGAGGNNNNNNNNCCGAA AUGCUCGC	6752
2925	CGAGCCCUC AUGUCUGA	2600	UCAGACAU CUGAUGAGGNNNNNNNNCCGAA AGGGCUCG	6753
2930	CCUCAUGUC UGAACUCA	2601	UGAGUUCA CUGAUGAGGNNNNNNNNCCGAA ACAUGAGG	6754
2937	UCUGAACUC AAGAUCCU	1912	AGGAUCUU CUGAUGAGGNNNNNNNNCCGAA AGUUCAGA	6068
2943	CUCAAGAUC CUCAUCCA	2602	UGGAUGAG CUGAUGAGGNNNNNNNNCCGAA AUCUUGAG	6755
2946	AAGAUCCUC AUCCACAU	2603	AUGUGGAU CUGAUGAGGNNNNNNNNCCGAA AGGAUCUU	6756
2949	AUCCUCAUC CACAUUGG	2604	CCAAUGUG CUGAUGAGGNNNNNNNNCCGAA AUGAGGAU	6757
2955	AUCCACAUU GGUCACCA	2605	UGGUGACC CUGAUGAGGNNNNNNNNCCGAA AUGUGGAU	6758
2959	ACAUUGGUC ACCAUCUC	2606	GAGAUGGU CUGAUGAGGNNNNNNNNCCGAA ACCAAUGU	6759
2965	GUCACCAUC UCAAUGUG	1920	CACAUUGA CUGAUGAGGNNNNNNNNCCGAA AUGGUGAC	6076
2967	CACCAUCUC AAUGUGGU	1921	ACCACAUU CUGAUGAGGNNNNNNNNCCGAA AGAUGGUG	6077
2982	GUGAACCUC CUAGGCGC	2607	GCGCCUAG CUGAUGAGGNNNNNNNNCCGAA AGGUUCAC	6760
2985	AACCUCCUA GGCGCCUG	2608	CAGGCGCC CUGAUGAGGNNNNNNNNCCGAA AGGAGGUU	6761
3013	GAGGGCCUC UCAUGGUG	2609	CACCAUGA CUGAUGAGGNNNNNNNNCCGAA AGGCCCUC	6762
3015	GGGCCUCUC AUGGUGAU	2610	AUCACCAU CUGAUGAGGNNNNNNNNCCGAA AGAGGCCC	6763
3024	AUGGUGAUU GUGGAAUU	1928	AAUUCCAC CUGAUGAGGNNNNNNNNCCGAA AUCACCAU	6084
3032	UGUGGAAUU CUGCAAGU	2611	ACUUGCAG CUGAUGAGGNNNNNNNNCCGAA AUUCCACA	6764
3033	GUGGAAUUC UGCAAGUU	2612	AACUUGCA CUGAUGAGGNNNNNNNNCCGAA AAUUCCAC	6765
3041	CUGCAAGUU UGGAAACC	2613	GGUUUCCA CUGAUGAGGNNNNNNNNCCGAA ACUUGCAG	6766
3042	UGCAAGUUU GGAAACCU	2614	AGGUUUCC CUGAUGAGGNNNNNNNNCCGAA AACUUGCA	6767
3051	GGAAACCUA UCAACUUA	2615	UAAGUUGA CUGAUGAGGNNNNNNNNCCGAA AGGUUUCC	6768
3053	AAACCUAUC AACUUACU	2616	AGUAAGUU CUGAUGAGGNNNNNNNNCCGAA AUAGGUUU	6769
3058	UAUCAACUU ACUUACGG	2617	CCGUAAGU CUGAUGAGGNNNNNNNNCCGAA AGUUGAUA	6770
3059	AUCAACUUA CUUACGGG	2618	CCCGUAAG CUGAUGAGGNNNNNNNNCCGAA AAGUUGAU	6771
3062	AACUUACUU ACGGGGCA	2619	UGCCCCGU CUGAUGAGGNNNNNNNNCCGAA AGUAAGUU	6772
3063	ACUUACUUA CGGGGCAA	2620	UUGCCCCG CUGAUGAGGNNNNNNNNCCGAA AAGUAAGU	6773
3083	AAAUGAAUU UGUUCCCU	2621	AGGGAACA CUGAUGAGGNNNNNNNNCCGAA AUUCAUUU	6774
3084	AAUGAAUUU GUUCCCUA	2622	UAGGGAAC CUGAUGAGGNNNNNNNNCCGAA AAUUCAUU	6775
3087	GAAUUUGUU CCCUAUAA	2623	UUAUAGGG CUGAUGAGGNNNNNNNNCCGAA ACAAAUUC	6776
3088	AAUUUGUUC CCUAUAAG	2624	CUUAUAGG CUGAUGAGGNNNNNNNNCCGAA AACAAAUU	6777
3092	UGUUCCCUA UAAGAGCA	2625	UGCUCUUA CUGAUGAGGNNNNNNNNCCGAA AGGGAACA	6778
3094	UUCCCUAUA AGAGCAAA	2626	UUUGCUCU CUGAUGAGGNNNNNNNNCCGAA AUAGGGAA	6779
3113	GGCACGCUU CCGCCAGG	2627	CCUGGCGG CUGAUGAGGNNNNNNNNCCGAA AGCGUGCC	6780
3114	GCACGCUUC CGCCAGGG	2628	CCCUGGCG CUGAUGAGGNNNNNNNNCCGAA AAGCGUGC	6781
3131	CAAGGACUA CGUUGGGG	2629	CCCCAACG CUGAUGAGGNNNNNNNNCCGAA AGUCCUUG	6782
3135	GACUACGUU GGGGAGCU	2630	AGCUCCCC CUGAUGAGGNNNNNNNNCCGAA ACGUAGUC	6783
3144	GGGGAGCUC UCCGUGGA	2631	UCCACGGA CUGAUGAGGNNNNNNNNCCGAA AGCUCCCC	6784
3146	GGAGCUCUC CGUGGAUC	2632	GAUCCACG CUGAUGAGGNNNNNNNNCCGAA AGAGCUCC	6785
3154	CCGUGGAUC UGAAAAGA	2633	UCUUUUCA CUGAUGAGGNNNNNNNNCCGAA AUCCACGG	6786
3167	AAGACGCUU GGACAGCA	2634	UGCUGUCC CUGAUGAGGNNNNNNNNCCGAA AGCGUCUU	6787
3177	GACAGCAUC ACCAGCAG	2635	CUGCUGGU CUGAUGAGGNNNNNNNNCCGAA AUGCUGUC	6788
3194	CCAGAGCUC UGCCAGCU	2636	AGCUGGCA CUGAUGAGGNNNNNNNNCCGAA AGCUCUGG	6789
3203	UGCCAGCUC AGGCUUUG	2637	CAAAGCCU CUGAUGAGGNNNNNNNNCCGAA AGCUGGCA	6790
3209	CUCAGGCUU UGUUGAGG	2638	CCUCAACA CUGAUGAGGNNNNNNNNCCGAA AGCCUGAG	6791
3210	UCAGGCUUU GUUGAGGA	2639	UCCUCAAC CUGAUGAGGNNNNNNNNCCGAA AAGCCUGA	6792
3213	GGCUUUGUU GAGGAGAA	2640	UUCUCCUC CUGAUGAGGNNNNNNNNCCGAA ACAAAGCC	6793
3224	GGAGAAAUC GCUCAGUG	2641	CACUGAGC CUGAUGAGGNNNNNNNNCCGAA AUUUCUCC	6794
3228	AAAUCGCUC AGUGAUGU	2642	ACAUCACU CUGAUGAGGNNNNNNNNCCGAA AGCGAUUU	6795
3237	AGUGAUGUA GAGGAAGA	2643	UCUUCCUC CUGAUGAGGNNNNNNNNCCGAA ACAUCACU	4658
3253	AAGAAGCUU CUGAAGAA	2644	UUCUUCAG CUGAUGAGGNNNNNNNNCCGAA AGCUUCUU	6796
3254	AGAAGCUUC UGAAGAAC	2645	GUUCUUCA CUGAUGAGGNNNNNNNNCCGAA AAGCUUCU	6797
3266	AGAACUGUA CAAGGACU	2646	AGUCCUUG CUGAUGAGGNNNNNNNNCCGAA ACAGUUCU	6798
3275	CAAGGACUU CCUGACCU	2647	AGGUCAGG CUGAUGAGGNNNNNNNNCCGAA AGUCCUUG	6799
3276	AAGGACUUC CUGACCUU	1962	AAGGUCAG CUGAUGAGGNNNNNNNNCCGAA AAGUCCUU	6118
3284	CCUGACCUU GGAGCAUC	1963	GAUGCUCC CUGAUGAGGNNNNNNNNCCGAA AGGUCAGG	6119
3292	UGGAGGAUC UCAUCUGU	1964	ACAGAUGA CUGAUGAGGNNNNNNNNCCGAA AUGCUCCA	6120
3294	GAGCAUCUC AUCUGUUA	1965	UAACAGAU CUGAUGAGGNNNNNNNNCCGAA AGAUGCUC	6121
3297	CAUCUCAUC UGUUACAG	1966	CUGUAACA CUGAUGAGGNNNNNNNNCCGAA AUGAGAUG	6122
3301	UCAUCUGUU ACAGCUUC	1967	GAAGCUGU CUGAUGAGGNNNNNNNNCCGAA ACAGAUGA	6123
3302	CAUCUGUUA CAGCUUCC	1968	GGAAGCUG CUGAUGAGGNNNNNNNNCCGAA AACAGAUG	6124
3308	UUACAGCUU CCAAGUGG	1969	CCACUUGG CUGAUGAGGNNNNNNNNCCGAA AGCUGUAA	6125
3309	UACAGCUUC CAAGUGGC	1970	GCCACCUG CUGAUGAGGNNNNNNNNCCGAA AAGCUGUA	6126
3319	AAGUGGCUA AGGGCAUG	1971	CAUGCCCU CUGAUGAGGNNNNNNNNCCGAA AGCCACUU	6127
3332	CAUGGAGUU CUUGGCAU	1972	AUGCCAAG CUGAUGAGGNNNNNNNNCCGAA ACUCCAUG	6128
3333	AUGGAGUUC UUGGCAUC	1973	GAUGCCAA CUGAUGAGGNNNNNNNNCCGAA AACUCCAU	6129
3335	GGAGUUCUU GGCAUCAA	2648	UUGAUGCC CUGAUGAGGNNNNNNNNCCGAA AGAACUCC	6800
3341	CUUGGCAUC AAGGAAGU	2649	ACUUCCUU CUGAUGAGGNNNNNNNNCCGAA AUGCCAAG	6801
3352	GGAAGUGUA UCCACAGG	2650	CCUGUGGA CUGAUGAGGNNNNNNNNCCGAA ACACUUCC	6802
3354	AAGUGUAUC CACAGGGA	1977	UCCCUGUG CUGAUGAGGNNNNNNNNCCGAA AUACACUU	6133
3381	CGAAACAUU CUCCUAUC	2651	GAUAGGAG CUGAUGAGGNNNNNNNNCCGAA AUGUUUCG	6803
3382	GAAACAUUC UCCUAUCG	2652	CGAUAGGA CUGAUGAGGNNNNNNNNCCGAA AAUGUUUC	6804
3384	AACAUUCUC CUAUCGGA	2653	UCCGAUAG CUGAUGAGGNNNNNNNNCCGAA AGAAUGUU	6805
3387	AUUCUCCUA UCGGAGAA	2654	UUCUCCGA CUGAUGAGGNNNNNNNNCCGAA AGGAGAAU	6806
3389	UCUCCUAUC GGAGAAGA	2655	UCUUCUCC CUGAUGAGGNNNNNNNNCCGAA AUAGGAGA	6807
3405	AAUGUGGUU AAGAUCUG	2656	CAGAUCUU CUGAUGAGGNNNNNNNNCCGAA ACCACAUU	6808
3406	AUGUGGUUA AGAUCUGU	2657	ACAGAUCU CUGAUGAGGNNNNNNNNCCGAA AACCACAU	6809
3411	GUUAAGAUC UGUGACUU	2658	AAGUCACA CUGAUGAGGNNNNNNNNCCGAA AUCUUAAC	6810
3419	CUGUGACUU CGGCUUGG	2659	CCAAGCCG CUGAUGAGGNNNNNNNNCCGAA AGUCACAG	6811
3420	UGUGACUUC GGCUUGGC	2660	GCCAAGCC CUGAUGAGGNNNNNNNNCCGAA AAGUCACA	6144
3425	CUUCGGCUU GGCCCGGG	2661	CCCGGGCC CUGAUGAGGNNNNNNNNCCGAA AGCCGAAG	6812
3438	CGGGACAUU UAUAAAGA	2662	UCUUUAUA CUGAUGAGGNNNNNNNNCCGAA AUGUCCCG	6813
3439	GGGACAUUU AUAAAGAC	2663	GUCUUUAU CUGAUGAGGNNNNNNNNCCGAA AAUGUCCC	6814
3440	GGACAUUUA UAAAGACC	2664	GGUCUUUA CUGAUGAGGNNNNNNNNCCGAA AAAUGUCC	6815
3442	ACAUUUAUA AAGACCCG	2665	CGGGUCUU CUGAUGAGGNNNNNNNNCCGAA AUAAAUGU	6816
3454	ACCCGGAUU AUGUCAGA	2666	UCUGACAU CUGAUGAGGNNNNNNNNCCGAA AUCCGGGU	6817
3455	CCCGGAUUA UGUCAGAA	2667	UUCUGACA CUGAUGAGGNNNNNNNNCCGAA AAUCCGGG	6818
3459	GAUUAUGUC AGAAAAGG	1998	CCUUUUCU CUGAUGAGGNNNNNNNNCCGAA ACAUAAUC	6154
3480	GCCCGACUC CCUUUGAA	2668	UUCAAAGG CUGAUGAGGNNNNNNNNCCGAA AGUCGGGC	6819
3484	GACUCCCUU UGAAGUGG	2669	CCACUUCA CUGAUGAGGNNNNNNNNCCGAA AGGGAGUC	6820
3485	ACUCCCUUU GAAGUGGA	2670	UCCACUUC CUGAUGAGGNNNNNNNNCCGAA AAGGGAGU	6821
3510	GAAACCAUU UUUGACAG	2671	CUGUCAAA CUGAUGAGGNNNNNNNNCCGAA AUGGUUUC	6822
3511	AAACCAUUU UUGACAGA	2672	UCUGUCAA CUGAUGAGGNNNNNNNNCCGAA AAUGGUUU	6823
3512	AACCAUUUU UGACAGAG	2673	CUCUGUCA CUGAUGAGGNNNNNNNNCCGAA AAAUGGUU	6824
3513	ACCAUUUUU GACAGAGU	2674	ACUCUGUC CUGAUGAGGNNNNNNNNCCGAA AAAAUGGU	6825
3522	GACAGAGUA UACACAAU	2675	AUUGUGUA CUGAUGAGGNNNNNNNNCCGAA ACUCUGUC	6826
3524	CAGAGUAUA CACAAUUC	2676	GAAUUGUG CUGAUGAGGNNNNNNNNCCGAA AUACUCUG	6827
3531	UACACAAUU CAGAGCGA	2677	UCGCUCUG CUGAUGAGGNNNNNNNNCCGAA AUUGUGUA	6828
3532	ACACAAUUC AGAGCGAU	2678	AUCGCUCU CUGAUGAGGNNNNNNNNCCGAA AAUUGUGU	6829
3548	UGUGUGGUC UUUCGGUG	2679	CACCGAAA CUGAUGAGGNNNNNNNNCCGAA ACCACACA	6830
3550	UGUGGUCUU UGGCUGUG	2680	CACACCGA CUGAUGAGGNNNNNNNNCCGAA AGACCACA	6831
3551	GUGGUCUUU CGGUGUGU	2681	ACACACCG CUGAUGAGGNNNNNNNNCCGAA AAGACCAC	6832
3552	UGGUCUUUC GGUGUGUU	2682	AACACACC CUGAUGAGGNNNNNNNNCCGAA AAAGACCA	6833
3560	CGGUGUGUU GCUCUGGG	2683	CCCAGAGC CUGAUGAGGNNNNNNNNCCGAA ACACACCG	6834
3564	GUGUUGCUC UGGGAAAU	2684	AUUUCCCA CUGAUGAGGNNNNNNNNCCGAA AGCAACAC	6835
3573	UGGGAAAUA UUUUCCUU	2017	AAGGAAAA CUGAUGAGGNNNNNNNNCCGAA AUUUCCCA	6173
3575	GGAAAUAUU UUCCUUAG	2018	CUAAGGAA CUGAUGAGGNNNNNNNNCCGAA AUAUUUCC	6174
3576	GAAAUAUUU UCCUUAGG	2019	CCUAAGGA CUGAUGAGGNNNNNNNNCCGAA AAUAUUUC	6175
3577	AAAUAUUUU CCUUAGGU	2020	ACCUAAGG CUGAUGAGGNNNNNNNNCCGAA AAAUAUUU	6176
3578	AAUAUUUUC CUUAGGUG	2021	CACCUAAG CUGAUGAGGNNNNNNNNCCGAA AAAAUAUU	6177
3581	AUUUUCCUU AGGUGCCU	2685	AGGCACCU CUGAUGAGGNNNNNNNNCCGAA AGGAAAAU	6836
3582	UUUUCCUUA GGUGCCUC	2686	GAGGCACC CUGAUGAGGNNNNNNNNCCGAA AAGGAAAA	6837
3590	AGGUGCCUC CCCAUACC	2687	GGUAUGGG CUGAUGAGGNNNNNNNNCCGAA AGGCACCU	6838
3596	CUCCCCAUA CCCUGGGG	2688	CCCCAGGG CUGAUGAGGNNNNNNNNCCGAA AUGGGGAG	6839
3606	CCUGGGGUC AAGAUUGA	2689	UCAAUCUU CUGAUGAGGNNNNNNNNCCGAA ACCCCAGG	6185
3612	GUCAAGAUU GAUGAAGA	2690	UCUUCAUC CUGAUGAGGNNNNNNNNCCGAA AUCUUGAC	6840
3623	UGAAGAAUU UUGUAGGA	2691	UCCUACAA CUGAUGAGGNNNNNNNNCCGAA AUUCUUCA	6841
3624	GAAGAAUUU UGUAGGAG	2692	CUCCUACA CUGAUGAGGNNNNNNNNCCGAA AAUUCUUC	6842
3625	AAGAAUUUU GUAGGAGA	2693	UCUCCUAC CUGAUGAGGNNNNNNNNCCGAA AAAUUCUU	6843
3628	AAUUUUGUA GGAGAUUG	2694	CAAUCUCC CUGAUGAGGNNNNNNNNCCGAA ACAAAAUU	6844
3635	UAGGAGAUU GAAAGAAG	2695	CUUCUUUC CUGAUGAGGNNNNNNNNCCGAA AUCUCCUA	6845
3649	AAGGAACUA GAAUGCGG	2696	CCGCAUUC CUGAUGAGGNNNNNNNNCCGAA AGUUCCUU	6846
3661	UGCGGGCUC CUGACUAC	2697	GUAGUCAG CUGAUGAGGNNNNNNNNCCGAA AGCCCGCA	6847
3668	UCCUGACUA CACUACCC	2698	GGGUAGUG CUGAUGAGGNNNNNNNNCCGAA AGUCAGGA	6848
3673	ACUACACUA CCCCAGAA	2699	UUCUGGGG CUGAUGAGGNNNNNNNNCCGAA AGUGUAGU	6849
3686	AGAAAUGUA CCAGACCA	2041	UGGUCUGG CUGAUGAGGNNNNNNNNCCGAA ACAUUUCU	6197
3734	GAGACCCUC GUUUUCAG	2700	CUGAAAAC CUGAUGAGGNNNNNNNNCCGAA AGGGUCUC	6850
3737	ACCCUCGUU UUCAGAGU	2701	ACUCUGAA CUGAUGAGGNNNNNNNNCCGAA ACGAGGGU	6851
3738	CCCUCGUUU UCAGAGUU	2702	AACUCUGA CUGAUGAGGNNNNNNNNCCGAA AACGAGGG	6852
3739	CCUCGUUUU CAGAGUUG	2703	CAACUCUG CUGAUGAGGNNNNNNNNCCGAA AAACGAGG	6853
3740	CUCGUUUUC AGAGUUGG	2704	CCAACUCU CUGAUGAGGNNNNNNNNCCGAA AAAACGAG	6854
3746	UUCAGAGUU GGUGGAGC	2705	GCUCCACC CUGAUGAGGNNNNNNNNCCGAA ACUCUGAA	6855
3757	UGGAGCAUU UGGGAAAC	2706	GUUUCCCA CUGAUGAGGNNNNNNNNCCGAA AUGCUCCA	6856
3758	GGAGCAUUU GGGAAACC	2707	GGUUUCCC CUGAUGAGGNNNNNNNNCCGAA AAUGCUCC	6857
3768	GGAAACCUC CUGCAAGC	2708	GCUUGCAG CUGAUGAGGNNNNNNNNCCGAA AGGUUUCC	6858
3803	CAAAGACUA UAUUGUUC	2709	GAACAAUA CUGAUGAGGNNNNNNNNCCGAA AGUCUUUG	6859
3805	AAGACUAUA UUGUUCUU	2710	AAGAACAA CUGAUGAGGNNNNNNNNCCGAA AUAGUCUU	6860
3807	GACUAUAUU GUUCUUCC	2711	GGAAGAAC CUGAUGAGGNNNNNNNNCCGAA AUAUAGUC	6861
3810	UAUAUUGUU CUUCCAAU	2712	AUUGGAAG CUGAUGAGGNNNNNNNNCCGAA ACAAUAUA	6862
3811	AUAUUGUUC UUCCAAUG	2713	CAUUGGAA CUGAUGAGGNNNNNNNNCCGAA AACAAUAU	6863
3813	AUUGUUCUU CCAAUGUC	2714	GACAUUGG CUGAUGAGGNNNNNNNNCCGAA AGAACAAU	6864
3814	UUGUUCUUC CAAUGUCA	2715	UGACAUUG CUGAUGAGGNNNNNNNNCCGAA AAGAACAA	6865
3821	UCCAAUGUC AGAGACAC	2716	GUGUCUCU CUGAUGAGGNNNNNNNNCCGAA ACAUUGGA	6866
3847	AAGAGGAUU CUGGACUC	2065	GAGUCCAG CUGAUGAGGNNNNNNNNCCGAA AUCCUCUU	6221
3848	AGAGGAUUC UGGACUCU	2066	AGAGUCCA CUGAUGAGGNNNNNNNNCCGAA AAUCCUCU	6222
3855	UCUGGACUC UCCCUGCC	2717	GGCAGGGA CUGAUGAGGNNNNNNNNCCGAA AGUCCAGA	6867
3857	UGGACUCUC CCUGCCUA	2718	UAGGCAGG CUGAUGAGGNNNNNNNNCCGAA AGAGUCCA	6868
3865	CCCUGCCUA CCUCACCU	2719	AGGUGAGG CUGAUGAGGNNNNNNNNCCGAA AGGCAGGG	6869
3869	GCCUACCUC ACCUGUUU	2071	AAACAGGU CUGAUGAGGNNNNNNNNCCGAA AGGUAGGC	6227
3876	UCACCUGUU UCCUGUAU	2072	AUACAGGA CUGAUGAGGNNNNNNNNCCGAA ACAGGUGA	6228
3877	CACCUGUUU CCUGUAUG	2073	CAUACAGG CUGAUGAGGNNNNNNNNCCGAA AACAGGUG	6229
3878	ACCUGUUUC CUGUAUGG	2074	CCAUACAG CUGAUGAGGNNNNNNNNCCGAA AAACAGGU	6230
3883	UUUCCUGUA UGGAGGAA	2720	UUCCUCCA CUGAUGAGGNNNNNNNNCCGAA ACAGGAAA	6870
3914	CCCCAAAUU CCAUUAUG	2077	CAUAAUGG CUGAUGAGGNNNNNNNNCCGAA AUUUGGGG	6233
3915	CCCAAAUUC CAUUAUGA	2078	UCAUAAUG CUGAUGAGGNNNNNNNNCCGAA AAUUUGGG	6234
3919	AAUUCCAUU AUGACAAC	2079	GUUGUCAU CUGAUGAGGNNNNNNNNCCGAA AUGGAAUU	6235
3920	AUUCCAUUA UGACAACA	2080	UGUUGUCA CUGAUGAGGNNNNNNNNCCGAA AAUGGAAU	6236
3939	GCAGGAAUC AGUCAUUA	2721	UAAUGACU CUGAUGAGGNNNNNNNNCCGAA AUUCCUGC	6871
3943	GAAUCAGUC AUUAUCUC	2722	GAGAUAAU CUGAUGAGGNNNNNNNNCCGAA ACUGAUUC	6872
3946	UCAGUCAUU AUCUCCAG	2723	CUGGAGAU CUGAUGAGGNNNNNNNNCCGAA AUGACUGA	6873
3947	CAGUCAUUA UCUCCAGA	2724	UCUGGAGA CUGAUGAGGNNNNNNNNCCGAA AAUGACUG	6874
3949	GUCAUUAUC UCCAGAAC	2725	GUUCUGGA CUGAUGAGGNNNNNNNNCCGAA AUAAUGAC	6875
3951	CAUUAUCUC CAGAACAG	2726	CUGUUCUG CUGAUGAGGNNNNNNNNCCGAA AGAUAAUG	6876
3961	AGAACAGUA AGCGAAAG	2085	CUUUCGCU CUGAUGAGGNNNNNNNNCCGAA ACUGUUCU	6241
3987	GUGAGUGUA AAAACAUU	2086	AAUGUUUU CUGAUGAGGNNNNNNNNCCGAA ACACUCAC	6242
3995	AAAAACAUU UGAAGAUA	2087	UAUCUUCA CUGAUGAGGNNNNNNNNCCGAA AUGUUUUU	6243
3996	AAAACAUUU GAAGAUAU	2088	AUAUCUUC CUGAUGAGGNNNNNNNNCCGAA AAUGUUUU	6244
4003	UUGAAGAUA UCCCAUUG	2727	CAAUGGGA CUGAUGAGGNNNNNNNNCCGAA AUCUUCAA	6877
4005	GAAGAUAUC CCAUUGGA	2728	UCCAAUGG CUGAUGAGGNNNNNNNNCCGAA AUAUCUUC	6878
4010	UAUCCCAUU GGAGGAAC	2729	GUUCCUCC CUGAUGAGGNNNNNNNNCCGAA AUGGGAUA	6879
4026	CCAGAAGUA AAAGUGAU	2730	AUCACUUU CUGAUGAGGNNNNNNNNCCGAA ACUUCUGG	6880
4035	AAAGUGAUC CCAGAUGA	2731	UCAUCUGG CUGAUGAGGNNNNNNNNCCGAA AUCACUUU	6881
4068	GGGAUGGUC CUUGCAUC	2732	GAUGCAAG CUGAUGAGGNNNNNNNNCCGAA ACCAUCCC	6882
4071	AUGGUCCUU GCAUCAGA	2733	UCUGAUGC CUGAUGAGGNNNNNNNNCCGAA AGGACCAU	6883
4076	CCUUGCAUC AGAAGAGC	2734	GCUCUUCU CUGAUGAGGNNNNNNNNCCGAA AUGCAAGG	6884
4093	UGAAAACUC UGGAAGAC	2735	GUCUUCCA CUGAUGAGGNNNNNNNNCCGAA AGUUUUCA	6257
4112	GAACAAAUU AUCUCCAU	2736	AUGGAGAU CUGAUGAGGNNNNNNNNCCGAA AUUUGUUC	6885
4113	AACAAAUUA UCUCCAUC	2737	GAUGGAGA CUGAUGAGGNNNNNNNNCCGAA AAUUUGUU	6886
4115	CAAAUUAUC UCCAUCUU	2105	AAGAUGGA CUGAUGAGGNNNNNNNNCCGAA AUAAUUUG	6261
4117	AAUUAUCUC CAUCUUUU	2106	AAAAGAUG CUGAUGAGGNNNNNNNNCCGAA AGAUAAUU	6262
4121	AUCUCCAUC UUUUGGUG	2107	CACCAAAA CUGAUGAGGNNNNNNNNCCGAA AUGGAGAU	6263
4123	CUCCAUCUU UUGGUGGA	2108	UCCACCAA CUGAUGAGGNNNNNNNNCCGAA AGAUGGAG	6264
4124	UCCAUCUUU UGGUGGAA	2109	UUCCACCA CUGAUGAGGNNNNNNNNCCGAA AAGAUGGA	6265
4125	CCAUCUUUU GGUGGAAU	2110	AUUCCACC CUGAUGAGGNNNNNNNNCCGAA AAAGAUGG	6266
4144	UGCCCAGUA AAAGCAGG	2738	CCUGCUUU CUGAUGAGGNNNNNNNNCCGAA ACUGGGCA	6887
4157	CAGGGAGUC UGUGGCCU	2739	AGGCCACA CUGAUGAGGNNNNNNNNCCGAA ACUCCCUG	6888
4166	UGUGGCCUC GGAAGGCU	2740	AGCCUUCC CUGAUGAGGNNNNNNNNCCGAA AGGCCACA	6889
4175	GGAAGGCUC CAACCAGA	2741	UCUGGCUG CUGAUGAGGNNNNNNNNCCGAA AGCCUUCC	6890
4193	CAGUGGCUA CCAGUCUG	2742	CAGACUCG CUGAUGAGGNNNNNNNNCCGAA AGCCACUG	6891
4199	CUACCAGUC UGGGUAUC	2743	GAUACCCA CUGAUGAGGNNNNNNNNCCGAA ACUGGUAG	6892
4205	GUCUGGGUA UCACUCAG	2744	CUGAGUGA CUGAUGAGGNNNNNNNNCCGAA ACCCAGAC	6893
4207	CUGGGUAUC ACUCAGAU	2745	AUCUGAGU CUGAUGAGGNNNNNNNNCCGAA AUACCCAG	6894
4211	GUAUCACUC AGAUGACA	2746	UGUCAUCU CUGAUGAGGNNNNNNNNCCGAA AGUGAUAC	6895
4235	CACCGUGUA CUCCAGCG	2747	CGCUGGAG CUGAUGAGGNNNNNNNNCCGAA ACACGGUG	6896
4238	CGUGUACUC CAGCGACG	2748	CGUCGCUG CUGAUGAGGNNNNNNNNCCGAA AGUACACG	6897
4257	GCAGGACUU UUAAAGAU	2749	AUCUUUAA CUGAUGAGGNNNNNNNNCCGAA AGUCCUGC	6898
4258	CAGGACUUU UAAAGAUG	2750	CAUCUUUA CUGAUGAGGNNNNNNNNCCGAA AAGUCCUG	6899
4259	AGGACUUUU AAAGAUGG	2751	CCAUCUUU CUGAUGAGGNNNNNNNNCCGAA AAAGUCCU	6900
4260	GGACUUUUA AAGAUGGU	2752	ACCAUCUU CUGAUGAGGNNNNNNNNCCGAA AAAAGUCC	6901
4281	GCUGCAGUU CACGCUGA	2753	UCAGCGUG CUGAUGAGGNNNNNNNNCCGAA ACUGCAGC	6902
4282	CUGCAGUUC ACGCUGAC	2754	GUCAGCGU CUGAUGAGGNNNNNNNNCCGAA AACUGCAG	6903
4292	CGCUGACUC AGGGACCA	2755	UGGUCCCU CUGAUGAGGNNNNNNNNCCGAA AGUCAGCG	6904
4311	CUGCAGCUC ACCUCCUG	2756	CAGGAGGU CUGAUGAGGNNNNNNNNCCGAA AGCUGCAG	6905
4316	GCUCACCUC CUGUUUAA	2757	UUAAACAG CUGAUGAGGNNNNNNNNCCGAA AGGUGAGC	6906
4321	CCUCCUGUU UAAAUGGA	2758	UCCAUUUA CUGAUGAGGNNNNNNNNCCGAA ACAGGAGG	6907
4322	CUCCUGUUU AAAUGGAA	2759	UUCCAUUU CUGAUGAGGNNNNNNNNCCGAA AACAGGAG	6908
4323	UCCUGUUUA AAUGGAAG	2760	CUUCCAUU CUGAUGAGGNNNNNNNNCCGAA AAACAGGA	6909
4336	GAAGUGGUC CUGUCCCG	2761	CGGGACAG CUGAUGAGGNNNNNNNNCCGAA ACCACUUC	6910
4341	GGUCCUGUC CCGGCUCC	2762	GGAGCCGG CUGAUGAGGNNNNNNNNCCGAA ACAGGACC	6911
4348	UCCCGGCUC CGCCCCCA	2763	UGGGGGCG CUGAUGAGGNNNNNNNNCCGAA AGCCGGGA	6912
4360	CCCCAACUC CUGGAAAU	2764	AUUUCCAG CUGAUGAGGNNNNNNNNCCGAA AGUUGGGG	6913
4369	CUGGAAAUC ACGAGAGA	2765	UCUCUCGU CUGAUGAGGNNNNNNNNCCGAA AUUUCCAG	6914
4387	GUGCUGCUU AGAUUUUC	2766	GAAAAUCU CUGAUGAGGNNNNNNNNCCGAA AGCAGCAC	6915
4388	UGCUGCUUA GAUUUUCA	2767	UGAAAAUC CUGAUGAGGNNNNNNNNCCGAA AAGCAGCA	6916
4392	GCUUAGAUU UUCAAGUG	2768	CACUUGAA CUGAUGAGGNNNNNNNNCCGAA AUCUAAGC	6917
4393	CUUAGAUUU UCAAGUGU	2769	ACACUUGA CUGAUGAGGNNNNNNNNCCGAA AAUCUAAG	6918
4394	UUAGAUUUU CAAGUGUU	2770	AACACUUG CUGAUGAGGNNNNNNNNCCGAA AAAUCUAA	6919
4395	UAGAUUUUC AAGUGUUG	2771	CAACACUU CUGAUGAGGNNNNNNNNCCGAA AAAAUCUA	6920
4402	UCAAGUGUU GUUCUUUC	2772	GAAAGAAC CUGAUGAGGNNNNNNNNCCGAA ACACCUGA	6921
4405	AGUGUUGUU CUUUCCAC	2146	GUGGAAAG CUGAUGAGGNNNNNNNNCCGAA ACAACACU	6302
4406	GUGUUGUUC UUUCCACC	2147	GGUGGAAA CUGAUGAGGNNNNNNNNCCGAA AACAACAC	6303
4408	GUUGUUCUU UCCACCAC	2773	GUGGUGGA CUGAUGAGGNNNNNNNNCCGAA AGAACAAC	6922
4409	UUGUUCUUU CCACCACC	2774	GGUGGUGG CUGAUGAGGNNNNNNNNCCGAA AAGAACAA	6923
4410	UGUUCUUUC CACCACCC	2775	GGGUGGUG CUGAUGAGGNNNNNNNNCCGAA AAAGAACA	6924
4425	CCGGAAGUA GCCACAUU	2776	AAUGUGGC CUGAUGAGGNNNNNNNNCCGAA ACUUCCGG	6925
4433	AGCCACAUU UGAUUUUC	2777	GAAAAUCA CUGAUGAGGNNNNNNNNCCGAA AUGUGGCU	6926
4434	GCCACAUUU GAUUUUCA	2778	UGAAAAUC CUGAUGAGGNNNNNNNNCCGAA AAUGUGGC	6927
4438	CAUUUGAUU UUCAUUUU	2779	AAAAUGAA CUGAUGAGGNNNNNNNNCCGAA AUCAAAUG	6928
4439	AUUUGAUUU UCAUUUUU	2780	AAAAAUGA CUGAUGAGGNNNNNNNNCCGAA AAUCAAAU	6929
4440	UUUGAUUUU CAUUUUUG	2781	CAAAAAUG CUGAUGAGGNNNNNNNNCCGAA AAAUCAAA	6930
4441	UUGAUUUUC AUUUUUGG	2782	CCAAAAAU CUGAUGAGGNNNNNNNNCCGAA AAAAUCAA	6931
4444	AUUUUCAUU UUUGGAGG	2783	CCUCCAAA CUGAUGAGGNNNNNNNNCCGAA AUGAAAAU	6932
4445	UUUUCAUUU UUGGAGGA	2784	UCCUCCAA CUGAUGAGGNNNNNNNNCCGAA AAUGAAAA	6933
4446	UUUCAUUUU UGGAGGAG	2785	CUCCUCCA CUGAUGAGGNNNNNNNNCCGAA AAAUGAAA	6934
4447	UUCAUUUUU GGAGGAGG	2786	CCUCCUCC CUGAUGAGGNNNNNNNNCCGAA AAAAUGAA	6935
4461	AGGGACCUC AGACUGCA	2787	UGCAGUCU CUGAUGAGGNNNNNNNNCCGAA AGGUCCCU	6936
4477	AAGGAGCUU GUCCUCAG	2788	CUGAGGAC CUGAUGAGGNNNNNNNNCCGAA AGCUCCUU	6937
4480	GAGCUUGUC CUCAGGGC	2789	GCCCUGAG CUGAUGAGGNNNNNNNNCCGAA ACAAGCUC	6938
4483	CUUGUCCUC AGGGCAUU	2790	AAUGCCCU CUGAUGAGGNNNNNNNNCCGAA AGGACAAG	6939
4491	CAGGGCAUU UCCAGAGA	2791	UCUCUGGA CUGAUGAGGNNNNNNNNCCGAA AUGCCCUG	6940
4492	AGGGCAUUU CCAGAGAA	2792	UUCUCUGG CUGAUGAGGNNNNNNNNCCGAA AAUGCCCU	6941
4493	GGGCAUUUC CAGAGAAG	2793	CUUCUCUG CUGAUGAGGNNNNNNNNCCGAA AAAUGCCC	6942
4525	GAAUGUGUU GACUCUAC	2794	GUAGAGUC CUGAUGAGGNNNNNNNNCCGAA ACACAUUC	6943
4530	UGUUGACUC UACUCUCU	2795	AGAGAGUA CUGAUGAGGNNNNNNNNCCGAA AGUCAACA	6944
4532	UUGACUCUA CUCUCUUU	2796	AAAGAGAG CUGAUGAGGNNNNNNNNCCGAA AGAGUCAA	6945
4535	ACUCUACUC UCUUUUCC	2797	GGAAAAGA CUGAUGAGGNNNNNNNNCCGAA AGUAGAGU	6946
4537	UCUACUCUC UUUUCCAU	2798	AUGGAAAA CUGAUGAGGNNNNNNNNCCGAA AGAGUAGA	6947
4539	UACUCUCUU UUCCAUUC	2799	GAAUGGAA CUGAUGAGGNNNNNNNNCCGAA AGAGAGUA	6948
4540	ACUCUCUUU UCCAUUCA	2800	UGAAUGGA CUGAUGAGGNNNNNNNNCCGAA AAGAGAGU	6949
4541	CUCUCUUUU CCAUUCAU	2801	AUGAAUGG CUGAUGAGGNNNNNNNNCCGAA AAAGAGAG	6950
4542	UCUCUUUUC CAUUCAUU	2802	AAUGAAUG CUGAUGAGGNNNNNNNNCCGAA AAAAGAGA	6951
4546	UUUUCCAUU CAUUUAAA	2803	UUUAAAUG CUGAUGAGGNNNNNNNNCCGAA AUGGAAAA	6952
4547	UUUCCAUUC AUUUAAAA	2804	UUUUAAAU CUGAUGAGGNNNNNNNNCCGAA AAUGGAAA	6953
4550	CCAUUCAUU UAAAAGUC	2805	GACUUUUA CUGAUGAGGNNNNNNNNCCGAA AUGAAUGG	6954
4551	CAUUCAUUU AAAAGUCC	2806	GGACUUUU CUGAUGAGGNNNNNNNNCCGAA AAUGAAUG	6955
4552	AUUCAUUUA AAAGUCCU	2807	AGGACUUU CUGAUGAGGNNNNNNNNCCGAA AAAUGAAU	6956
4558	UUAAAAGUC CUAUAUAA	2808	UUAUAUAG CUGAUGAGGNNNNNNNNCCGAA ACUUUUAA	6957
4561	AAAGUCCUA UAUAAUGU	2809	ACAUUAUA CUGAUGAGGNNNNNNNNCCGAA AGGACUUU	6958
4563	AGUCCUAUA UAAUGUGC	2810	GCACAUUA CUGAUGAGGNNNNNNNNCCGAA AUAGGACU	6959
4565	UCCUAUAUA AUGUGCCC	2811	GGGCACAU CUGAUGAGGNNNNNNNNCCGAA AUAUAGGA	6960
4583	GCUGUGGUC UCACUACC	2812	GGUAGUGA CUGAUGAGGNNNNNNNNCCGAA ACCACAGC	6961
4585	UGUGGUCUC ACUACCAG	2813	CUGGUAGU CUGAUGAGGNNNNNNNNCCGAA AGACCACA	6962
4589	GUCUCACUA CCAGUUAA	2814	UUAACUGG CUGAUGAGGNNNNNNNNCCGAA AGUGAGAC	6963
4595	CUACCAGUU AAAGCAAA	2815	UUUGCUUU CUGAUGAGGNNNNNNNNCCGAA ACUGGUAG	6964
4596	UACCAGUUA AAGCAAAA	2816	UUUUGCUU CUGAUGAGGNNNNNNNNCCGAA AACUGGUA	6965
4609	AAAAGACUU UCAAACAC	2817	GUGUUUGA CUGAUGAGGNNNNNNNNCCGAA AGUCUUUU	6966
4610	AAAGACUUU CAAACACG	2818	CGUGUUUG CUGAUGAGGNNNNNNNNCCGAA AAGUCUUU	6967
4611	AAGACUUUC AAACACGU	2819	ACGUGUUU CUGAUGAGGNNNNNNNNCCGAA AAAGUCUU	6968
4625	CGUGGACUC UGUCCUCC	2820	GGAGGACA CUGAUGAGGNNNNNNNNCCGAA AGUCCACG	6969
4629	GACUCUGUC CUCCAAGA	2821	UCUUGGAG CUGAUGAGGNNNNNNNNCCGAA ACAGAGUC	6970
4632	UCUGUCCUC CAAGAAGU	2822	ACUUCUUG CUGAUGAGGNNNNNNNNCCGAA AGGACAGA	6971
4654	CGGCACCUC UGUGAAAC	2823	GUUUCACA CUGAUGAGGNNNNNNNNCCGAA AGGUGCCG	6972
4668	AACUGGAUC GAAUGGGC	2824	GCCCAUUC CUGAUGAGGNNNNNNNNCCGAA AUCCAGUU	6973
4683	GCAAUGCUU UGUGUGUU	2825	AACACACA CUGAUGAGGNNNNNNNNCCGAA AGCAUUGC	6974
4684	CAAUGCUUU GUGUGUUG	2826	CAACACAC CUGAUGAGGNNNNNNNNCCGAA AAGCAUUG	6975
4691	UUGUGUGUU GAGGAUGG	2827	CCAUCCUC CUGAUGAGGNNNNNNNNCCGAA ACACACAA	6976
4709	UGAGAUGUC CCAGGGCC	2828	GGCCCUGG CUGAUGAGGNNNNNNNNCCGAA ACAUCUCA	6977
4722	GGCCGAGUC UGUCUACC	2829	GGUAGACA CUGAUGAGGNNNNNNNNCCGAA ACUCGGCC	6978
4726	GAGUCUGUC UACCUUGG	2830	CCAAGGUA CUGAUGAGGNNNNNNNNCCGAA ACAGACUC	6979
4728	GUCUGUCUA CCUUGGAG	2831	CUCCAAGG CUGAUGAGGNNNNNNNNCCGAA AGACAGAC	6980
4732	GUCUACCUU GGAGGCUU	2832	AAGCCUCC CUGAUGAGGNNNNNNNNCCGAA AGGUAGAC	6981
4740	UGGAGGCUU UGUGGAGG	2833	CCUCCACA CUGAUGAGGNNNNNNNNCCGAA AGCCUCCA	6982
4741	GGAGGCUUU GUGGAGGA	2834	UCCUCCAC CUGAUGAGGNNNNNNNNCCGAA AAGCCUCC	6983
4758	UGCGGGCUA UGAGCCAA	2835	UUGGCUCA CUGAUGAGGNNNNNNNNCCGAA AGCCCGCA	6984
4771	CCAAGUGUU AAGUGUGG	2836	CCACACUU CUGAUGAGGNNNNNNNNCCGAA ACACUUGG	6985
4772	CAAGUGUUA AGUGUGGG	2837	CCCACACU CUGAUGAGGNNNNNNNNCCGAA AACACUUG	6986
4811	GCGCAAGUC GCUCGGAG	2838	CUCCGAGC CUGAUGAGGNNNNNNNNCCGAA ACUUGCGC	6987
4815	AAGUCGCUC GGAGAGCG	2839	CGCUCUCC CUGAUGAGGNNNNNNNNCCGAA AGCGACUU	6988
4826	AGAGCGGUU GGAGCCUG	2840	CAGGCUCC CUGAUGAGGNNNNNNNNCCGAA ACCGCUCU	6989
4844	AGAUGCAUU GUGCUGGC	2841	GCCAGCAC CUGAUGAGGNNNNNNNNCCGAA AUGCAUCU	6990
4854	UGCUGGCUC UGGUGGAG	2842	CUCCACCA CUGAUGAGGNNNNNNNNCCGAA AGCCAGCA	6991
4870	GGUGGGCUU GUGGCCUG	2843	CAGGCCAC CUGAUGAGGNNNNNNNNCCGAA AGCCCACC	6992
4880	UGGCCUGUC AGGAAACG	2844	CGUUUCCU CUGAUGAGGNNNNNNNNCCGAA ACAGGCCA	6993
4908	GGCAGGGUU UGGUUUUG	2845	CAAAACCA CUGAUGAGGNNNNNNNNCCGAA ACCCUGCC	6994
4909	GCAGGGUUU GGUUUUGG	2846	CCAAAACC CUGAUGAGGNNNNNNNNCCGAA AACCCUGC	6995
4913	GGUUUGGUU UUGGAAGG	2847	CCUUCCAA CUGAUGAGGNNNNNNNNCCGAA ACCAAACC	6996
4914	GUUUGGUUU UGGAAGGU	2848	ACCUUCCA CUGAUGAGGNNNNNNNNCCGAA AACCAAAC	6997
4915	UUUGGUUUU GGAAGGUU	2849	AACCUUCC CUGAUGAGGNNNNNNNNCCGAA AAACCAAA	6998
4923	UGGAAGGUU UGCGUGCU	2850	AGCACGCA CUGAUGAGGNNNNNNNNCCGAA ACCUUCCA	6999
4924	GGAAGGUUU GCGUGCUC	2851	GAGCACGC CUGAUGAGGNNNNNNNNCCGAA AACCUUCC	7000
4932	UGCGUGCUC UUCACAGU	2852	ACUGUGAA CUGAUGAGGNNNNNNNNCCGAA AGCACGCA	7001
4934	CGUGCUCUU CACAGUCG	2853	CGACUGUG CUGAUGAGGNNNNNNNNCCGAA AGAGCACG	7002
4935	GUGCUCUUC ACAGUCGG	2854	CCGACUGU CUGAUGAGGNNNNNNNNCCGAA AAGAGCAC	7003
4941	UUCACAGUC GGGUUACA	2855	UGUAACCC CUGAUGAGGNNNNNNNNCCGAA ACUGUGAA	7004
4946	AGUCGGGUU ACAGGCGA	2856	UCGCCUGU CUGAUGAGGNNNNNNNNCCGAA ACCCGACU	7005
4947	GUCGGGUUA CAGGCGAG	2857	CUCGCCUG CUGAUGAGGNNNNNNNNCCGAA AACCCGAC	7006
4957	AGGCGAGUU CCCUGUGG	2858	CCACAGGG CUGAUGAGGNNNNNNNNCCGAA ACUCGCCU	7007
4958	GGCGAGUUC CCUGUGGC	2859	GCCACAGG CUGAUGAGGNNNNNNNNCCGAA AACUCGCC	7008
4969	UGUGGCGUU UCCUACUC	2860	GAGUAGGA CUGAUGAGGNNNNNNNNCCGAA ACGCCACA	7009
4970	GUGGCGUUU CCUACUCC	2861	GGAGUAGG CUGAUGAGGNNNNNNNNCCGAA AACGCCAC	7010
4971	UGGCGUUUC CUACUCCU	2862	AGGAGUAG CUGAUGAGGNNNNNNNNCCGAA AAACGCCA	7011
4974	CGUUUCCUA CUCCUAAU	2863	AUUAGGAG CUGAUGAGGNNNNNNNNCCGAA AGGAAACG	7012
4977	UUCCUACUC CUAAUGAG	2864	CUCAUUAG CUGAUGAGGNNNNNNNNCCGAA AGUAGGAA	7013
4980	CUACUCCUA AUGAGAGU	2865	ACUCUCAU CUGAUGAGGNNNNNNNNCCGAA AGGAGUAG	7014
4989	AUGAGAGUU CCUUCCGG	2866	CCGGAAGG CUGAUGAGGNNNNNNNNCCGAA ACUCUCAU	7015
4990	UGAGAGUUC CUUCCGGA	2867	UCCGGAAG CUGAUGAGGNNNNNNNNCCGAA AACUCUCA	7016
4993	GAGUUCCUU CCGGACUC	2868	GAGUCCGG CUGAUGAGGNNNNNNNNCCGAA AGGAACUC	7017
4994	AGUUCCUUC CGGACUCC	2869	AGAGUCCG CUGAUGAGGNNNNNNNNCCGAA AAGGAACU	7018
5001	UCCGGACUC UUACGUGU	2870	ACACGUAA CUGAUGAGGNNNNNNNNCCGAA AGUCCGGA	7019
5003	CGGACUCUU ACGUGUCU	2871	AGACACGU CUGAUGAGGNNNNNNNNCCGAA AGAGUCCG	7020
5004	GGACUCUUA CGUGUCUC	2872	GAGACACG CUGAUGAGGNNNNNNNNCCGAA AAGAGUCC	7021
5010	UUACGUGUC UCCUGGCC	2873	GGCCAGGA CUGAUGAGGNNNNNNNNCCGAA ACACGUAA	7022
5012	ACGUGUCUC CUGGCCUG	2874	CAGGCCAG CUGAUGAGGNNNNNNNNCCGAA AGACACGU	7023
5046	AUGCAGCUU GCUCCUUC	2875	GAAGGAGC CUGAUGAGGNNNNNNNNCCGAA AGCUGCAU	7024
5050	AGCUUGCUC CUUCCUCA	2876	UGAGGAAG CUGAUGAGGNNNNNNNNCCGAA AGCAAGCU	7025
5053	UUGCUCCUU CCUCAUCU	2877	AGAUGAGG CUGAUGAGGNNNNNNNNCCGAA AGGAGCAA	7026
5054	UGCUCCUUC CUCAUCUC	2878	GAGAUGAG CUGAUGAGGNNNNNNNNCCGAA AAGGAGCA	7027
5057	UCCUUCCUC AUCUCUCA	2879	UGAGAGAU CUGAUGAGGNNNNNNNNCCGAA AGGAAGGA	7028
5060	UUCCUCAUC UCUCAGGC	2880	GCCUGAGA CUGAUGAGGNNNNNNNNCCGAA AUGAGGAA	7029
5062	CCUCAUCUC UCAGGCUG	2881	CAGCCUGA CUGAUGAGGNNNNNNNNCCGAA AGAUGAGG	7030
5064	UCAUCUCUC AGGCUGUG	2882	CACAGCCU CUGAUGAGGNNNNNNNNCCGAA AGAGAUGA	7031
5076	CUGUGCCUU AAUUCAGA	2883	UCUGAAUU CUGAUGAGGNNNNNNNNCCGAA AGGCACAG	7032
5077	UGUGCCUUA AUUCAGAA	2884	UUCUGAAU CUGAUGAGGNNNNNNNNCCGAA AAGGCACA	7033
5080	GCCUUAAUU CAGAACAC	2885	GUGUUCUG CUGAUGAGGNNNNNNNNCCGAA AUUAAGGC	7034
5081	CCUUAAUUC AGAACACC	2886	GGUGUUCU CUGAUGAGGNNNNNNNNCCGAA AAUUAAGG	7035
5105	AGGAACGUC GGCAGAGG	2887	CCUCUGCC CUGAUGAGGNNNNNNNNCCGAA ACGUUCCU	7036
5116	CAGAGGCUC CUGACGGG	2888	CCCGUCAG CUGAUGAGGNNNNNNNNCCGAA AGCCUCUG	7037
5135	CGAAGAAUU GUGAGAAC	2889	GUUCUCAC CUGAUGAGGNNNNNNNNCCGAA AUUCUUCG	7038
5156	CAGAAACUC AGGGUUUC	2890	GAAACCCU CUGAUGAGGNNNNNNNNCCGAA AGUUUCUG	7039
5162	CUCAGGGUU UCUGCUGG	2891	CCAGCAGA CUGAUGAGGNNNNNNNNCCGAA ACCCUGAG	7040
5163	UCAGGGUUU CUGCUGGG	2892	CCCAGCAG CUGAUGAGGNNNNNNNNCCGAA AACCCUGA	7041
5164	CAGGGUUUC UGCUGGGU	2893	ACCCAGCA CUGAUGAGGNNNNNNNNCCGAA AAACCCUG	7042
5203	UGGCAGGUC UGAGGGUU	2894	AACCCUCA CUGAUGAGGNNNNNNNNCCGAA ACCUGCCA	7043
5211	CUGAGGGUU CUCUGUCA	2895	UGACAGAG CUGAUGAGGNNNNNNNNCCGAA ACCCUCAG	7044
5212	UGAGGGUUC UCUGUCAA	2896	UUGACAGA CUGAUGAGGNNNNNNNNCCGAA AACCCUCA	7045
5214	AGGGUUCUC UGUCAAGU	2897	ACUUGACA CUGAUGAGGNNNNNNNNCCGAA AGAACCCU	7046
5218	UUCUCUGUC AAGUGGCG	2898	CGCCACUU CUGAUGAGGNNNNNNNNCCGAA ACAGAGAA	7047
5229	GUGGCGGUA AAGGCUCA	2899	UGAGCCUU CUGAUGAGGNNNNNNNNCCGAA ACCGCCAC	7048
5236	UAAAGGCUC AGGCUGGU	2900	ACCAGCCU CUGAUGAGGNNNNNNNNCCGAA AGCCUUUA	7049
5247	GCUGGUGUU CUUCCUCU	2901	AGAGGAAG CUGAUGAGGNNNNNNNNCCGAA ACACCAGC	7050
5248	CUGGUGUUC UUCCUCUA	2902	UAGAGGAA CUGAUGAGGNNNNNNNNCCGAA AACACCAG	7051
5250	GGUGUUCUU CCUCUAUC	2903	GAUAGAGG CUGAUGAGGNNNNNNNNCCGAA AGAACACC	7052
5251	GUGUUCUUC CUCUAUCU	2904	AGAUAGAG CUGAUGAGGNNNNNNNNCCGAA AAGAACAC	7053
5254	UUCUUCCUC UAUCUCCA	2905	UGGAGAUA CUGAUGAGGNNNNNNNNCCGAA AGGAAGAA	7054
5256	CUUCCUCUA UCUGCACU	2906	AGUGGAGA CUGAUGAGGNNNNNNNNCCGAA AGAGGAAG	7055
5258	UCCUCUAUC UCCACUCC	2907	GGAGUGGA CUGAUGAGGNNNNNNNNCCGAA AUAGAGGA	7056
5260	CUCUAUCUC CACUCCUG	2908	CAGGAGUG CUGAUGAGGNNNNNNNNCCGAA AGAUAGAG	7057
5265	UCUCCACUC CUGUCAGG	2909	CCUGACAG CUGAUGAGGNNNNNNNNCCGAA AGUGGAGA	7058
5270	ACUCCUGUC AGGCCCCC	2910	GGGGGCCU CUGAUGAGGNNNNNNNNCCGAA ACAGGAGU	7059
5283	CCCCAAGUC CUCAGUAU	2911	AUACUGAG CUGAUGAGGNNNNNNNNCCGAA ACUUGGGG	7060
5286	CAAGUCCUC AGUAUUUU	2912	AAAAUACU CUGAUGAGGNNNNNNNNCCGAA AGGACUUG	7061
5290	UCCUCAGUA UUUUAGCU	2913	AGCUAAAA CUGAUGAGGNNNNNNNNCCGAA ACUGAGGA	7062
5292	CUCAGUAUU UUAGCUUU	2914	AAAGCUAA CUGAUGAGGNNNNNNNNCCGAA AUACUGAG	7063
5293	UCAGUAUUU UAGCUUUG	2915	CAAAGCUA CUGAUGAGGNNNNNNNNCCGAA AAUACUGA	7064
5294	CAGUAUUUU AGCUUUGU	2916	ACAAAGCU CUGAUGAGGNNNNNNNNCCGAA AAAUACUG	7065
5295	AGUAUUUUA GCUUUGUG	2917	CACAAAGC CUGAUGAGGNNNNNNNNCCGAA AAAAUACU	7066
5299	UUUUAGCUU UGUGGCUU	2918	AAGCCACA CUGAUGAGGNNNNNNNNCCGAA AGCUAAAA	7067
5300	UUUAGCUUU GUGGCUUC	2919	GAAGCCAC CUGAUGAGGNNNNNNNNCCGAA AAGCUAAA	7068
5307	UUGUGGCUU CCUGAUGG	2920	CCAUCAGG CUGAUGAGGNNNNNNNNCCGAA AGCCACAA	7069
5308	UGUGGCUUC CUGAUGGC	2921	GCCAUCAG CUGAUGAGGNNNNNNNNCCGAA AAGCCACA	7070
5325	AGAAAAAUC UUAAUUGG	2922	CCAAUUAA CUGAUGAGGNNNNNNNNCCGAA AUUUUUCU	7071
5327	AAAAAUCUU AAUUGGUU	2923	AACCAAUU CUGAUGAGGNNNNNNNNCCGAA AGAUUUUU	7072
5328	AAAAUCUUA AUUGGUUG	2924	CAACCAAU CUGAUGAGGNNNNNNNNCCGAA AAGAUUUU	7073
5331	AUCUUAAUU GGUUGGUU	2925	AACCAACC CUGAUGAGGNNNNNNNNCCGAA AUUAAGAU	7074
5335	UAAUUGGUU GGUUUGCU	2926	AGCAAACC CUGAUGAGGNNNNNNNNCCGAA ACCAAUUA	7075
5339	UGGUUGGUU UGCUCUCC	2927	GGAGAGCA CUGAUGAGGNNNNNNNNCCGAA ACCAACCA	7076
5340	GGUUGGUUU GCUCUCCA	2928	UGGAGAGC CUGAUGAGGNNNNNNNNCCGAA AACCAACC	7077
5344	GGUUUGCUC UCCAGAUA	2929	UAUCUGGA CUGAUGAGGNNNNNNNNCCGAA AGCAAACC	7078
5346	UUUGCUCUC CAGAUAAU	2930	AUUAUCUG CUGAUGAGGNNNNNNNNCCGAA AGAGCAAA	7079
5352	CUCCAGAUA AUCACUAG	2931	CUAGUGAU CUGAUGAGGNNNNNNNNCCGAA AUCUGGAG	7080
5355	CAGAUAAUC ACUAGCCA	2932	UGGCUAGU CUGAUGAGGNNNNNNNNCCGAA AUUAUCUG	7081
5359	UAAUCACUA GCCAGAUU	2933	AAUCUGGC CUGAUGAGGNNNNNNNNCCGAA AGUGAUUA	7082
5367	AGCCAGAUU UCGAAAUU	2934	AAUUUCGA CUGAUGAGGNNNNNNNNCCGAA AUCUGGCU	7083
5368	GCCAGAUUU CGAAAUUA	2935	UAAUUUCG CUGAUGAGGNNNNNNNNCCGAA AAUCUGGC	7084
5369	CCAGAUUUC GAAAUUAC	2936	GUAAUUUC CUGAUGAGGNNNNNNNNCCGAA AAAUCUGG	7085
5375	UUCGAAAUU ACUUUUUA	2937	UAAAAAGU CUGAUGAGGNNNNNNNNCCGAA AUUUCGAA	7086
5376	UCGAAAUUA CUUUUUAG	2938	CUAAAAAG CUGAUGAGGNNNNNNNNCCGAA AAUUUCGA	7087
5379	AAAUUACUU UUUAGCCG	2939	CGGCUAAA CUGAUGAGGNNNNNNNNCCGAA AGUAAUUU	7088
5380	AAUUACUUU UUAGCCGA	2940	UCGGCUAA CUGAUGAGGNNNNNNNNCCGAA AAGUAAUU	7089
5381	AUUACUUUU UAGCCGAG	2941	CUCGGCUA CUGAUGAGGNNNNNNNNCCGAA AAAGUAAU	7090
5382	UUACUUUUU AGCCGAGG	2942	CCUCGGCU CUGAUGAGGNNNNNNNNCCGAA AAAAGUAA	7091
5383	UACUUUUUA GCCGAGGU	2943	ACCUCGGC CUGAUGAGGNNNNNNNNCCGAA AAAAAGUA	7092
5392	GCCGAGGUU AUGAUAAC	2944	GUUAUCAU CUGAUGAGGNNNNNNNNCCGAA ACCUCGGC	7093
5393	CCGAGGUUA UGAUAACA	2945	UGUUAUCA CUGAUGAGGNNNNNNNNCCGAA AACCUCGG	7094
5398	GUUAUGAUA ACAUCUAC	2946	GUAGAUGU CUGAUGAGGNNNNNNNNCCGAA AUCAUAAC	7095
5403	GAUAACAUC UACUGUAU	2947	AUACAGUA CUGAUGAGGNNNNNNNNCCGAA AUGUUAUC	7096
5405	UAACAUCUA CUGUAUCC	2948	GGAUACAG CUGAUGAGGNNNNNNNNCCGAA AGAUGUUA	7097
5410	UCUACUGUA UCCUUUAG	2949	CUAAAGGA CUGAUGAGGNNNNNNNNCCGAA ACAGUAGA	7098
5412	UACUGUAUC CUUUAGAA	2950	UUCUAAAG CUGAUGAGGNNNNNNNNCCGAA AUACAGUA	7099
5415	UGUAUCCUU UAGAAUUU	2951	AAAUUCUA CUGAUGAGGNNNNNNNNCCGAA AGGAUACA	7100
5416	GUAUCCUUU AGAAUUUU	2952	AAAAUUCU CUGAUGAGGNNNNNNNNCCGAA AAGGAUAC	7101
5417	UAUCCUUUA GAAUUUUA	2953	UAAAAUUC CUGAUGAGGNNNNNNNNCCGAA AAAGGAUA	7102
5422	UUUAGAAUU UUAACCUA	2954	UAGGUUAA CUGAUGAGGNNNNNNNNCCGAA AUUCUAAA	7103
5423	UUAGAAUUU UAACCUAU	2955	AUAGGUUA CUGAUGAGGNNNNNNNNCCGAA AAUUCUAA	7104
5424	UAGAAUUUU AACCUAUA	2956	UAUAGGUU CUGAUGAGGNNNNNNNNCCGAA AAAUUCUA	7105
5425	AGAAUUUUA ACCUAUAA	2957	UUAUAGGU CUGAUGAGGcsCCGUUAGGCCGAA AAAAUUCU	7106
5430	UUUAACCUA UAAAACUA	2958	UAGUUUUA CUGAUGAGGNNNNNNNNCCGAA AGGUUAAA	7107
5432	UAACCUAUA AAACUAUG	2959	CAUAGUUU CUGAUGAGGNNNNNNNNCCGAA AUAGGUUA	7108
5438	AUAAAACUA UGUCUACU	2960	AGUAGACA CUGAUGAGGNNNNNNNNCCGAA AGUUUUAU	7109
5442	AACUAUGUC UACUGGUU	2961	AACCAGUA CUGAUGAGGNNNNNNNNCCGAA ACAUAGUU	7110
5444	CUAUGUCUA CUGGUUUC	2962	GAAACCAG CUGAUGAGGNNNNNNNNCCGAA AGACAUAG	7111
5450	CUACUGGUU UCUGCCUG	2963	CAGGCAGA CUGAUGAGGNNNNNNNNCCGAA ACCAGUAG	7112
5451	UACUGGUUU CUGCCUGU	2964	ACAGGCAG CUGAUGAGGNNNNNNNNCCGAA AACCAGUA	7113
5452	ACUGGUUUC UGCCUGUG	2965	CACAGGCA CUGAUGAGGNNNNNNNNCCGAA AAACCAGU	7114
Where “N” represents stem II region of a HH ribozyme (Hertel et al., 1992 Nucleic Acids Res. 20 3252).
The length of stem II may be ≧2 base-pairs.
Underlined region can be any N sequence of linker, as described herein.

TABLE VII
Mouse flk-1 VEGF Receptor-Hairpin Ribozyme and Substrate Sequences
		Seq		Seq
		ID		ID
Pos	Substrate	No	HP Ribozyme Sequences	No
74	GGGCCCA GAC UGUGUCCC	2966	GGGACACA AGAA GGGCCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7115
88	UCCCGCA GCC GGGAUAAC	2967	GUUAUCCC AGAA GCGGGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7116
105	CCUGGCU GAC CCGAUUCC	2968	GGAAUCGG AGAA GCCAGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7117
110	CUGACCC GAU UCCGCGGA	2969	UCCGCGGA AGAA GGUCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7118
125	GGACACC GCU GACAGCCG	2970	CGGCUGUC AGAA GUGUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7119
132	GCUGACA GCC GCGGCUGG	2971	CCAGCCGC AGAA GUCAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7120
138	AGCCGCG GCU GGAGCCAG	2972	CUGGCUCC AGAA GCGGCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7121
175	CUCCCCG GUC UUGCGCUG	2973	CAGCGCAA AGAA GGGGAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7122
199	CCAUACC GCC UCUGUGAC	2974	GUCACAGA AGAA GUAUGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7123
309	GCUAGCU GUC GCUCUGUG	2975	CACAGAGC AGAA GCUAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7124
342	CCGAGCC GCC UCUGUGGG	2976	CCCACAGA AGAA GCUCGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7125
434	CCCUUCA GAU UACUUGCA	2977	UGCAAGUA AGAA GAAGGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7126
630	CUCCACU GUU UAUGUCUA	2978	UAGACAUA AGAA GUGGAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7127
655	GAUUACA GAU CACCAUUC	2979	GAAUGGUG AGAA GUAAUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7128
739	AUCCCCU GCC GAGGGUCG	2980	CGACCCUC AGAA GGGGAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7129
807	UGUUCCG GAU GGAAACAG	2981	CUGUUUCC AGAA GGAACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7130
920	CCUAUCA GUC UAUCAUGU	2982	ACAUGAUA AGAA GAUAGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7131
1002	GCUAUCU GCC GGAGAAAA	2983	UUUUCUCC AGAA GAUAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7132
1229	GUGGACG GAU GAUCAAGA	2984	UCUUGAUC AGAA GUCCAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7133
1365	UUACCCA GCU CCUGAUAU	2985	AUAUCAGG AGAA GGGUAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7134
1556	CACCCCA GAU CGGUGAGA	2986	UCUCACCG AGAA GGGGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7135
1629	AUGCACA GUC UACGCCAA	2987	UUGGCGUA AGAA GUGCAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7136
1687	GAAGCCU GCU CCUACAGA	2988	UCUGUAGG AGAA GGCUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7137
1696	UCCUACA GAC CCGGCCAA	2989	UUGGCCGG AGAA GUAGGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7138
1796	AUGCCCU GAU UGAAGGAA	2990	UUCCUUCA AGAA GGGCAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7139
1950	GCAACCU GCU GCCCAGCC	2991	GGCUGGGC AGAA GGUUGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7140
1953	ACCUGCU GCC CAGCCAAC	2992	GUUGGCUG AGAA GCAGGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7141
1985	UGUCCCU GUU GUGCACUG	2993	CAGUGCAC AGAA GGGACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7142
2055	AACAUCG GUC CACAUGGG	2994	CCCAUGUG AGAA GAUGUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7143
2082	CACACCA GUU UGCAAGAA	2995	UUCUUGCA AGAA GGUGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6343
2208	UUGCUCU GCU CAAGAUAA	2996	UUAUCUUG AGAA GAGCAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7144
2252	UCAAACA GCU CAUCAUCC	2997	GGAUGAUG AGAA GUUUGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7145
2444	GGAACCU GAC UAUCCGCA	2998	UGCGGAUA AGAA GGUUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7146
2639	UCCUACG GAC CGUUAAGC	2999	GCUUAACG AGAA GUAGGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7147
2703	GGAUCCA GAU GAAUUGCC	3000	GGCAAUUC AGAA GGAUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7148
2777	GGGACCG GCU GAAACUAG	3001	CUAGUUUC AGAA GGUCCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7149
2832	UGAGGCA GAC GCUUUUGG	3002	CCAAAAGC AGAA GCCUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7150
3199	UCUGCCA GCU CAGGCUUU	3003	AAAGCCUG AGAA GGCAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7151
3278	ACUUCCU GAC CUUGGAGC	2199	GCUCCAAG AGAA GGAAGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6355
3304	UGUUACA GCU UCCAAGUG	2200	CACUUGGA AGAA GUAACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6356
3421	GACUUCG GCU UGGCCCGG	3004	CCGGGCCA AGAA GAAGUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7152
3450	AGACCCG GAU UAUGUCAG	3005	CUGACAUA AGAA GGGUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7153
3475	GAUGCCC GAC UCCCUUUG	3006	CAAAGGGA AGAA GGCAUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7154
3663	GGCUCCU GAC UACACUAC	3007	GUAGUGUA AGAA GGAGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7155
3689	UGUACCA GAC CAUGCUGG	2203	CCAGCAUG AGAA GGUACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6359
3703	CUGGACU GCU GGCAUGAG	3008	CUCAUGCC AGAA GUCCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7156
3860	UCUCCCU GCC UACCUCAC	3009	GUGAGGUA AGAA GGGAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7157
3873	CUCACCU GUU UCCUGUAU	2206	AUACAGGA AGAA GGUGAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6362
4038	GAUCCCA GAU GACAGCCA	3010	UGGCUGUC AGAA GGGAUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7158
4181	CCAACCA GAC CAGUGGCU	3011	AGCCACUG AGAA GGUUGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7159
4196	GCUACCA GUC UGGGUAUC	3012	GAUACCCA AGAA GGUAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7160
4212	UCACUCA GAU GACACAGA	3013	UCUGUGUC AGAA GAGUGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	6367
4278	UGCUGCA GUU CACGCUGA	3014	UCAGCGUG AGAA GCAGCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7161
4287	UCACGCU GAC UCAGGGAC	3015	GUCCCUGA AGAA GCGUGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7162
4307	CACUGCA GCU CACCUCCU	3016	AGGAGGUG AGAA GCAGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7163
4318	ACCUCCU GUU UAAAUGGA	3017	UCCAUUUA AGAA GGAGGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7164
4338	UGGUCCU GUC CCGGCUCC	3018	GGAGCCGG AGAA GGACCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7165
4344	UGUCCCG GCU CCGCCCCC	3019	GGGGGCGG AGAA GGGACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7166
4349	CGGCUCC GCC CCCAACUC	3020	GAGUUGGG AGAA GAGCCG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7167
4383	AGGUGCU GCU UAGAUUUU	3021	AAAAUCUA AGAA GCACCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7168
4462	GACCUCA GAC UGCAAGGA	3022	UCCUUGCA AGAA GAGGUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7169
4574	GUGCCCU GCU GUGGUCUC	3023	GAGACCAC AGAA GGGCAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7170
4626	GGACUCU GUC CUCCAAGA	3024	UCUUGGAG AGAA GAGUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7171
4723	CGAGUCU GUC UACCUUGG	3025	CCAAGGUA AGAA GACUCG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7172
4823	GAGAGCG GUU GGAGCCUG	3026	CAGGCUCC AGAA GCUCUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7173
4836	GCCUGCA GAU GCAUUGUG	3027	CACAAUGC AGAA GCAGGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7174
4896	AAAGGCG GCC GGCAGGGU	3028	ACCCUGCC AGAA GCCUUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7175
4938	CUUCACA GUC GGGUUACA	3029	UGUAACCC AGAA GUGAAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7176
4996	CCUUCCG GAC UCUUACGU	3030	ACGUAAGA AGAA GGAAGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7177
5042	UGAUGCA GCU UGCUCCUU	3031	AAGGAGCA AGAA GCAUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7178
5118	GGCUCCU GAC GGGGCCGA	3032	UCGGCCCC AGAA GGAGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7179
5165	GGUUUCU GCU GGGUGGAG	3033	CUCCACCC AGAA GAAACC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7180
5310	GCUUCCU GAU GGCAGAAA	3034	UUUCUGCC AGAA GGAAGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7181
5363	CUAGCCA GAU UUCGAAAU	3035	AUUUCGAA AGAA GGCUAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7182
5453	GGUUUCU GCC UGUGUGCU	3036	AGCACACA AGAA GAAACC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	7183

TABLE VIII
Mouse flt-1 VEGF Receptor-Hammerhead Ribozyme and Substrate
Sequence
		Seq
		ID		Seq ID
Pos	Substrate	No	HH Ribozyme Sequence	No
17	GGCCGCGUC UUGCUCAC	3037	GUGAGCAA CUGAUGAGGNNNNNNNNCCGAA ACGCGGCC	7184
19	CCGCGUCUU GCUCACCA	3038	UGGUGAGC CUGAUGAGGNNNNNNNNCCGAA AGACGCGG	7185
23	GUCUUGCUC ACCAUGGU	3039	ACCAUGGU CUGAUGAGGNNNNNNNNCCGAA AGCAAGAC	7186
32	ACCAUGGUC AGCUGCUG	3040	CAGCAGCU CUGAUGAGGNNNNNNNNCCGAA ACCAUGGU	7187
53	ACCGCGGUC UUGCCUUA	3041	UAAGGCAA CUGAUGAGGNNNNNNNNCCGAA ACCGCGGU	7188
55	CGCGGUCUU GCCUUACG	3042	CGUAAGGC CUGAUGAGGNNNNNNNNCCGAA AGACCGCG	7189
60	UCUUGCCUU ACGCGCUG	3043	CAGCGCGU CUGAUGAGGNNNNNNNNCCGAA AGGCAAGA	7190
61	CUUGCCUUA CGCGCUGC	3044	GCAGCGCG CUGAUGAGGNNNNNNNNCCGAA AAGGCAAG	7191
71	GCGCUGCUC GGGUGUCU	3045	AGACACCC CUGAUGAGGNNNNNNNNCCGAA AGCAGCGC	7192
78	UCGGGUGUC UGCUUCUC	3046	GAGAAGCA CUGAUGAGGNNNNNNNNCCGAA ACACCCGA	7193
83	UGUCUGCUU CUCACAGG	25	CCUGUGAG CUGAUGAGGNNNNNNNNCCGAA AGCAGACA	4181
84	GUCUGCUUC UCACAGGA	26	UCCUGUGA CUGAUGAGGNNNNNNNNCCGAA AAGCAGAC	4182
86	CUGCUUCUC ACAGGAUA	3047	UAUCCUGU CUGAUGAGGNNNNNNNNCCGAA AGAAGCAG	7194
94	CACAGGAUA UGGCUCAG	3048	CUGAGCCA CUGAUGAGGNNNNNNNNCCGAA AUCCUGUG	7195
100	AUAUGGCUC AGGGUCGA	3049	UCGACCCU CUGAUGAGGNNNNNNNNCCGAA AGCCAUAU	7196
106	CUCAGGGUC GAAGUUAA	3050	UUAACUUC CUGAUGAGGNNNNNNNNCCGAA ACCCUGAG	7197
112	GUCGAAGUU AAAAGUGC	3051	GCACUUUU CUGAUGAGGNNNNNNNNCCGAA ACUUCGAC	7198
113	UCGAAGUUA AAAGUGCC	3052	GGCACUUU CUGAUGAGGNNNNNNNNCCGAA AACUUCGA	7199
132	AACUGAGUU UAAAAGGC	37	GCCUUUUA CUGAUGAGGNNNNNNNNCCGAA ACUCAGUU	4193
133	ACUGAGUUU AAAAGGCA	38	UGCCUUUU CUGAUGAGGNNNNNNNNCCGAA AACUCAGU	4194
134	CUGAGUUUA AAAGGCAC	39	GUGCCUUU CUGAUGAGGNNNNNNNNCCGAA AAACUCAG	4195
152	CAGCAUGUC AUGCAAGC	3053	GCUUGCAU CUGAUGAGGNNNNNNNNCCGAA ACAUGCUG	7200
171	GCCAGACUC UCUUUCUC	3054	GAGAAAGA CUGAUGAGGNNNNNNNNCCGAA AGUCUGGC	7201
173	CAGACUCUC UUUCUCAA	3055	UUGAGAAA CUGAUGAGGNNNNNNNNCCGAA AGAGUCUG	7202
175	GACUCUCUU UCUCAAGU	3056	ACUUGAGA CUGAUGAGGNNNNNNNNCCGAA AGAGAGUC	7203
176	ACUCUCUUU CUCAAGUG	3057	CACUUGAG CUGAUGAGGNNNNNNNNCCGAA AAGAGAGU	7204
177	CUCUCUUUC UCAAGUGC	3058	GCACUUGA CUGAUGAGGNNNNNNNNCCGAA AAAGAGAG	7205
179	CUCUUUCUC AAGUGCAG	3059	CUGCACUU CUGAUGAGGNNNNNNNNCCGAA AGAAAGAG	7206
205	AGCCCACUC AUGGUCUC	3060	GAGACCAU CUGAUGAGGNNNNNNNNCCGAA AGUGGGCU	7207
211	CUCAUGGUC UCUGCCCA	3061	UGGGCAGA CUGAUGAGGNNNNNNNNCCGAA ACCAUGAG	7208
213	CAUGGUCUC UGCCCACG	3062	CGUGGGCA CUGAUGAGGNNNNNNNNCCGAA AGACCAUG	7209
254	CUGAGCAUC ACUCCCCC	3063	GGGGGAGU CUGAUGAGGNNNNNNNNCCGAA AUGCUCAG	7210
258	GCAUCACUC CCCCAUCG	3064	CGAUGGGG CUGAUGAGGNNNNNNNNCCGAA AGUGAUGC	7211
265	UCCCCCAUC GGCCUGUG	3065	CACAGGCC CUGAUGAGGNNNNNNNNCCGAA AUGGGGGA	7212
282	GGAGGGAUA ACAGGCAA	3066	UUGCCUGU CUGAUGAGGNNNNNNNNCCGAA AUCCCUCC	7213
292	CAGGCAAUU CUGCAGCA	3067	UGCUGCAG CUGAUGAGGNNNNNNNNCCGAA AUUGCCUG	7214
293	AGGCAAUUC UGCAGCAC	3068	GUGCUGCA CUGAUGAGGNNNNNNNNCCGAA AAUUGCCU	7215
304	CAGCACCUU GACCUUGG	3069	CCAAGGUC CUGAUGAGGNNNNNNNNCCGAA AGGUGCUG	7216
310	CUUGACCUU GGACACGG	3070	CCGUGUCC CUGAUGAGGNNNNNNNNCCGAA AGGUCAAG	7217
341	ACGGGCCUC UACACCUG	3071	CAGGUGUA CUGAUGAGGNNNNNNNNCCGAA AGGCCCGU	7218
343	GGGCCUCUA CACCUGUA	3072	UACAGGUG CUGAUGAGGNNNNNNNNCCGAA AGAGGCCC	7219
351	ACACCUGUA GAUACCUC	3073	GAGGUAUC CUGAUGAGGNNNNNNNNCCGAA ACAGGUGU	7220
355	CUGUAGAUA CCUCCCUA	3074	UAGGGAGG CUGAUGAGGNNNNNNNNCCGAA AUCUACAG	7221
359	AGAUACCUC CCUACAUC	3075	GAUGUAGG CUGAUGAGGNNNNNNNNCCGAA AGGUAUCU	7222
363	ACCUCCCUA CAUCUACU	3076	AGUAGAUG CUGAUGAGGNNNNNNNNCCGAA AGGGAGGU	7223
367	CCCUACAUC UACUUCGA	3077	UCGAAGUA CUGAUGAGGNNNNNNNNCCGAA AUGUAGGG	7224
369	CUACAUCUA CUUCGAAG	3078	CUUCGAAG CUGAUGAGGNNNNNNNNCCGAA AGAUGUAG	7225
372	CAUCUACUU CGAAGAAA	3079	UUUCUUCG CUGAUGAGGNNNNNNNNCCGAA AGUAGAUG	7226
373	AUCUACUUC GAAGAAAA	3080	UUUUCUUC CUGAUGAGGNNNNNNNNCCGAA AAGUAGAU	7227
394	AGCGGAAUC UUCAAUCU	3081	AGAUUGAA CUGAUGAGGNNNNNNNNCCGAA AUUCCGCU	7228
396	CGGAAUCUU CAAUCUAC	3082	GUAGAUUG CUGAUGAGGNNNNNNNNCCGAA AGAUUCCG	7229
397	GGAAUCUUC AAUCUACA	3083	UGUAGAUU CUGAUGAGGNNNNNNNNCCGAA AAGAUUCC	7230
401	UCUUCAAUC UACAUAUU	3084	AAUAUGUA CUGAUGAGGNNNNNNNNCCGAA AUUGAAGA	7231
403	UUCAAUCUA CAUAUUUG	3085	CAAAUAUG CUGAUGAGGNNNNNNNNCCGAA AGAUUGAA	7232
407	AUCUACAUA UUUGUUAG	3086	CUAACAAA CUGAUGAGGNNNNNNNNCCGAA AUGUAGAU	7233
409	CUACAUAUU UGUUAGUG	3087	CACUAACA CUGAUGAGGNNNNNNNNCCGAA AUAUGUAG	7234
410	UACAUAUUU GUUAGUGA	3088	UCACUAAC CUGAUGAGGNNNNNNNNCCGAA AAUAUGUA	7235
413	AUAUUUGUU AGUGAUGC	3089	GCAUCACU CUGAUGAGGNNNNNNNNCCGAA ACAAAUAU	7236
414	UAUUUGUUA GUGAUGCA	3090	UGCAUCAC CUGAUGAGGNNNNNNNNCCGAA AACAAAUA	7237
429	CAGGGAGUC CUUUCAUA	3091	UAUGAAAG CUGAUGAGGNNNNNNNNCCGAA ACUCCCUG	7238
432	GGAGUCCUU UCAUAGAG	3092	CUCUAUGA CUGAUGAGGNNNNNNNNCCGAA AGGACUCC	7239
433	GAGUCCUUU CAUAGAGA	3093	UCUCUAUG CUGAUGAGGNNNNNNNNCCGAA AAGGACUC	7240
434	AGUCCUUUC AUAGAGAU	3094	AUCUCUAU CUGAUGAGGNNNNNNNNCCGAA AAAGGACU	7241
437	CCUUUCAUA GAGAUGCA	3095	UGCAUCUC CUGAUGAGGNNNNNNNNCCGAA AUGAAAGG	7242
455	ACUGACAUA CCCAAACU	3096	AGUUUGGG CUGAUGAGGNNNNNNNNCCGAA AUGUCAGU	7243
464	CCCAAACUU GUGCACAU	3097	AUGUGCAC CUGAUGAGGNNNNNNNNCCGAA AGUUUGGG	7244
491	AGACAGCUC AUCAUCCC	3098	GGGAUGAU CUGAUGAGGNNNNNNNNCCGAA AGCUGUCU	7245
494	CAGCUCAUC AUCCCCUG	3099	CAGGGGAU CUGAUGAGGNNNNNNNNCCGAA AUGAGCUG	7246
497	CUCAUCAUC CCCUGCCG	3100	CGGCAGGG CUGAUGAGGNNNNNNNNCCGAA AUGAUGAG	7247
514	GGUGACGUC ACCCAACG	3101	CGUUGGGU CUGAUGAGGNNNNNNNNCCGAA ACGUCACC	7248
524	CCCAACGUC ACAGUCAC	3102	GUGACUGU CUGAUGAGGNNNNNNNNCCGAA ACGUUGGG	7249
530	GUCACAGUC ACCCUAAA	3103	UUUAGGGU CUGAUGAGGNNNNNNNNCCGAA ACUGUGAC	7250
536	GUCACCCUA AAAAAGUU	3104	AACUUUUU CUGAUGAGGNNNNNNNNCCGAA AGGGUGAC	7251
544	AAAAAAGUU UCCAUUUG	3105	CAAAUGGA CUGAUGAGGNNNNNNNNCCGAA ACUUUUUU	7252
545	AAAAAGUUU CCAUUUGA	3106	UCAAAUGG CUGAUGAGGNNNNNNNNCCGAA AACUUUUU	7253
546	AAAAGUUUC CAUUUGAU	3107	AUCAAAUG CUGAUGAGGNNNNNNNNCCGAA AAACUUUU	7254
550	GUUUCCAUU UGAUACUC	3108	GAGUAUCA CUGAUGAGGNNNNNNNNCCGAA AUGGAAAC	7255
551	UUUCCAUUU GAUACUCU	3109	AGAGUAUC CUGAUGAGGNNNNNNNNCCGAA AAUGGAAA	7256
555	CAUUUGAUA CUCUUACC	3110	GGUAAGAG CUGAUGAGGNNNNNNNNCCGAA AUCAAAUG	7257
558	UUGAUACUC UUACCCCU	3111	AGGGGUAA CUGAUGAGGNNNNNNNNCCGAA AGUAUCAA	7258
560	GAUACUCUU ACCCCUGA	3112	UCAGGGGU CUGAUGAGGNNNNNNNNCCGAA AGAGUAUC	7259
561	AUACUCUUA CCCCUGAU	3113	AUCAGGGG CUGAUGAGGNNNNNNNNCCGAA AAGAGUAU	7260
581	CAAAGAAUA ACAUGGGA	3114	UCCCAUGU CUGAUGAGGNNNNNNNNCCGAA AUUCUUUG	7261
594	GGGACAGUA GGAGAGGC	3115	GCCUCUCC CUGAUGAGGNNNNNNNNCCGAA ACUGUCCC	7262
604	GAGAGGCUU UAUAAUAG	3116	CUAUUAUA CUGAUGAGGNNNNNNNNCCGAA AGCCUCUC	7263
605	AGAGGCUUU AUAAUAGC	3117	GCUAUUAU CUGAUGAGGNNNNNNNNCCGAA AAGCCUCU	7264
606	GAGGCUUUA UAAUAGCA	3118	UGCUAUUA CUGAUGAGGNNNNNNNNCCGAA AAAGCCUC	7265
608	GGCUUUAUA AUAGCAAA	3119	UUUGCUAU CUGAUGAGGNNNNNNNNCCGAA AUAAAGCC	7266
611	UUUAUAAUA GCAAAUGC	3120	GCAUUUGC CUGAUGAGGNNNNNNNNCCGAA AUUAUAAA	7267
625	UGCAACGUA CAAAGAGA	3121	UCUCUUUG CUGAUGAGGNNNNNNNNCCGAA ACGUUGCA	7268
635	AAAGAGAUA GGACUGCU	3122	AGCAGUCC CUGAUGAGGNNNNNNNNCCGAA AUCUCUUU	7269
662	GCCACCGUC AACGGGCA	3123	UGCCCGUU CUGAUGAGGNNNNNNNNCCGAA ACGGUGGC	7270
676	GCACCUGUA CCAGACAA	3124	UUGUCUGG CUGAUGAGGNNNNNNNNCCGAA ACAGGUGC	7271
688	GACAAACUA UCUGACCC	3125	GGGUCAGA CUGAUGAGGNNNNNNNNCCGAA AGUUUGUC	7272
690	CAAACUAUC UGACCCAU	3126	AUGGGUCA CUGAUGAGGNNNNNNNNCCGAA AUAGUUUG	7273
699	UGACCCAUC GGCAGACC	3127	GGUCUGCC CUGAUGAGGNNNNNNNNCCGAA AUGGGUCA	7274
711	AGACCAAUA CAAUCCUA	3128	UAGGAUUG CUGAUGAGGNNNNNNNNCCGAA AUUGGUCU	7275
716	AAUACAAUC CUAGAUGU	3129	ACAUCUAG CUGAUGAGGNNNNNNNNCCGAA AUUGUAUU	7276
719	ACAAUCCUA GAUGUCCA	3130	UGGACAUC CUGAUGAGGNNNNNNNNCCGAA AGGAUUGU	7277
725	CUAGAUGUC CAAAUACG	3131	CGUAUUUG CUGAUGAGGNNNNNNNNCCGAA ACAUCUAG	7278
731	GUCCAAAUA CGCCCGCC	3132	GGCGGGCG CUGAUGAGGNNNNNNNNCCGAA AUUUGGAC	7279
758	AGACUGCUC CACGGGCA	3133	UGCCCGUG CUGAUGAGGNNNNNNNNCCGAA AGCAGUCU	7280
771	GGCAGACUC UUGUCCUC	3134	GAGGACAA CUGAUGAGGNNNNNNNNCCGAA AGUCUGCC	7281
773	CAGACUCUU GUCCUCAA	3135	UUGAGGAC CUGAUGAGGNNNNNNNNCCGAA AGAGUCUG	7282
776	ACUCUUGUC CUCAACUG	3136	CAGUUGAG CUGAUGAGGNNNNNNNNCCGAA ACAAGAGU	7283
779	CUUGUCCUC AACUGCAC	3137	GUGCAGUU CUGAUGAGGNNNNNNNNCCGAA AGGACAAG	7284
803	ACGGAGCUC AAUACGAG	3138	CUCGUAUU CUGAUGAGGNNNNNNNNCCGAA AGCUCCGU	7285
807	AGCUCAAUA CGAGGGUG	3139	CACCCUCG CUGAUGAGGNNNNNNNNCCGAA AUUGAGCU	7286
831	GCUGGAAUU ACCCUGGU	3140	ACCAGGGU CUGAUGAGGNNNNNNNNCCGAA AUUCCAGC	7287
832	CUGGAAUUA CCCUGGUA	3141	UACCAGGG CUGAUGAGGNNNNNNNNCCGAA AAUUCCAG	7288
840	ACCCUGGUA AAGCAACU	3142	AGUUGCUU CUGAUGAGGNNNNNNNNCCGAA ACCAGGGU	7289
849	AAGCAACUA AGAGAGCA	3143	UGCUCUCU CUGAUGAGGNNNNNNNNCCGAA AGUUGCUU	7290
859	GAGAGCAUC UAUAAGGC	3144	GCCUUAUA CUGAUGAGGNNNNNNNNCCGAA AUGCUCUC	7291
861	GAGCAUCUA UAAGGCAG	3145	CUGCCUUA CUGAUGAGGNNNNNNNNCCGAA AGAUGCUC	7292
863	GCAUCUAUA AGGCAGCG	3146	CGCUGCCU CUGAUGAGGNNNNNNNNCCGAA AUAGAUGC	7293
875	CAGCGGAUU GACCGGAG	3147	CUCCGGUC CUGAUGAGGNNNNNNNNCCGAA AUCCGCUG	7294
888	GGAGCCAUU CCCACAAC	3148	GUUGUGGG CUGAUGAGGNNNNNNNNCCGAA AUGGCUCC	7295
889	GAGCCAUUC CCACAACA	3149	UGUUGUGG CUGAUGAGGNNNNNNNNCCGAA AAUGGCUC	7296
904	CAAUGUGUU CCACAGUG	3150	CACUGUGG CUGAUGAGGNNNNNNNNCCGAA ACACAUUG	7297
905	AAUGUGUUC CACAGUGU	3151	ACACUGUG CUGAUGAGGNNNNNNNNCCGAA AACACAUU	7298
914	CACAGUGUU CUUAAGAU	3152	AUCUUAAG CUGAUGAGGNNNNNNNNCCGAA ACACUGUG	7299
915	ACAGUGUUC UUAAGAUC	3153	GAUCUUAA CUGAUGAGGNNNNNNNNCCGAA AACACUGU	7300
917	AGUGUUCUU AAGAUCAA	3154	UUGAUCUU CUGAUGAGGNNNNNNNNCCGAA AGAACACU	7301
918	GUGUUCUUA AGAUCAAC	3155	GUUGAUCU CUGAUGAGGNNNNNNNNCCGAA AAGAACAC	7302
923	CUUAAGAUC AACAAUGU	3156	ACAUUGUU CUGAUGAGGNNNNNNNNCCGAA AUCUUAAG	7303
953	AAGGGGCUC UACACCUG	3157	CAGGUGUA CUGAUGAGGNNNNNNNNCCGAA AGCCCCUU	7304
955	GGGGCUCUA CACCUGUC	3158	GACAGGUG CUGAUGAGGNNNNNNNNCCGAA AGAGCCCC	7305
963	ACACCUGUC GCGUGAAG	3159	CUUCACGC CUGAUGAGGNNNNNNNNCCGAA ACAGGUGU	7306
979	GAGUGGGUC CUCGUUCC	3160	GGAACGAG CUGAUGAGGNNNNNNNNCCGAA ACCCACUC	7307
982	UGGGUCCUC GUUCCAGU	3161	ACUGGAAC CUGAUGAGGNNNNNNNNCCGAA AGGACCCA	7308
985	GUCCUCGUU CCAGUCUU	3162	AAGACUGG CUGAUGAGGNNNNNNNNCCGAA ACGAGGAC	7309
986	UCCUCGUUC CAGUCUUU	3163	AAAGACUG CUGAUGAGGNNNNNNNNCCGAA AACGAGGA	7310
991	GUUCCAGUC UUUCAACA	3164	UGUUGAAA CUGAUGAGGNNNNNNNNCCGAA ACUGGAAC	7311
993	UCCAGUCUU UCAACACC	3165	GGUGUUGA CUGAUGAGGNNNNNNNNCCGAA AGACUGGA	7312
994	CCAGUCUUU CAACACCU	3166	AGGUGUUG CUGAUGAGGNNNNNNNNCCGAA AAGACUGG	7313
995	CAGUCUUUC AACACCUC	3167	GAGGUGUU CUGAUGAGGNNNNNNNNCCGAA AAAGACUG	7314
1003	CAACACCUC CGUGCAUG	3168	CAUGCACG CUGAUGAGGNNNNNNNNCCGAA AGGUGUUG	7315
1015	GCAUGUGUA UGAAAAAG	3169	CUUUUUCA CUGAUGAGGNNNNNNNNCCGAA ACACAUGC	7316
1027	AAAAGGAUU CAUCAGUG	3170	CACUGAUG CUGAUGAGGNNNNNNNNCCGAA AUCCUUUU	7317
1028	AAAGGAUUC AUCAGUGU	3171	ACACUGAU CUGAUGAGGNNNNNNNNCCGAA AAUCCUUU	7318
1031	GGAUUCAUC AGUGUGAA	3172	UUCACACU CUGAUGAGGNNNNNNNNCCGAA AUGAAUCC	7319
1044	UGAAACAUC GGAAGCAG	3173	CUGCUUCC CUGAUGAGGNNNNNNNNCCGAA AUGUUUCA	7320
1084	AAGACGGUC CUAUCGGC	3174	GCCGAUAG CUGAUGAGGNNNNNNNNCCGAA ACCGUCUU	7321
1087	ACGGUCCUA UCGGCUGU	3175	ACAGCCGA CUGAUGAGGNNNNNNNNCCGAA AGGACCGU	7322
1089	GGUCCUAUC GGCUGUCC	3176	GGACAGCC CUGAUGAGGNNNNNNNNCCGAA AUAGGACC	7323
1096	UCGGCUGUC CAUGAAAG	3177	CUUUCAUG CUGAUGAGGNNNNNNNNCCGAA ACAGCCGA	7324
1114	GAAGGCCUU CCCCUCCC	3178	GGGAGGGG CUGAUGAGGNNNNNNNNCCGAA AGGCCUUC	7325
1115	AAGGCCUUC CCCUCCCC	3179	GGGGAGGG CUGAUGAGGNNNNNNNNCCGAA AAGGCCUU	7326
1120	CUUCCCCUC CCCAGAAA	3180	UUUCUGGG CUGAUGAGGNNNNNNNNCCGAA AGGGGAAG	7327
1130	CCAGAAAUC GUAUGGUU	3181	AACCAUAC CUGAUGAGGNNNNNNNNCCGAA AUUUCUGG	7328
1133	GAAAUCGUA UGGUUAAA	3182	UUUAACCA CUGAUGAGGNNNNNNNNCCGAA ACGAUUUC	7329
1138	CGUAUGGUU AAAAGAUG	3183	CAUCUUUU CUGAUGAGGNNNNNNNNCCGAA ACCAUACG	7330
1139	GUAUGGUUA AAAGAUGG	210	CCAUCUUU CUGAUGAGGNNNNNNNNCCGAA AACCAUAC	4366
1150	AGAUGGCUC GCCUGCAA	3184	UUGCAGGC CUGAUGAGGNNNNNNNNCCGAA AGCCAUCU	7331
1162	UGCAACAUU GAAGUCUG	3185	CAGACUUC CUGAUGAGGNNNNNNNNCCGAA AUGUUGCA	7332
1168	AUUGAAGUC UGCUCGCU	3186	AGCGAGCA CUGAUGAGGNNNNNNNNCCGAA ACUUCAAU	7333
1173	AGUCUGCUC GCUAUUUG	3187	CAAAUAGC CUGAUGAGGNNNNNNNNCCGAA AGCAGACU	7334
1177	UGCUCGCUA UUUGGUAC	3188	GUACCAAA CUGAUGAGGNNNNNNNNCCGAA AGCGAGCA	7335
1179	CUCGCUAUU UGGUACAU	3189	AUGUACCA CUGAUGAGGNNNNNNNNCCGAA AUAGCGAG	7336
1180	UCGCUAUUU GGUACAUG	3190	CAUGUACC CUGAUGAGGNNNNNNNNCCGAA AAUAGCGA	7337
1184	UAUUUGGUA CAUGGCUA	3191	UAGCCAUG CUGAUGAGGNNNNNNNNCCGAA ACCAAAUA	7338
1192	ACAUGGCUA CUCAUUAA	3192	UUAAUGAG CUGAUGAGGNNNNNNNNCCGAA AGCCAUGU	7339
1195	UGGCUACUC AUUAAUUA	3193	UAAUUAAU CUGAUGAGGNNNNNNNNCCGAA AGUAGCCA	7340
1198	CUACUCAUU AAUUAUCA	3194	UGAUAAUU CUGAUGAGGNNNNNNNNCCGAA AUGAGUAG	7341
1199	UACUCAUUA AUUAUCAA	3195	UUGAUAAU CUGAUGAGGNNNNNNNNCCGAA AAUGAGUA	7342
1202	UCAUUAAUU AUCAAAGA	3196	UCUUUGAU CUGAUGAGGNNNNNNNNCCGAA AUUAAUGA	7343
1203	CAUUAAUUA UCAAAGAU	3197	AUCUUUGA CUGAUGAGGNNNNNNNNCCGAA AAUUAAUG	7344
1205	UUAAUUAUC AAAGAUGU	3198	ACAUCUUU CUGAUGAGGNNNNNNNNCCGAA AUAAUUAA	7345
1237	AGGGGACUA UACGAUCU	3199	AGAUCGUA CUGAUGAGGNNNNNNNNCCGAA AGUCCCCU	7346
1239	GGGACUAUA CGAUCUUG	3200	CAAGAUCG CUGAUGAGGNNNNNNNNCCGAA AUAGUCCC	7347
1244	UAUACGAUC UUGCUGGG	3201	CCCAGCAA CUGAUGAGGNNNNNNNNCCGAA AUCGUAUA	7348
1246	UACGAUCUU GCUGGGCA	3202	UGCCCAGC CUGAUGAGGNNNNNNNNCCGAA AGAUCGUA	7349
1256	CUGGGCAUA AAGCAGUC	3203	GACUGCUU CUGAUGAGGNNNNNNNNCCGAA AUGCCCAG	7350
1264	AAAGCAGUC AAGGCUAU	3204	AUAGCCUU CUGAUGAGGNNNNNNNNCCGAA ACUGCUUU	7351
1271	UCAAGGCUA UUUAAAAA	3205	UUUUUAAA CUGAUGAGGNNNNNNNNCCGAA AGCCUUGA	7352
1273	AAGGCUAUU UAAAAACC	3206	GGUUUUUA CUGAUGAGGNNNNNNNNCCGAA AUAGCCUU	7353
1274	AGGCUAUUU AAAAACCU	3207	AGGUUUUU CUGAUGAGGNNNNNNNNCCGAA AAUAGCCU	7354
1275	GGCUAUUUA AAAACCUC	3208	GAGGUUUU CUGAUGAGGNNNNNNNNCCGAA AAAUAGCC	7355
1283	AAAAACCUC ACUGCCAC	237	GUGGCAGU CUGAUGAGGNNNNNNNNCCGAA AGGUUUUU	4393
1293	CUGCCACUC UCAUUGUA	3209	UACAAUGA CUGAUGAGGNNNNNNNNCCGAA AGUGGCAG	7356
1295	GCCACUCUC AUUGUAAA	3210	UUUACAAU CUGAUGAGGNNNNNNNNCCGAA AGAGUGGC	7357
1298	ACUCUCAUU GUAAACGU	3211	ACGUUUAC CUGAUGAGGNNNNNNNNCCGAA AUGAGAGU	7358
1301	CUCAUUGUA AACGUGAA	3212	UUCACGUU CUGAUGAGGNNNNNNNNCCGAA ACAAUGAG	7359
1314	UGAAACCUC AGAUCUAC	3213	GUAGAUCU CUGAUGAGGNNNNNNNNCCGAA AGGUUUCA	7360
1319	CCUCAGAUC UACGAAAA	3214	UUUUCGUA CUGAUGAGGNNNNNNNNCCGAA AUCUGAGG	7361
1321	UCAGAUCUA CGAAAAGU	3215	ACUUUUCG CUGAUGAGGNNNNNNNNCCGAA AGAUCUGA	7362
1330	CGAAAAGUC CGUGUCCU	3216	AGGACACG CUGAUGAGGNNNNNNNNCCGAA ACUUUUCG	7363
1336	GUCCGUGUC CUCGCUUC	3217	GAAGCGAG CUGAUGAGGNNNNNNNNCCGAA ACACGGAC	7364
1339	CGUGUCCUC GCUUCCAA	3218	UUGGAAGC CUGAUGAGGNNNNNNNNCCGAA AGGACACG	7365
1343	UCCUCGCUU CCAAGCCC	3219	GGGCUUGG CUGAUGAGGNNNNNNNNCCGAA AGCGAGGA	7366
1344	CCUCGCUUC CAAGCCCA	3220	UGGGCUUG CUGAUGAGGNNNNNNNNCCGAA AAGCGAGG	7367
1356	GCCCACCUC UCUAUCCG	3221	CGGAUAGA CUGAUGAGGNNNNNNNNCCGAA AGGUGGGC	7368
1358	CCACCUCUC UAUCCGCU	3222	AGCGGAUA CUGAUGAGGNNNNNNNNCCGAA AGAGGUGG	7369
1360	ACCUCUCUA UCCGCUGG	3223	CCAGCGGA CUGAUGAGGNNNNNNNNCCGAA AGAGAGGU	7370
1362	CUCUCUAUC CGCUGGGC	3224	GCCCAGCG CUGAUGAGGNNNNNNNNCCGAA AUAGAGAG	7371
1382	AGACAAGUC CUCACUUG	3225	CAAGUGAG CUGAUGAGGNNNNNNNNCCGAA ACUUGUCU	7372
1385	CAAGUCCUC ACUUGCAC	3226	GUGCAAGU CUGAUGAGGNNNNNNNNCCGAA AGGACUUG	7373
1389	UCCUCACUU GCACCGUG	3227	CACGGUGC CUGAUGAGGNNNNNNNNCCGAA AGUGAGGA	7374
1399	CACCGUGUA UGGCAUCC	3228	GGAUGCCA CUGAUGAGGNNNNNNNNCCGAA ACACGGUG	7375
1406	UAUGGCAUC CCUCGGCC	3229	GGCCGAGG CUGAUGAGGNNNNNNNNCCGAA AUGCCAUA	7376
1410	GCAUCCCUC GGCCAACA	3230	UGUUGGCC CUGAUGAGGNNNNNNNNCCGAA AGGGAUGC	7377
1421	CCAACAAUC ACGUGGCU	3231	AGCCACGU CUGAUGAGGNNNNNNNNCCGAA AUUGUUGG	7378
1430	ACGUGGCUC UGGCACCC	3232	GGGUGCCA CUGAUGAGGNNNNNNNNCCGAA AGCCACGU	7379
1443	ACCCCUGUC ACCACAAU	3233	AUUGUGGU CUGAUGAGGNNNNNNNNCCGAA ACAGGGGU	7380
1452	ACCACAAUC ACUCCAAA	3234	UUUGGAGU CUGAUGAGGNNNNNNNNCCGAA AUUGUGGU	7381
1456	CAAUCACUC CAAAGAAA	3235	UUUCUUUG CUGAUGAGGNNNNNNNNCCGAA AGUGAUUG	7382
1468	AGAAAGGUA UGACUUCU	3236	AGAAGUCA CUGAUGAGGNNNNNNNNCCGAA ACCUUUCU	7383
1474	GUAUGACUU CUGCACUG	3237	CAGUGCAG CUGAUGAGGNNNNNNNNCCGAA AGUCAUAC	7384
1475	UAUGACUUC UGCACUGA	3238	UCAGUGCA CUGAUGAGGNNNNNNNNCCGAA AAGUCAUA	7385
1495	UGAAGAAUC CUUUAUCC	3239	GGAUAAAG CUGAUGAGGNNNNNNNNCCGAA AUUCUUCA	7386
1498	AGAAUCCUU UAUCCUGG	3240	CCAGGAUA CUGAUGAGGNNNNNNNNCCGAA AGGAUUCU	7387
1499	GAAUCCUUU AUCCUGGA	3241	UCCAGGAU CUGAUGAGGNNNNNNNNCCGAA AAGGAUUC	7388
1500	AAUCCUUUA UCCUGGAU	3242	AUCCAGGA CUGAUGAGGNNNNNNNNCCGAA AAAGGAUU	7389
1502	UCCUUUAUC CUGGAUCC	3243	GGAUCCAG CUGAUGAGGNNNNNNNNCCGAA AUAAAGGA	7390
1509	UCCUGGAUC CCAGCAGC	3244	GCUGCUGG CUGAUGAGGNNNNNNNNCCGAA AUCCAGGA	7391
1522	CAGCAACUU AGGAAACA	3245	UGUUUCCU CUGAUGAGGNNNNNNNNCCGAA AGUUGCUG	7392
1523	AGCAACUUA GGAAACAG	3246	CUGUUUCC CUGAUGAGGNNNNNNNNCCGAA AAGUUGCU	7393
1535	AACAGAAUU GAGAGCAU	280	AUGCUCUC CUGAUGAGGNNNNNNNNCCGAA AUUCUGUU	4436
1544	GAGAGCAUC UCUCAGCG	3247	CGCUGAGA CUGAUGAGGNNNNNNNNCCGAA AUGCUCUC	7394
1546	GAGCAUCUC UCAGCGCA	3248	UGCGCUGA CUGAUGAGGNNNNNNNNCCGAA AGAUGCUC	7395
1548	GCAUCUCUC AGCGCAUG	3249	CAUGCGCU CUGAUGAGGNNNNNNNNCCGAA AGAGAUGC	7396
1562	AUGACGGUC AUAGAAGG	3250	CCUUCUAU CUGAUGAGGNNNNNNNNCCGAA ACCGUCAU	7397
1565	ACGGUCAUA GAAGGAAC	3251	GUUCCUUC CUGAUGAGGNNNNNNNNCCGAA AUGACCGU	7398
1578	GAACAAAUA AGACGGUU	3252	AACCGUCU CUGAUGAGGNNNNNNNNCCGAA AUUUGUUC	7399
1586	AAGACGGUU AGCACAUU	3253	AAUGUGCU CUGAUGAGGNNNNNNNNCCGAA ACCGUCUU	7400
1587	AGACGGUUA GCACAUUG	3254	CAAUGUGC CUGAUGAGGNNNNNNNNCCGAA AACCGUCU	7401
1594	UAGCACAUU GGUGGUGG	3255	CCACCACC CUGAUGAGGNNNNNNNNCCGAA AUGUGCUA	7402
1609	GGCUGACUC UCAGACCC	3256	GGGUCUGA CUGAUGAGGNNNNNNNNCCGAA AGUCAGCC	7403
1611	CUGACUCUC AGACCCCU	3257	AGGGGUCU CUGAUGAGGNNNNNNNNCCGAA AGAGUCAG	7404
1625	CCUGGAAUC UACAGCUG	3258	CAGCUGUA CUGAUGAGGNNNNNNNNCCGAA AUUCCAGG	7405
1627	UGGAAUCUA CAGCUGCC	3259	GGCAGCUG CUGAUGAGGNNNNNNNNCCGAA AGAUUCCA	7406
1642	CCGGGCCUU CAAUAAAA	3260	UUUUAUUG CUGAUGAGGNNNNNNNNCCGAA AGGCCCGG	7407
1643	CGGGCCUUC AAUAAAAU	3261	AUUUUAUU CUGAUGAGGNNNNNNNNCCGAA AAGGCCCG	7408
1647	CCUUCAAUA AAAUAGGG	3262	CCCUAUUU CUGAUGAGGNNNNNNNNCCGAA AUUGAAGG	7409
1652	AAUAAAAUA GGGACUGU	3263	ACAGUCCC CUGAUGAGGNNNNNNNNCCGAA AUUUUAUU	7410
1673	AGAAACAUA AAAUUUUA	3264	UAAAAUUU CUGAUGAGGNNNNNNNNCCGAA AUGUUUCU	7411
1678	CAUAAAAUU UUAUGUCA	3265	UGACAUAA CUGAUGAGGNNNNNNNNCCGAA AUUUUAUG	7412
1679	AUAAAAUUU UAUGUCAC	3266	GUGACAUA CUGAUGAGGNNNNNNNNCCGAA AAUUUUAU	7413
1680	UAAAAUUUU AUGUCACA	3267	UGUGACAU CUGAUGAGGNNNNNNNNCCGAA AAAUUUUA	7414
1681	AAAAUUUUA UGUCACAG	3268	CUGUGACA CUGAUGAGGNNNNNNNNCCGAA AAAAUUUU	7415
1685	UUUUAUGUC ACAGAUGU	3269	ACAUCUGU CUGAUGAGGNNNNNNNNCCGAA ACAUAAAA	7416
1705	GAAUGGCUU UCACGUUU	3270	AAACGUGA CUGAUGAGGNNNNNNNNCCGAA AGCCAUUC	7417
1706	AAUGGCUUU CACGUUUC	3271	GAAACGUG CUGAUGAGGNNNNNNNNCCGAA AAGCCAUU	7418
1707	AUGGCUUUC ACGUUUCC	3272	GGAAACGU CUGAUGAGGNNNNNNNNCCGAA AAAGCCAU	7419
1712	UUUCACGUU UCCUUGGA	3273	UCCAAGGA CUGAUGAGGNNNNNNNNCCGAA ACGUGAAA	7420
1713	UUCACGUUU CCUUGGAA	3274	UUCCAAGG CUGAUGAGGNNNNNNNNCCGAA AACGUGAA	7421
1714	UCACGUUUC CUUGGAAA	3275	UUUCCAAG CUGAUGAGGNNNNNNNNCCGAA AAACGUGA	7422
1717	CGUUUCCUU GGAAAAGA	3276	UCUUUUCC CUGAUGAGGNNNNNNNNCCGAA AGGAAACG	7423
1756	GAAACUGUC CUGUGUGG	3277	CCACACAG CUGAUGAGGNNNNNNNNCCGAA ACAGUUUC	7424
1766	UGUGUGGUC AAUAAAUU	3278	AAUUUAUU CUGAUGAGGNNNNNNNNCCGAA ACCACACA	7425
1770	UGGUCAAUA AAUUCCUG	3279	CAGGAAUU CUGAUGAGGNNNNNNNNCCGAA AUUGACCA	7426
1774	CAAUAAAUU CCUGUACA	3280	UGUACAGG CUGAUGAGGNNNNNNNNCCGAA AUUUAUUG	7427
1775	AAUAAAUUC CUGUACAG	3281	CUGUACAG CUGAUGAGGNNNNNNNNCCGAA AAUUUAUU	7428
1780	AUUCCUGUA CAGAGACA	3282	UGUCUCUG CUGAUGAGGNNNNNNNNCCGAA ACAGGAAU	7429
1790	AGAGACAUU ACCUGGAU	3283	AUCCAGGU CUGAUGAGGNNNNNNNNCCGAA AUGUCUCU	7430
1791	GAGACAUUA CCUGGAUU	3284	AAUCCAGG CUGAUGAGGNNNNNNNNCCGAA AAUGUCUC	7431
1799	ACCUGGAUU CUGCUACG	3285	CGUAGCAG CUGAUGAGGNNNNNNNNCCGAA AUCCAGGU	7432
1800	CCUGGAUUC UGCUACGG	3286	CCGUAGCA CUGAUGAGGNNNNNNNNCCGAA AAUCCAGG	7433
1805	AUUCUGCUA CGGACAGU	3287	ACUGUCCG CUGAUGAGGNNNNNNNNCCGAA AGCAGAAU	7434
1814	CGGACAGUU AACAACAG	3288	CUGUUGUU CUGAUGAGGNNNNNNNNCCGAA ACUGUCCG	7435
1815	GGACAGUUA ACAACAGA	3289	UCUGUUGU CUGAUGAGGNNNNNNNNCCGAA AACUGUCC	7436
1836	UGCACCAUA GUAUCAGC	3290	GCUGAUAC CUGAUGAGGNNNNNNNNCCGAA AUGGUGCA	7437
1839	ACCAUAGUA UCAGCAAG	3291	CUUGCUGA CUGAUGAGGNNNNNNNNCCGAA ACUAUGGU	7438
1841	CAUAGUAUC AGCAAGCA	3292	UGCUUGCU CUGAUGAGGNNNNNNNNCCGAA AUACUAUG	7439
1866	CCACCACUC AAGAUUAC	3293	GUAAUCUU CUGAUGAGGNNNNNNNNCCGAA AGUGGUGG	7440
1872	CUCAAGAUU ACUCCAUC	3294	GAUGGAGU CUGAUGAGGNNNNNNNNCCGAA AUCUUGAG	7441
1873	UCAAGAUUA CUCCAUCA	3295	UGAUGGAG CUGAUGAGGNNNNNNNNCCGAA AAUCUUGA	7442
1876	AGAUUACUC CAUCACUC	3296	GAGUGAUG CUGAUGAGGNNNNNNNNCCGAA AGUAAUCU	7443
1880	UACUCCAUC ACUCUGAA	3297	UUCAGAGU CUGAUGAGGNNNNNNNNCCGAA AUGGAGUA	7444
1884	CCAUCACUC UGAACCUU	3298	AAGGUUCA CUGAUGAGGNNNNNNNNCCGAA AGUGAUGG	7445
1892	CUGAACCUU GUCAUCAA	3299	UUGAUGAC CUGAUGAGGNNNNNNNNCCGAA AGGUUCAG	7446
1895	AACCUUGUC AUCAAGAA	3300	UUCUUGAU CUGAUGAGGNNNNNNNNCCGAA ACAAGGUU	7447
1898	CUUGUCAUC AAGAACGU	3301	ACGUUCUU CUGAUGAGGNNNNNNNNCCGAA AUGACAAG	7448
1909	GAACGUGUC UCUAGAAG	3302	CUUCUAGA CUGAUGAGGNNNNNNNNCCGAA ACACGUUC	7449
1911	ACGUGUCUC UAGAAGAC	3303	GUCUUCUA CUGAUGAGGNNNNNNNNCCGAA AGACACGU	7450
1913	GUGUCUCUA GAAGACUC	3304	GAGUCUUC CUGAUGAGGNNNNNNNNCCGAA AGAGACAC	7451
1921	AGAAGACUC GGGCACCU	3305	AGGUGCCC CUGAUGAGGNNNNNNNNCCGAA AGUCUUCC	7452
1930	GGGCACCUA UGCGUGCA	3306	UGCACGCA CUGAUGAGGNNNNNNNNCCGAA AGGUGCCC	7453
1952	AGGAACAUA UACACAGG	3307	CCUGUGUA CUGAUGAGGNNNNNNNNCCGAA AUGUUCCU	7454
1954	GAACAUAUA CACAGGGG	3308	CCCCUGUG CUGAUGAGGNNNNNNNNCCGAA AUAUGUUC	7455
1970	GAAGACAUC CUUCGGAA	3309	UUCCGAAG CUGAUGAGGNNNNNNNNCCGAA AUGUCUUC	7456
1973	GACAUCCUU CGGAAGAC	3310	GUCUUCCG CUGAUGAGGNNNNNNNNCCGAA AGGAUGUC	7457
1974	ACAUCCUUC GGAAGACA	3311	UGUCUUCC CUGAUGAGGNNNNNNNNCCGAA AAGGAUGU	7458
1988	ACAGAAGUU CUCGUUAG	3312	CUAACGAG CUGAUGAGGNNNNNNNNCCGAA ACUUCUGU	7459
1989	CAGAAGUUC UCGUUAGA	3313	UCUAACGA CUGAUGAGGNNNNNNNNCCGAA AACUUCUG	7460
1991	GAAGUUCUC GUUAGAGA	3314	UCUCUAAC CUGAUGAGGNNNNNNNNCCGAA AGAACUUC	7461
1994	GUUCUCGUU AGAGAUUC	3315	GAAUCUCU CUGAUGAGGNNNNNNNNCCGAA ACGAGAAC	7462
1995	UUCUCGUUA GAGAUUCG	3316	CGAAUCUC CUGAUGAGGNNNNNNNNCCGAA AACGAGAA	7463
2001	UUAGAGAUU CGGAAGCG	3317	CGCUUCCG CUGAUGAGGNNNNNNNNCCGAA AUCUCUAA	7464
2002	UAGAGAUUC GGAAGCGC	3318	GCGCUUCC CUGAUGAGGNNNNNNNNCCGAA AAUCUCUA	7465
2021	CACCUGCUU CAAAACCU	3319	AGGUUUUG CUGAUGAGGNNNNNNNNCCGAA AGCAGGUG	7466
2022	ACCUGCUUC AAAACCUC	3320	GAGGUUUU CUGAUGAGGNNNNNNNNCCGAA AAGCAGGU	7467
2030	CAAAACCUC AGUGACUA	3321	UAGUCACU CUGAUGAGGNNNNNNNNCCGAA AGGUUUUG	7468
2038	CAGUGACUA CGAGGUCU	3322	AGACCUCG CUGAUGAGGNNNNNNNNCCGAA AGUCACUG	7469
2045	UACGAGGUC UCCAUCAG	3323	CUGAUGGA CUGAUGAGGNNNNNNNNCCGAA ACCUCGUA	7470
2047	CGAGGUCUC CAUCAGUG	3324	CACUGAUG CUGAUGAGGNNNNNNNNCCGAA AGACCUCG	7471
2051	GUCUCCAUC AGUGGCUC	3325	GAGCCACU CUGAUGAGGNNNNNNNNCCGAA AUGGAGAC	7472
2059	CAGUGGCUC UACGACCU	3326	AGGUCGUA CUGAUGAGGNNNNNNNNCCGAA AGCCACUG	7473
2061	GUGGCUCUA CGACCUUA	3327	UAAGGUCG CUGAUGAGGNNNNNNNNCCGAA AGAGCCAC	7474
2068	UACGACCUU AGACUGUC	3328	GACAGUCU CUGAUGAGGNNNNNNNNCCGAA AGGUCGUA	7475
2069	ACGACCUUA GACUGUCA	3329	UGACAGUC CUGAUGAGGNNNNNNNNCCGAA AAGGUCGU	7476
2076	UAGACUGUC AAGCUAGA	3330	UCUAGCUU CUGAUGAGGNNNNNNNNCCGAA ACAGUCUA	7477
2082	GUCAAGCUA GAGGUGUC	3331	GACACCUC CUGAUGAGGNNNNNNNNCCGAA AGCUUGAC	7478
2090	AGAGGUGUC CCCGCGCC	3332	GGCGCGGG CUGAUGAGGNNNNNNNNCCGAA ACACCUCU	7479
2100	CCGCGCCUC AGAUCACU	3333	AGUGAUCU CUGAUGAGGNNNNNNNNCCGAA AGGCGCGG	7480
2105	CCUCAGAUC ACUUGGUU	378	AACCAAGU CUGAUGAGGNNNNNNNNCCGAA AUCUGAGG	4534
2109	AGAUCACUU GGUUCAAA	3334	UUUGAACC CUGAUGAGGNNNNNNNNCCGAA AGUGAUCU	7481
2113	CACUUGGUU CAAAAACA	3335	UGUUUUUG CUGAUGAGGNNNNNNNNCCGAA ACCAAGUG	7482
2114	ACUUGGUUC AAAAACAA	3336	UUGUUUUU CUGAUGAGGNNNNNNNNCCGAA AACCAAGU	4537
2132	CACAAAAUA CAACAAGA	383	UCUUGUUG CUGAUGAGGNNNNNNNNCCGAA AUUUUGUG	4539
2150	CCGGGAAUU AUUUUAGG	3337	CCUAAAAU CUGAUGAGGNNNNNNNNCCGAA AUUCCCGG	7483
2151	CGGGAAUUA UUUUAGGA	3338	UCCUAAAA CUGAUGAGGNNNNNNNNCCGAA AAUUCCCG	7484
2153	GGAAUUAUU UUAGGACC	386	GGUCCUAA CUGAUGAGGNNNNNNNNCCGAA AUAAUUCC	4542
2154	GAAUUAUUU UAGGACCA	387	UGGUCCUA CUGAUGAGGNNNNNNNNCCGAA AAUAAUUC	4543
2155	AAUUAUUUU AGGACCAG	388	CUGGUCCU CUGAUGAGGNNNNNNNNCCGAA AAAUAAUU	4544
2156	AUUAUUUUA GGACCAGG	389	CCUGGUCC CUGAUGAGGNNNNNNNNCCGAA AAAAUAAU	4545
2179	CACGCUGUU UAUUGAAA	390	UUUCAAUA CUGAUGAGGNNNNNNNNCCGAA ACAGCGUG	4546
2180	ACGCUGUUU AUUGAAAG	391	CUUUCAAU CUGAUGAGGNNNNNNNNCCGAA AACAGCGU	4547
2181	CGCUGUUUA UUGAAAGA	392	UCUUUCAA CUGAUGAGGNNNNNNNNCCGAA AAACAGCG	4548
2183	CUGUUUAUU GAAAGAGU	393	ACUCUUUC CUGAUGAGGNNNNNNNNCCGAA AUAAACAG	4549
2192	GAAAGAGUC ACAGAGGA	3339	UCCUCUGU CUGAUGAGGNNNNNNNNCCGAA ACUCUUUC	7485
2213	GAGGGUGUC UAUAGGUG	3340	CACCUAUA CUGAUGAGGNNNNNNNNCCGAA ACACCCUC	7486
2215	GGGUGUCUA UAGGUGCC	3341	GGCACCUA CUGAUGAGGNNNNNNNNCCGAA AGACACCC	7487
2217	GUGUCUAUA GGUGCCGA	3342	UCGGCACC CUGAUGAGGNNNNNNNNCCGAA AUAGACAC	7488
2263	CGCAGCCUA CCUCACCG	3343	CGGUGAGG CUGAUGAGGNNNNNNNNCCGAA AGGCUGCG	7489
2267	GCCUACCUC ACCGUGCA	3344	UGCACGGU CUGAUGAGGNNNNNNNNCCGAA AGGUAGGC	7490
2284	AGGAACCUC AGACAAGU	3345	ACUUGUCU CUGAUGAGGNNNNNNNNCCGAA AGGUUCCU	7491
2293	AGACAAGUC AAACCUGG	3346	CCAGGUUU CUGAUGAGGNNNNNNNNCCGAA ACUUGUCU	7492
2309	GAGCUGAUC ACGCUCAC	3347	GUGAGCGU CUGAUGAGGNNNNNNNNCCGAA AUCAGCUC	7493
2315	AUCACGCUC ACGUGCAC	3348	GUGCACGU CUGAUGAGGNNNNNNNNCCGAA AGCGUGAU	7494
2342	GCGACCCUC UUUUGGCU	3349	AGCCAAAA CUGAUGAGGNNNNNNNNCCGAA AGGGUCGC	7495
2344	GACCCUCUU UUGGCUCC	3350	GGAGCCAA CUGAUGAGGNNNNNNNNCCGAA AGAGGGUC	7496
2345	ACCCUCUUU UGGCUCCU	3351	AGGAGCCA CUGAUGAGGNNNNNNNNCCGAA AAGAGGGU	7497
2346	CCCUCUUUU GGCUCCUU	3352	AAGGAGCC CUGAUGAGGNNNNNNNNCCGAA AAAGAGGG	7498
2351	UUUUGGCUC CUUCUAAC	3353	GUUAGAAG CUGAUGAGGNNNNNNNNCCGAA AGCCAAAA	7499
2354	UGGCUCCUU CUAACUCU	3354	AGAGUUAG CUGAUGAGGNNNNNNNNCCGAA AGGAGCCA	7500
2355	GGCUCCUUC UAACUCUC	3355	GAGAGUUA CUGAUGAGGNNNNNNNNCCGAA AAGGAGCC	7501
2357	CUCCUUCUA ACUCUCUU	3356	AAGAGAGU CUGAUGAGGNNNNNNNNCCGAA AGAAGGAG	7502
2361	UUCUAACUC UCUUCAUC	3357	GAUGAAGA CUGAUGAGGNNNNNNNNCCGAA AGUUAGAA	7503
2363	CUAACUCUC UUCAUCAG	3358	CUGAUGAA CUGAUGAGGNNNNNNNNCCGAA AGAGUUAG	7504
2365	AACUCUCUU CAUCAGAA	3359	UUCUGAUG CUGAUGAGGNNNNNNNNCCGAA AGAGAGUU	7505
2366	ACUCUCUUC AUCAGAAA	3360	UUUCUGAU CUGAUGAGGNNNNNNNNCCGAA AAGAGAGU	7506
2369	CUCUUCAUC AGAAAACU	3361	AGUUUUCU CUGAUGAGGNNNNNNNNCCGAA AUGAAGAG	7507
2386	GAAGCGGUC UUCUUCCG	3362	CGGAAGAA CUGAUGAGGNNNNNNNNCCGAA ACCGCUUC	7508
2388	AGCGGUCUU CUUCCGAA	3363	UUCGGAAG CUGAUGAGGNNNNNNNNCCGAA AGACCGCU	7509
2389	GCGGUCUUC UUCCGAAG	3364	CUUCGGAA CUGAUGAGGNNNNNNNNCCGAA AAGACCGC	7510
2391	GGUCUUCUU CCGAAGUA	3365	UACUUCGG CUGAUGAGGNNNNNNNNCCGAA AGAAGACC	7511
2392	GUCUUCUUC CGAAGUAA	3366	UUACUUCG CUGAUGAGGNNNNNNNNCCGAA AAGAAGAC	7512
2399	UCCGAAGUA AAGACAGA	3367	UCUGUCUU CUGAUGAGGNNNNNNNNCCGAA ACUUCGGA	7513
2410	GACAGACUA CCUGUCAA	3368	UUGACAGG CUGAUGAGGNNNNNNNNCCGAA AGUCUGUC	7514
2416	CUACCUGUC AAUCAUUA	3369	UAAUGAUU CUGAUGAGGNNNNNNNNCCGAA ACAGGUAG	7515
2420	CUGUCAAUC AUUAUGGA	3370	UCCAUAAU CUGAUGAGGNNNNNNNNCCGAA AUUGACAG	7516
2423	UCAAUCAUU AUGGACCC	3371	GGGUCCAU CUGAUGAGGNNNNNNNNCCGAA AUGAUUGA	7517
2424	CAAUCAUUA UGGACCCA	3372	UGGGUCCA CUGAUGAGGNNNNNNNNCCGAA AAUGAUUG	7518
2441	GAUGAAGUU CCCCUGGA	3373	UCCAGGGG CUGAUGAGGNNNNNNNNCCGAA ACUUCAUC	7519
2442	AUGAAGUUC CCCUGGAU	3374	AUCCAGGG CUGAUGAGGNNNNNNNNCCGAA AACUUCAU	7520
2473	GCUGCCCUA UGAUGCCA	3375	UGGCAUCA CUGAUGAGGNNNNNNNNCCGAA AGGGCAGC	7521
2494	GUGGGAGUU UGCACGGG	3376	CCCGUGCA CUGAUGAGGNNNNNNNNCCGAA ACUCCCAC	7522
2495	UGGGAGUUU GCACGGGA	3377	UCCCGUGC CUGAUGAGGNNNNNNNNCCGAA AACUCCCA	7523
2516	CUGAAACUA GGCAAAUC	3378	GAUUUGCC CUGAUGAGGNNNNNNNNCCGAA AGUUUCAG	7524
2524	AGGCAAAUC GCUCGGAA	3379	UUCCGAGC CUGAUGAGGNNNNNNNNCCGAA AUUUGCCU	7525
2528	AAAUCGCUC GGAAGAGG	3380	CCUCUUCC CUGAUGAGGNNNNNNNNCCGAA AGCGAUUU	7526
2541	GAGGGGCUU UUGGGAAA	3381	UUUCCCAA CUGAUGAGGNNNNNNNNCCGAA AGCCCCUC	7527
2542	AGGGGCUUU UGGGAAAG	3382	CUUUCCCA CUGAUGAGGNNNNNNNNCCGAA AAGCCCCU	7528
2543	GGGGCUUUU GGGAAAGU	3383	ACUUUCCC CUGAUGAGGNNNNNNNNCCGAA AAAGCCCC	7529
2552	GGGAAAGUC GUUCAAGC	3384	GCUUGAAC CUGAUGAGGNNNNNNNNCCGAA ACUUUCCC	7530
2555	AAAGUCGUU CAAGCCUC	3385	GAGGCUUG CUGAUGAGGNNNNNNNNCCGAA ACGACUUU	7531
2556	AAGUCGUUC AAGCCUCU	3386	AGAGGCUU CUGAUGAGGNNNNNNNNCCGAA AACGACUU	7532
2563	UCAAGCCUC UGCAUUUG	3387	CAAAUGCA CUGAUGAGGNNNNNNNNCCGAA AGGCUUGA	7533
2569	CUCUGCAUU UGGCAUUA	3388	UAAUGCCA CUGAUGAGGNNNNNNNNCCGAA AUGCAGAG	7534
2570	UCUGCAUUU GGCAUUAA	3389	UUAAUGCC CUGAUGAGGNNNNNNNNCCGAA AAUGCAGA	7535
2576	UUUGGCAUU AAGAAAUC	457	GAUUUCUU CUGAUGAGGNNNNNNNNCCGAA AUGCCAAA	4613
2577	UUGGCAUUA AGAAAUCA	458	UGAUUUCU CUGAUGAGGNNNNNNNNCCGAA AAUGCCAA	4614
2584	UAAGAAAUC ACCCACCU	3390	AGGUGGGU CUGAUGAGGNNNNNNNNCCGAA AUUUCUUA	7536
2617	GAAGAUGUU GAAAGAGG	3391	CCUCUUUC CUGAUGAGGNNNNNNNNCCGAA ACAUCUUC	7537
2644	CAGUGAGUA CAAAGCUC	3392	GAGCUUUG CUGAUGAGGNNNNNNNNCCGAA ACUCACUG	7538
2652	ACAAAGCUC UGAUGACC	3393	GGUCAUCA CUGAUGAGGNNNNNNNNCCGAA AGCUUUGU	7539
2666	ACCGAACUC AAGAUCUU	3394	AAGAUCUU CUGAUGAGGNNNNNNNNCCGAA AGUUCGGU	7540
2672	CUCAAGAUC UUGACCCA	3395	UGGGUCAA CUGAUGAGGNNNNNNNNCCGAA AUCUUGAG	7541
2674	CAAGAUCUU GACCCACA	3396	UGUGGGUC CUGAUGAGGNNNNNNNNCCGAA AGAUCUUG	7542
2684	ACCCACAUC GGCCAUCA	3397	UGAUGGCC CUGAUGAGGNNNNNNNNCCGAA AUGUGGGU	7543
2691	UCGGCCAUC AUCUGAAU	3398	AUUCAGAU CUGAUGAGGNNNNNNNNCCGAA AUGGCCGA	7544
2694	GCCAUCAUC UGAAUGUG	3399	CACAUUCA CUGAUGAGGNNNNNNNNCCGAA AUGAUGGC	7545
2705	AAUGUGGUU AACCUCCU	3400	AGGAGGUU CUGAUGAGGNNNNNNNNCCGAA ACCACAUU	7546
2706	AUGUGGUUA ACCUCCUG	3401	CAGGAGGU CUGAUGAGGNNNNNNNNCCGAA AACCACAU	7547
2711	GUUAACCUC CUGGGAGC	3402	GCUCCCAG CUGAUGAGGNNNNNNNNCCGAA AGGUUAAC	7548
2742	GAGGGCCUC UGAUGGUG	470	CACCAUCA CUGAUGAGGNNNNNNNNCCGAA AGGCCCUC	4626
2753	AUGGUGAUC GUGGAAUA	3403	UAUUCCAC CUGAUGAGGNNNNNNNNCCGAA AUCACCAU	7549
2761	CGUGGAAUA CUGCAAAU	3404	AUUUGCAG CUGAUGAGGNNNNNNNNCCGAA AUUCCACG	7550
2770	CUGCAAAUA CGGAAACC	3405	GGUUUCCG CUGAUGAGGNNNNNNNNCCGAA AUUUGCAG	7551
2782	AAACCUGUC CAACUACC	3406	GGUAGUUG CUGAUGAGGNNNNNNNNCCGAA ACAGGUUU	7552
2788	GUCCAACUA CCUCAAGA	3407	UCUUGAGG CUGAUGAGGNNNNNNNNCCGAA AGUUGGAC	7553
2792	AACUACCUC AAGAGCAA	479	UUGCUCUU CUGAUGAGGNNNNNNNNCCGAA AGGUAGUU	4635
2809	ACGUGACUU AUUCUGUC	3408	GACAGAAU CUGAUGAGGNNNNNNNNCCGAA AGUCACGU	7554
2810	CGUGACUUA UUCUGUCU	3409	AGACAGAA CUGAUGAGGNNNNNNNNCCGAA AAGUCACG	7555
2812	UGACUUAUU CUGUCUCA	3410	UGAGACAG CUGAUGAGGNNNNNNNNCCGAA AUAAGUCA	7556
2813	GACUUAUUC UGUCUCAA	3411	UUGAGACA CUGAUGAGGNNNNNNNNCCGAA AAUAAGUC	7557
2817	UAUUCUGUC UCAACAAG	3412	CUUGUUGA CUGAUGAGGNNNNNNNNCCGAA ACAGAAUA	7558
2819	UUCUGUCUC AACAAGGA	3413	UCCUUGUU CUGAUGAGGNNNNNNNNCCGAA AGACAGAA	7559
2836	CGCAGCCUU GCAUAUGG	3414	CCAUAUGC CUGAUGAGGNNNNNNNNCCGAA AGGCUGCG	7560
2841	CCUUGCAUA UGGAGCUC	3415	GAGCUCCA CUGAUGAGGNNNNNNNNCCGAA AUGCAAGG	7561
2849	AUGGAGCUC AAGAAAGA	3416	UCUUUCUU CUGAUGAGGNNNNNNNNCCGAA AGCUCCAU	7562
2900	CCCCGCCUA GACAGUGU	3417	ACACUGUC CUGAUGAGGNNNNNNNNCCGAA AGGCGGGG	7563
2909	GACAGUGUC AGCAGCUC	3418	GAGCUGCU CUGAUGAGGNNNNNNNNCCGAA ACACUGUC	7564
2917	CAGCAGCUC AAGUGUCA	3419	UGACACUU CUGAUGAGGNNNNNNNNCCGAA AGCUGCUG	7565
2924	UCAAGUGUC ACCAGCUC	3420	GAGCUGGU CUGAUGAGGNNNNNNNNCCGAA ACACUUGA	7566
2932	CACCAGCUC CAGCUUCC	3421	GGAAGCUG CUGAUGAGGNNNNNNNNCCGAA AGCUGGUG	7567
2938	CUCCAGCUU CCCUGAAG	3422	CUUCAGGG CUGAUGAGGNNNNNNNNCCGAA AGCUGGAG	7568
2939	UCCAGCUUC CCUGAAGA	3423	UCUUCAGG CUGAUGAGGNNNNNNNNCCGAA AAGCUGGA	7569
2982	ACGAGGAUU ACAGUGAG	3424	CUCACUGU CUGAUGAGGNNNNNNNNCCGAA AUCCUCGU	7570
2983	CGAGGAUUA CAGUGAGA	3425	UCUCACUG CUGAUGAGGNNNNNNNNCCGAA AAUCCUCG	7571
2993	AGUGAGAUC UCCAAGCA	3426	UGCUUGGA CUGAUGAGGNNNNNNNNCCGAA AUCUCACU	7572
2995	UGAGAUCUC CAAGCAGC	3427	GCUGCUUG CUGAUGAGGNNNNNNNNCCGAA AGAUCUCA	7573
3008	CAGCCCCUC ACCAUGGA	3428	UCCAUGGU CUGAUGAGGNNNNNNNNCCGAA AGGGGCUG	7574
3026	GACCUGAUU UCCUACAG	3429	CUGUAGGA CUGAUGAGGNNNNNNNNCCGAA AUCAGGUC	7575
3027	ACCUGAUUU CCUACAGU	3430	ACUGUAGG CUGAUGAGGNNNNNNNNCCGAA AAUCAGGU	7576
3028	CCUGAUUUC CUACAGUU	3431	AACUGUAG CUGAUGAGGNNNNNNNNCCGAA AAAUCAGG	7577
3031	GAUUUCCUA CAGUUUCC	3432	GGAAACUG CUGAUGAGGNNNNNNNNCCGAA AGGAAAUC	7578
3036	CCUACAGUU UCCAAGUG	3433	CACUUGGA CUGAUGAGGNNNNNNNNCCGAA ACUGUAGG	7579
3037	CUACAGUUU CCAAGUGG	3434	CCACUUGG CUGAUGAGGNNNNNNNNCCGAA AACUGUAG	7580
3038	UACAGUUUC CAAGUGGC	3435	GCCACUUG CUGAUGAGGNNNNNNNNCCGAA AAACUGUA	4675
3061	CAUGGAGUU UCUGUCCU	3436	AGGACAGA CUGAUGAGGNNNNNNNNCCGAA ACUCCAUG	7581
3062	AUGGAGUUU CUGUCCUC	3437	GAGGACAG CUGAUGAGGNNNNNNNNCCGAA AACUCCAU	7582
3063	UGGAGUUUC UGUCCUCC	3438	GGAGGACA CUGAUGAGGNNNNNNNNCCGAA AAACUCCA	7583
3067	GUUUCUGUC CUCCAGAA	3439	UUCUGGAG CUGAUGAGGNNNNNNNNCCGAA ACAGAAAC	7584
3070	UCUGUCCUC CAGAAAGU	3440	ACUUUCUG CUGAUGAGGNNNNNNNNCCGAA AGGACAGA	7585
3083	AAGUGCAUU CAUCGGGA	526	UCCCGAUG CUGAUGAGGNNNNNNNNCCGAA AUGCACUU	4682
3084	AGUGCAUUC AUCGGGAC	527	GUCCCGAU CUGAUGAGGNNNNNNNNCCGAA AAUGCACU	4683
3087	GCAUUCAUC GGGACCUG	528	CAGGUCCC CUGAUGAGGNNNNNNNNCCGAA AUGAAUGC	4684
3110	AGAAACAUC CUUUUAUC	3441	GAUAAAAG CUGAUGAGGNNNNNNNNCCGAA AUGUUUCU	4685
3113	AACAUCCUU UUAUCUGA	3442	UCAGAUAA CUGAUGAGGNNNNNNNNCCGAA AGGAUGUU	7586
3114	ACAUCCUUU UAUCUGAG	3443	CUCAGAUA CUGAUGAGGNNNNNNNNCCGAA AAGGAUGU	7587
3115	CAUCCUUUU AUCUGAGA	3444	UCUCAGAU CUGAUGAGGNNNNNNNNCCGAA AAAGGAUG	7588
3116	AUCCUUUUA UCUGAGAA	3445	UUCUCAGA CUGAUGAGGNNNNNNNNCCGAA AAAAGGAU	7589
3118	CCUUUUAUC UGAGAACA	3446	UGUUCUCA CUGAUGAGGNNNNNNNNCCGAA AUAAAAGG	7590
3140	GUGAAGAUU UGCGACUU	3447	AAGUCGCA CUGAUGAGGNNNNNNNNCCGAA AUCUUCAC	7591
3141	UGAAGAUUU GCGACUUU	3448	AAAGUCGC CUGAUGAGGNNNNNNNNCCGAA AAUCUUCA	7592
3148	UUGCGACUU UGGCCUGG	3449	CCAGGCCA CUGAUGAGGNNNNNNNNCCGAA AGUCGCAA	7593
3149	UGCGACUUU GGCCUGGC	3450	GCCAGGCC CUGAUGAGGNNNNNNNNCCGAA AAGUCGCA	7594
3165	CCCGGGAUA UUUAUAAG	542	CUUAUAAA CUGAUGAGGNNNNNNNNCCGAA AUCCCGGG	4698
3167	CGGGAUAUU UAUAAGAA	543	UUCUUAUA CUGAUGAGGNNNNNNNNCCGAA AUAUCCCG	4699
3168	GGGAUAUUU AUAAGAAC	544	GUUCUUAU CUGAUGAGGNNNNNNNNCCGAA AAUAUCCC	4700
3169	GGAUAUUUA UAAGAACC	545	GGUUCUUA CUGAUGAGGNNNNNNNNCCGAA AAAUAUCC	4701
3171	AUAUUUAUA AGAACCCU	3451	AGGGUUCU CUGAUGAGGNNNNNNNNCCGAA AUAAAUAU	7595
3183	ACCCUGAUU AUGUGAGG	3452	CCUCACAU CUGAUGAGGNNNNNNNNCCGAA AUCAGGGU	7596
3184	CCCUGAUUA UGUGAGGA	3453	UCCUCACA CUGAUGAGGNNNNNNNNCCGAA AAUCAGGG	7597
3201	GAGGAGAUA CUCGACUU	3454	AAGUCGAG CUGAUGAGGNNNNNNNNCCGAA AUCUCCUC	7598
3204	GAGAUACUC GACUUCCC	3455	GGGAAGUC CUGAUGAGGNNNNNNNNCCGAA AGUAUCUC	7599
3209	ACUCGACUU CCCCUAAA	3456	UUUAGGGG CUGAUGAGGNNNNNNNNCCGAA AGUCGAGU	7600
3210	CUCGACUUC CCCUAAAA	3457	UUUUAGGG CUGAUGAGGNNNNNNNNCCGAA AAGUCGAG	7601
3215	CUUCCCCUA AAAUGGAU	3458	AUCCAUUU CUGAUGAGGNNNNNNNNCCGAA AGGGGAAG	7602
3228	GGAUGGCUC CUGAAUCC	3459	GGAUUCAG CUGAUGAGGNNNNNNNNCCGAA AGCCAUCC	7603
3235	UCCUGAAUC CAUCUUUG	3460	CAAAGAUG CUGAUGAGGNNNNNNNNCCGAA AUUCAGGA	7604
3239	GAAUCCAUC UUUGACAA	3461	UUGUCAAA CUGAUGAGGNNNNNNNNCCGAA AUGGAUUC	7605
3241	AUCCAUCUU UGACAAGG	3462	CCUUGUCA CUGAUGAGGNNNNNNNNCCGAA AGAUGGAU	7606
3242	UCCAUCUUU GACAAGGU	3463	ACCUUGUC CUGAUGAGGNNNNNNNNCCGAA AAGAUGGA	7607
3252	GACAAGGUC UACAGCAC	3464	GUGCUGUA CUGAUGAGGNNNNNNNNCCGAA ACCUUGUC	7608
3253	CAAGGUCUA CAGCACCA	3465	UGGUGCUG CUGAUGAGGNNNNNNNNCCGAA AGACCUUG	7609
3277	UGUGUGGUC CUAUGGCG	3466	CGCCAUAG CUGAUGAGGNNNNNNNNCCGAA ACCACACA	7610
3280	GUGGUCCUA UGGCGUGU	3467	ACACGCCA CUGAUGAGGNNNNNNNNCCGAA AGGACCAC	7611
3289	UGGCGUGUU GCUGUGGG	3468	CCCACAGC CUGAUGAGGNNNNNNNNCCGAA ACACGCCA	7612
3302	UGGGAGAUC UUCUCCUU	3469	AAGGAGAA CUGAUGAGGNNNNNNNNCCGAA AUCUCCCA	7613
3304	GGAGAUCUU CUCCUUAG	3470	CUAAGGAG CUGAUGAGGNNNNNNNNCCGAA AGAUCUCC	7614
3305	GAGAUCUUC UCCUUAGG	3471	CCUAAGGA CUGAUGAGGNNNNNNNNCCGAA AAGAUCUC	7615
3307	GAUCUUCUC CUUAGGGG	3472	CCCCUAAG CUGAUGAGGNNNNNNNNCCGAA AGAAGAUC	7616
3310	CUUCUCCUU AGGGGGUU	3473	AACCCCCU CUGAUGAGGNNNNNNNNCCGAA AGGAGAAG	7617
3311	UUCUCCUUA GGGGGUUC	3474	GAACCCCC CUGAUGAGGNNNNNNNNCCGAA AAGGAGAA	7618
3318	UAGGGGGUU CUCCAUAC	3475	GUAUGGAG CUGAUGAGGNNNNNNNNCCGAA ACCCCCUA	7619
3319	AGGGGGUUC UCCAUACC	3476	GGUAUGGA CUGAUGAGGNNNNNNNNCCGAA AACCCCCU	7620
3321	GGGGUUCUC CAUACCCA	3477	UGGGUAUG CUGAUGAGGNNNNNNNNCCGAA AGAACCCC	7621
3325	UUCUCCAUA CCCAGGAG	3478	CUCCUGGG CUGAUGAGGNNNNNNNNCCGAA AUGGAGAA	7622
3352	UGAAGACUU CUGCAGCC	3479	GGCUGCAG CUGAUGAGGNNNNNNNNCCGAA AGUCUUCA	7623
3353	GAAGACUUC UGCAGCCG	3480	CGGCUGCA CUGAUGAGGNNNNNNNNCCGAA AAGUCUUC	7624
3397	CCCGGAGUA UGCCACAC	3481	GUGUGGCA CUGAUGAGGNNNNNNNNCCGAA ACUCCGGG	7625
3413	CCUGAAAUC UACCAAAU	3482	AUUUGGUA CUGAUGAGGNNNNNNNNCCGAA AUUUCAGG	7626
3415	UGAAAUCUA CCAAAUCA	3483	UGAUUUGG CUGAUGAGGNNNNNNNNCCGAA AGAUUUCA	7627
3422	UACCAAAUC AUGUUGGA	3484	UCCAACAU CUGAUGAGGNNNNNNNNCCGAA AUUUGGUA	7628
3427	AAUCAUGUU GGAUUGCU	3485	AGCAAUCC CUGAUGAGGNNNNNNNNCCGAA ACAUGAUU	7629
3432	UGUUGGAUU GCUGGCAC	3486	GUGCCAGC CUGAUGAGGNNNNNNNNCCGAA AUCCAACA	7630
3466	GCCCCGGUU UGCUGAAC	3487	GUUCAGCA CUGAUGAGGNNNNNNNNCCGAA ACCGGGGC	7631
3467	CCCCGGUUU GCUGAACU	3488	AGUUCAGC CUGAUGAGGNNNNNNNNCCGAA AACCGGGG	7632
3476	GCUGAACUU GUGGAGAA	3489	UUCUCCAC CUGAUGAGGNNNNNNNNCCGAA AGUUCAGC	7633
3488	GAGAAACUU GGUGACCU	3490	AGGUCACC CUGAUGAGGNNNNNNNNCCGAA AGUUUCUC	7634
3500	GACCUGCUU CAAGCCAA	3491	UUGGCUUG CUGAUGAGGNNNNNNNNCCGAA AGCAGGUC	7635
3501	ACCUGCUUC AAGCCAAC	3492	GUUGGCUU CUGAUGAGGNNNNNNNNCCGAA AAGCAGGU	7636
3512	GCCAACGUC CAACAGGA	3493	UCCUGUUG CUGAUGAGGNNNNNNNNCCGAA ACGUUGGC	7637
3531	GGAAAGAUU ACAUCCCC	3494	GGGGAUGU CUGAUGAGGNNNNNNNNCCGAA AUCUUUCC	7638
3532	GAAAGAUUA CAUCCCCC	3495	GGGGGAUG CUGAUGAGGNNNNNNNNCCGAA AAUCUUUC	7639
3536	GAUUACAUC CCCCUCAA	3496	UUGAGGGG CUGAUGAGGNNNNNNNNCCGAA AUGUAAUC	7640
3542	AUCCCCCUC AAUGCCAU	3497	AUGGCAUU CUGAUGAGGNNNNNNNNCCGAA AGGGGGAU	7641
3551	AAUGCCAUA CUGACUAG	3498	CUAGUCAG CUGAUGAGGNNNNNNNNCCGAA AUGGCAUU	7642
3558	UACUGACUA GAAACAGU	3499	ACUGUUUC CUGAUGAGGNNNNNNNNCCGAA AGUCAGUA	7643
3567	GAAACAGUA GCUUCACA	3500	UGUGAAGC CUGAUGAGGNNNNNNNNCCGAA ACUGUUUC	7644
3571	CAGUAGCUU CACAUACU	3501	AGUAUGUG CUGAUGAGGNNNNNNNNCCGAA AGCUACUG	7645
3572	AGUAGGCUC ACAUACUC	3502	GAGUAUGU CUGAUGAGGNNNNNNNNCCGAA AAGCUACU	7646
3577	CUUCACAUA CUCGACCC	3503	GGGUCGAG CUGAUGAGGNNNNNNNNCCGAA AUGUGAAG	7647
3580	CACAUACUC GACCCCCA	3504	UGGGGGUC CUGAUGAGGNNNNNNNNCCGAA AGUAUGUG	7648
3592	CCCCACCUU CUCUGAGG	3505	CCUCAGAG CUGAUGAGGNNNNNNNNCCGAA AGGUGGGG	7649
3593	CCCACCUUC UCUGAGGA	3506	UCCUCAGA CUGAUGAGGNNNNNNNNCCGAA AAGGUGGG	7650
3595	CACCUUCUC UGAGGACC	3507	GGUCCUCA CUGAUGAGGNNNNNNNNCCGAA AGAAGGUG	7651
3605	GAGGACCUU UUCAAGGA	3508	UCCUUGAA CUGAUGAGGNNNNNNNNCCGAA AGGUCCUC	7652
3606	AGGACCUUU UCAAGGAC	3509	GUCCUUGA CUGAUGAGGNNNNNNNNCCGAA AAGGUCCU	7653
3607	GGACCUUUU CAAGGACG	3510	CGUCCUUG CUGAUGAGGNNNNNNNNCCGAA AAAGGUCC	7654
3608	GACCUUUUC AAGGACGG	3511	CCGUCCUU CUGAUGAGGNNNNNNNNCCGAA AAAAGGUC	7655
3619	GGACGGCUU UGGAGAUC	3512	GAUCUGCA CUGAUGAGGNNNNNNNNCCGAA AGCCGUCC	7656
3620	GACGGCUUU GCAGAUCC	3513	GGAUCUGC CUGAUGAGGNNNNNNNNCCGAA AAGCCGUC	7657
3627	UUGCAGAUC CACAUUUU	3514	AAAAUGUG CUGAUGAGGNNNNNNNNCCGAA AUCUGCAA	7658
3633	AUCCACAUU UUCAUUCC	3515	GGAAUGAA CUGAUGAGGNNNNNNNNCCGAA AUGUGGAU	7659
3634	UCCACAUUU UCAUUCCG	3516	CGGAAUGA CUGAUGAGGNNNNNNNNCCGAA AAUGUGGA	7660
3635	CCACAUUUU CAUUCCGG	3517	CCGGAAUG CUGAUGAGGNNNNNNNNCCGAA AAAUGUGG	7661
3636	CACAUUUUC AUUCCGGA	3518	UCCGGAAU CUGAUGAGGNNNNNNNNCCGAA AAAAUGUG	7662
3639	AUUUUCAUU CCGGAAGC	3519	GCUUCCGG CUGAUGAGGNNNNNNNNCCGAA AUGAAAAU	7663
3640	UUUUCAUUC CGGAAGCU	3520	AGCUUCCG CUGAUGAGGNNNNNNNNCCGAA AAUGAAAA	7664
3649	CGGAAGCUC UGAUGAUG	3521	CAUCAUCA CUGAUGAGGNNNNNNNNCCGAA AGCUUCCG	7665
3664	UGUGAGAUA UGUAAACG	3522	CGUUUACA CUGAUGAGGNNNNNNNNCCGAA AUCUCACA	7666
3668	AGAUAUGUA AACGCUUU	3523	AAAGCGUU CUGAUGAGGNNNNNNNNCCGAA ACAUAUCU	7667
3675	UAAACGCUU UCAAAUUC	3524	GAAUUUGA CUGAUGAGGNNNNNNNNCCGAA AGCGUUUA	7668
3676	AAACGCUUU CAAAUUCA	3525	UGAAUUUG CUGAUGAGGNNNNNNNNCCGAA AAGCGUUU	7669
3677	AACGCUUUC AAAUUCAU	3526	AUGAAUUU CUGAUGAGGNNNNNNNNCCGAA AAAGCGUU	7670
3682	UUUCAAAUU CAUGAGCC	3527	GGCUCAUG CUGAUGAGGNNNNNNNNCCGAA AUUUGAAA	7671
3683	UUCAAAUUC AUGAGCCU	3528	AGGCUCAU CUGAUGAGGNNNNNNNNCCGAA AAUUUGAA	7672
3701	GAAAGAAUC AAAACCUU	637	AAGGUUUU CUGAUGAGGNNNNNNNNCCGAA AUUCUUUC	4793
3709	CAAAACCUU UGAGGAGC	3529	GCUCCUCA CUGAUGAGGNNNNNNNNCCGAA AGGUUUUG	7673
3710	AAAACCUUU GAGGAGCU	3530	AGCUCCUC CUGAUGAGGNNNNNNNNCCGAA AAGGUUUU	7674
3719	GAGGAGCUU UCACCGAA	3531	UUCGGUGA CUGAUGAGGNNNNNNNNCCGAA AGCUCCUC	7675
3720	AGGAGCUUU CACCGAAC	3532	GUUCGGUG CUGAUGAGGNNNNNNNNCCGAA AAGCUCCU	7676
3721	GGAGCUUUC ACCGAACU	3533	AGUUCGGU CUGAUGAGGNNNNNNNNCCGAA AAAGCUCC	7677
3730	ACCGAACUC CACCUCCA	3534	UGGAGGUG CUGAUGAGGNNNNNNNNCCGAA AGUUCGGU	7678
3736	CUCCACCUC CAUGUUUG	3535	CAAACAUG CUGAUGAGGNNNNNNNNCCGAA AGGUGGAG	7679
3742	CUCCAUGUU UGAGGACU	3536	AGUCCUCA CUGAUGAGGNNNNNNNNCCGAA ACAUGGAG	7680
3743	UCCAUGUUU GAGGACUA	3537	UAGUCCUC CUGAUGAGGNNNNNNNNCCGAA AACAUGGA	7681
3751	UGAGGACUA UCAGCUGG	3538	CCAGCUGA CUGAUGAGGNNNNNNNNCCGAA AGUCCUCA	7682
3753	AGGACUAUC AGCUGGAC	3539	GUCCAGCU CUGAUGAGGNNNNNNNNCCGAA AUAGUCCU	7683
3765	UGGACACUA GCACUCUG	3540	CAGAGUGC CUGAUGAGGNNNNNNNNCCGAA AGUGUCCA	7684
3771	CUAGCACUC UGCUGGGC	3541	GCCCAGCA CUGAUGAGGNNNNNNNNCCGAA AGUGCUAG	7685
3781	GCUGGGCUC CCCCUUGC	3542	GCAAGGGG CUGAUGAGGNNNNNNNNCCGAA AGCCCAGC	7686
3787	CUCCCCCUU GCUGAAGC	3543	GCUUCAGC CUGAUGAGGNNNNNNNNCCGAA AGGGGGAG	7687
3799	GAAGCGGUU CACCUGGA	3544	UCCAGGUG CUGAUGAGGNNNNNNNNCCGAA ACCGCUUC	7688
3800	AAGCGGUUC ACCUGGAC	3545	GUCCAGGU CUGAUGAGGNNNNNNNNCCGAA AACCGCUU	7689
3829	CAAGGCCUC CAUGAAGA	3546	UCUUCAUG CUGAUGAGGNNNNNNNNCCGAA AGGCCUUG	7690
3839	AUGAAGAUA GACUUGAG	3547	CUCAAGUC CUGAUGAGGNNNNNNNNCCGAA AUCUUCAU	7691
3844	GAUAGACUU GAGAAUAG	3548	CUAUUCUC CUGAUGAGGNNNNNNNNCCGAA AGUCUAUC	7692
3851	UUGAGAAUA GCGAGUAA	3549	UUACUCGC CUGAUGAGGNNNNNNNNCCGAA AUUCUCAA	7693
3858	UAGCGAGUA AAAGCAAG	3550	CUUGCUUU CUGAUGAGGNNNNNNNNCCGAA ACUCGCUA	7694
3878	GCGGGACUU UCCGAUCU	3551	AGAUCGGA CUGAUGAGGNNNNNNNNCCGAA AGUCCCGC	7695
3879	CGGGACUUU CCGAUCUG	3552	CAGAUCGG CUGAUGAGGNNNNNNNNCCGAA AAGUCCCG	7696
3880	GGGACUUUC CGAUCUGC	3553	GCAGAUCG CUGAUGAGGNNNNNNNNCCGAA AAAGUCCC	7697
3885	UUUCCGAUC UGCCGAGG	3554	CGUCGGCA CUGAUGAGGNNNNNNNNCCGAA AUCGGAAA	7698
3901	GCCCAGCUU CUGCUUCU	3555	AGAAGCAG CUGAUGAGGNNNNNNNNCCGAA AGCUGGGC	7699
3902	CCCAGCUUC UGCUUCUC	3556	GAGAAGCA CUGAUGAGGNNNNNNNNCCGAA AAGCUGGG	7700
3907	CUUCUGCUU CUCCAGCU	3557	AGGUGGAG CUGAUGAGGNNNNNNNNCCGAA AGCAGAAG	7701
3908	UUCUGCUUC UCCAGCUG	3558	CAGCUGGA CUGAUGAGGNNNNNNNNCCGAA AAGCAGAA	7702
3910	CUGCUUCUC CAGCUGUG	3559	CACAGCUG CUGAUGAGGNNNNNNNNCCGAA AGAAGCAG	7703
3926	GGCCACAUC AGGCCCGU	3560	ACGGGCCU CUGAUGAGGNNNNNNNNCCGAA AUGUGGCC	7704
3949	CGAUGAAUC UGAGCUGG	3561	CCAGCUCA CUGAUGAGGNNNNNNNNCCGAA AUUCAUCG	7705
3967	AAAGGAGUC CUGCUGUU	3562	AACAGCAG CUGAUGAGGNNNNNNNNCCGAA ACUCCUUU	7706
3975	CCUGCUGUU CUCCACCC	3563	GGGUGGAG CUGAUGAGGNNNNNNNNCCGAA ACAGCAGG	7707
3976	CUGCUGUUC UCCACCCC	3564	GGGGUGGA CUGAUGAGGNNNNNNNNCCGAA AACAGCAG	7708
3978	GCUGUUCUC CACCCCCA	3565	UGGGGGUG CUGAUGAGGNNNNNNNNCCGAA AGAACAGC	7709
3991	CCCAGACUA CAACUCCG	3566	CGGAGUUG CUGAUGAGGNNNNNNNNCCGAA AGUCUGGG	7710
3997	CUACAACUC CGUGGUGU	3567	ACACCACG CUGAUGAGGNNNNNNNNCCGAA AGUUGUAG	7711
4006	CGUGGUGUU GUACUCCU	3568	AGGAGUAC CUGAUGAGGNNNNNNNNCCGAA ACACCACG	7712
4009	GGUGUUGUA CUCCUCCC	3569	GGGAGGAG CUGAUGAGGNNNNNNNNCCGAA ACAACACC	7713
4012	GUUGUACUC CUCCCCGC	3570	GCGGGGAG CUGAUGAGGNNNNNNNNCCGAA AGUACAAC	7714
4015	GUACUCCUC CCCGCCCG	3571	CGGGCGGG CUGAUGAGGNNNNNNNNCCGAA AGGAGUAC	7715
4027	GCCCGCCUA AAGCUUCU	3572	AGAAGCUU CUGAUGAGGNNNNNNNNCCGAA AGGCGGGC	7716
4033	CUAAAGCUU CUCACCAG	3573	CUGGUGAG CUGAUGAGGNNNNNNNNCCGAA AGCUUUAG	7717
4034	UAAAGCUUC UCACCAGC	3574	GCUGGUGA CUGAUGAGGNNNNNNNNCCGAA AAGCUUUA	7718
4036	AAGCUUCUC ACCAGCCC	3575	GGGCUGGU CUGAUGAGGNNNNNNNNCCGAA AGAAGCUU	7719
4066	CUGACAGUA UUAUACAU	3576	AUGUAUAA CUGAUGAGGNNNNNNNNCCGAA ACUGUCAG	7720
4068	GACAGUAUU AUACAUCU	3577	AGAUGUAU CUGAUGAGGNNNNNNNNCCGAA AUACUGUC	7721
4069	ACAGUAUUA UACAUCUA	3578	UAGAUGUA CUGAUGAGGNNNNNNNNCCGAA AAUACUGU	7722
4071	AGUAUUAUA CAUCUAUG	3579	CAUAGAUG CUGAUGAGGNNNNNNNNCCGAA AUAAUACU	7723
4075	UUAUACAUC UAUGAGUU	3580	AACUCAUA CUGAUGAGGNNNNNNNNCCGAA AUGUAUAA	7724
4077	AUACAUCUA UGAGUUUA	3581	UAAACUCA CUGAUGAGGNNNNNNNNCCGAA AGAUGUAU	7725
4083	CUAUGAGUU UACACCUA	3582	UAGGUGUA CUGAUGAGGNNNNNNNNCCGAA ACUCAUAG	7726
4084	UAUGAGUUU ACACCUAU	3583	AUAGGUGU CUGAUGAGGNNNNNNNNCCGAA AACUCAUA	7727
4085	AUGAGUUUA CACCUAUU	3584	AAUAGGUG CUGAUGAGGNNNNNNNNCCGAA AAACUCAU	7728
4091	UUACACCUA UUCCGCUC	3585	GAGCGGAA CUGAUGAGGNNNNNNNNCCGAA AGGUGUAA	7729
4093	ACACCUAUU CCGCUCCA	3586	UGGAGCGG CUGAUGAGGNNNNNNNNCCGAA AUAGGUGU	7730
4094	CACCUAUUC CGCUCCAC	3587	GUGGAGCG CUGAUGAGGNNNNNNNNCCGAA AAUAGGUG	7731
4099	AUUCCGCUC CACAGGAG	3588	CUCCUGUG CUGAUGAGGNNNNNNNNCCGAA AGCGGAAU	7732
4117	CAGCUGCUU UUCGUGAC	3589	GUCACGAA CUGAUGAGGNNNNNNNNCCGAA AGCAGCUG	7733
4118	AGCUGCUUU UCGUGACC	3590	GGUCACGA CUGAUGAGGNNNNNNNNCCGAA AAGCAGCU	7734
4119	GCUGCUUUU CGUGACCU	3591	AGGUCACG CUGAUGAGGNNNNNNNNCCGAA AAAGCAGC	7735
4120	CUGCUUUUC GUGACCUU	3592	AAGGUCAC CUGAUGAGGNNNNNNNNCCGAA AAAAGCAG	7736
4128	CGUGACCUU UAAUCGUG	3593	CACGAUUA CUGAUGAGGNNNNNNNNCCGAA AGGUCACG	7737
4129	GUGACCUUU AAUCGUGC	3594	GCACGAUU CUGAUGAGGNNNNNNNNCCGAA AAGGUCAC	7738
4130	UGACCUUUA AUCGUGCU	3595	AGCACGAU CUGAUGAGGNNNNNNNNCCGAA AAAGGUCA	7739
4133	CCUUUAAUC GUGCUUUU	3596	AAAAGCAC CUGAUGAGGNNNNNNNNCCGAA AUUAAAGG	7740
4139	AUCGUGCUU UUUUGUUU	3597	AAACAAAA CUGAUGAGGNNNNNNNNCCGAA AGCACGAU	7741
4140	UCGUGCUUU UUUGUUUU	3598	AAAACAAA CUGAUGAGGNNNNNNNNCCGAA AAGCACGA	7742
4141	CGUGCUUUU UUGUUUUU	3599	AAAAACAA CUGAUGAGGNNNNNNNNCCGAA AAAGCACG	7743
4142	GUGCUUUUU UGUUUUUU	3600	AAAAAACA CUGAUGAGGNNNNNNNNCCGAA AAAAGCAC	7744
4143	UGCUUUUUU GUUUUUUG	3601	CAAAAAAC CUGAUGAGGNNNNNNNNCCGAA AAAAAGCA	7745
4146	UUUUUUGUU UUUUGUUU	3602	AAACAAAA CUGAUGAGGNNNNNNNNCCGAA ACAAAAAA	7746
4147	UUUUUGUUU UUUGUUUU	3603	AAAACAAA CUGAUGAGGNNNNNNNNCCGAA AACAAAAA	7747
4148	UUUUGUUUU UUGUUUUG	3604	CAAAACAA CUGAUGAGGNNNNNNNNCCGAA AAACAAAA	7748
4149	UUUGUUUUU UGUUUUGU	3605	ACAAAACA CUGAUGAGGNNNNNNNNCCGAA AAAACAAA	7749
4150	UUGUUUUUU GUUUUGUU	3606	AACAAAAC CUGAUGAGGNNNNNNNNCCGAA AAAAACAA	7750
4153	UUUUUUGUU UUGUUUGU	3607	ACAAACAA CUGAUGAGGNNNNNNNNCCGAA ACAAAAAA	7751
4154	UUUUUGUUU UGUUUGUU	3608	AACAAACA CUGAUGAGGNNNNNNNNCCGAA AACAAAAA	7752
4155	UUUUGUUUU GUUUGUUG	3609	CAACAAAC CUGAUGAGGNNNNNNNNCCGAA AAACAAAA	7753
4158	UGUUUUGUU UGUUGUUG	3610	CAACAACA CUGAUGAGGNNNNNNNNCCGAA ACAAAACA	7754
4159	GUUUUGUUU GUUGUUGC	3611	GCAACAAC CUGAUGAGGNNNNNNNNCCGAA AACAAAAC	7755
4162	UUGUUUGUU GUUGCUGU	3612	ACAGCAAC CUGAUGAGGNNNNNNNNCCGAA ACAAACAA	7756
4165	UUUGUUGUU GCUGUUUU	3613	AAAACAGC CUGAUGAGGNNNNNNNNCCGAA ACAACAAA	7757
4171	GUUGCUGUU UUGACUAA	3614	UUAGUCAA CUGAUGAGGNNNNNNNNCCGAA ACAGCAAC	7758
4172	UUGCUGUUU UGACUAAC	3615	GUUAGUCA CUGAUGAGGNNNNNNNNCCGAA AACAGCAA	7759
4173	UGCUGUUUU GACUAACA	3616	UGUUAGUC CUGAUGAGGNNNNNNNNCCGAA AAACAGCA	7760
4178	UUUUGACUA ACAAGAAU	737	AUUCUUGU CUGAUGAGGNNNNNNNNCCGAA AGUCAAAA	4893
4189	AAGAAUGUA ACCCCAGU	3617	ACUGGGGU CUGAUGAGGNNNNNNNNCCGAA ACAUUCUU	7761
4198	ACCCCAGUU AGUGACGU	3618	ACGUCACU CUGAUGAGGNNNNNNNNCCGAA ACUGGGGU	7762
4199	CCCCAGUUA GUGACGUG	3619	CACGUCAC CUGAUGAGGNNNNNNNNCCGAA AACUGGGG	7763
4216	UGAAGAAUA CUAUUGUU	3620	AACAAUAG CUGAUGAGGNNNNNNNNCCGAA AUUCUUCA	7764
4219	AGAAUACUA UUGUUAGA	3621	UCUAACAA CUGAUGAGGNNNNNNNNCCGAA AGUAUUCU	7765
4221	AAUACUAUU GUUAGAGA	3622	UCUCUAAC CUGAUGAGGNNNNNNNNCCGAA AUAGUAUU	7766
4224	ACUAUUGUU AGAGAAAU	3623	AUUUCUCU CUGAUGAGGNNNNNNNNCCGAA ACAAUAGU	7767
4225	CUAUUGUUA GAGAAAUC	3624	GAUUUCUC CUGAUGAGGNNNNNNNNCCGAA AACAAUAG	7768
4233	AGAGAAAUC CCCCCCGC	3625	GCGGGGGG CUGAUGAGGNNNNNNNNCCGAA AUUUCUCU	7769
4249	CAAAGCCUC AGGGUAAC	3626	GUUACCCU CUGAUGAGGNNNNNNNNCCGAA AGGCUUUG	7770
4255	CUCAGGGUA ACCUGGAC	3627	GUCCAGGU CUGAUGAGGNNNNNNNNCCGAA ACCCUGAG	7771
4282	AGGUGCCUC UGGCGACC	3628	GGUCGCCA CUGAUGAGGNNNNNNNNCCGAA AGGCACCU	7772
4323	CCCACCCUC CCUGCAGC	3629	GCUGCAGG CUGAUGAGGNNNNNNNNCCGAA AGGGUGGG	7773
4341	GUGGGACUA GAGGCAGU	3630	ACUGCCUC CUGAUGAGGNNNNNNNNCCGAA AGUCCCAC	7774
4350	GAGGCAGUA AGCCCAUU	3631	AAUGGGCU CUGAUGAGGNNNNNNNNCCGAA ACUGCCUC	7775
4358	AAGCCCAUU AGCUCAUG	3632	CAUGAGCU CUGAUGAGGNNNNNNNNCCGAA AUGGGCUU	7776
4359	AGCCCAUUA GCUCAUGG	3633	CCAUGAGC CUGAUGAGGNNNNNNNNCCGAA AAUGGGCU	7777
4363	CAUUAGCUC AUGGCUGC	3634	GCAGCCAU CUGAUGAGGNNNNNNNNCCGAA AGCUAAUG	7778
4387	GACCUGCUC UGUCUCUC	3635	GAGAGACA CUGAUGAGGNNNNNNNNCCGAA AGCAGGUC	7779
4391	UGCUCUGUC UCUCUUAU	3636	AUAAGAGA CUGAUGAGGNNNNNNNNCCGAA ACAGAGCA	7780
4393	CUCUGUCUC UCUUAUGG	3637	CCAUAAGA CUGAUGAGGNNNNNNNNCCGAA AGACAGAG	7781
4395	CUGUCUCUC UUAUGGAG	3638	CUCCAUAA CUGAUGAGGNNNNNNNNCCGAA AGAGACAG	7782
4397	GUCUCUCUU AUGGAGGA	3639	UCCUCCAU CUGAUGAGGNNNNNNNNCCGAA AGAGAGAC	7783
4398	UCUCUCUUA UGGAGGAA	3640	UUCCUCCA CUGAUGAGGNNNNNNNNCCGAA AAGAGAGA	7784
4445	AAAAGGCUU UGGGAUGC	3641	GCAUCCCA CUGAUGAGGNNNNNNNNCCGAA AGCCUUUU	7785
4446	AAAGGCUUU GGGAUGCG	3642	CGCAUCCC CUGAUGAGGNNNNNNNNCCGAA AAGCCUUU	7786
4456	GGAUGCGUC CGUCCUGU	3643	ACAGGACG CUGAUGAGGNNNNNNNNCCGAA ACGCAUCC	7787
4460	GCGUCCGUC CUGUGGAG	3644	CUCCACAG CUGAUGAGGNNNNNNNNCCGAA ACGGACGC	7788
4487	AGGGGGCUC CGCUAUGC	3645	GCAUAGCG CUGAUGAGGNNNNNNNNCCGAA AGCCCCCU	7789
4492	GCUCCGCUA UGCCACUU	3646	AAGUGGCA CUGAUGAGGNNNNNNNNCCGAA AGCGGAGC	7790
4500	AUGCCACUU CAGUGACU	3647	AGUCACUG CUGAUGAGGNNNNNNNNCCGAA AGUGGCAU	7791
4501	UGCCACUUC AGUGACUU	3648	AAGUCACU CUGAUGAGGNNNNNNNNCCGAA AAGUGGCA	7792
4509	CAGUGACUU CUCACUCC	3649	GGAGUGAG CUGAUGAGGNNNNNNNNCCGAA AGUCACUG	7793
4510	AGUGACUUC UCACUCCU	3650	AGGAGUGA CUGAUGAGGNNNNNNNNCCGAA AAGUCACU	7794
4512	UGACUUCUC ACUCCUGG	3651	CCAGGAGU CUGAUGAGGNNNNNNNNCCGAA AGAAGUCA	7795
4526	UUCUCACUC CUGGCCUC	3652	GAGGCCAG CUGAUGAGGNNNNNNNNCCGAA AGUGAGAA	7796
4524	CCUGGCCUC CGCUGUUU	3653	AAACAGCG CUGAUGAGGNNNNNNNNCCGAA AGGCCAGG	7797
4531	UCCGCUGUU UCGGGCCC	3654	GGGCCCGA CUGAUGAGGNNNNNNNNCCGAA ACAGCGGA	7798
4532	CCGGUGUUU CGGGCCCC	3655	GGGGCCCG CUGAUGAGGNNNNNNNNCCGAA AACAGCGG	7799
4533	CGCUGUUUC GGGCCCCC	3656	GGGGGCCC CUGAUGAGGNNNNNNNNCCGAA AAACAGCG	7800
4543	GGCCCCCUU CCAAGAGG	3657	CCUCUUGG CUGAUGAGGNNNNNNNNCCGAA AGGGGGCC	7801
4544	GCCCCCUUC CAAGAGGU	3658	ACCUCUCG CUGAUGAGGNNNNNNNNCCGAA AAGGGGGC	7802
4553	CAAGAGGUA UCAGAGCA	3659	UGGUCUGA CUGAUGAGGNNNNNNNNCCGAA ACCUCUUG	7803
4555	AGAGGUAUC AGAGCAGA	3660	UCUGCUCU CUGAUGAGGNNNNNNNNCCGAA AUACCUCU	7804
4577	AGGGACGUU UCCUAGAC	3661	GUCUAGGA CUGAUGAGGNNNNNNNNCCGAA ACGUCCCU	7805
4578	GGGACGUUU CCUAGACC	3662	GGUCUAGG CUGAUGAGGNNNNNNNNCCGAA AACGUCCC	7806
4579	GGACGUUUC CUAGACCA	3663	UGGUCUAG CUGAUGAGGNNNNNNNNCCGAA AAACGUCC	7807
4582	CGUUUCCUA GACCAGGG	3664	CCCUGGUC CUGAUGAGGNNNNNNNNCCGAA AGGAAACG	7808
4598	GCACAUGUU CUCGGGAA	3665	UUCCCGAG CUGAUGAGGNNNNNNNNCCGAA ACAUGUGC	7809
4599	CACAUGUUC UCGGGAAC	3666	GUUCCCGA CUGAUGAGGNNNNNNNNCCGAA AACAUGUG	7810
4601	CAUGUUCUC GGGAACCA	3667	UGGUUCCC CUGAUGAGGNNNNNNNNCCGAA AGAACAUG	7811
4614	ACCACAGUU AAUCUUAA	3668	UUAAGAUU CUGAUGAGGNNNNNNNNCCGAA ACUGUGGU	7812
4615	CCACAGUUA AUCUUAAA	3669	UUUAAGAU CUGAUGAGGNNNNNNNNCCGAA AACUGUGG	7813
4618	CAGUUAAUC UUAAAUCU	3670	AGAUUUAA CUGAUGAGGNNNNNNNNCCGAA AUUAACUG	7814
4620	GUUAAUCUU AAAUCUUU	3671	AAAGAUUU CUGAUGAGGNNNNNNNNCCGAA AGAUUAAC	7815
4621	UUAAUCUUA AAUCUUUU	3672	AAAAGAUU CUGAUGAGGNNNNNNNNCCGAA AAGAUUAA	7816
4625	UCUUAAAUC UUUUCCCG	3673	CGGGAAAA CUGAUGAGGNNNNNNNNCCGAA AUUUAAGA	7817
4627	UUAAAUCUU UUCCCGGG	3674	CCCGGGAA CUGAUGAGGNNNNNNNNCCGAA AGAUUUAA	7818
4628	UAAAUCUUU UCCCGGGA	3675	UCCCGGGA CUGAUGAGGNNNNNNNNCCGAA AAGAUUUA	7819
4629	AAAUCUUUU CCCGGGAG	3676	CUCCCGGG CUGAUGAGGNNNNNNNNCCGAA AAAGAUUU	7820
4630	AAUCUUUUC CCGGGAGU	3677	ACUCCCGG CUGAUGAGGNNNNNNNNCCGAA AAAAGAUU	7821
4639	CCGGGAGUC UUCUGUUG	3678	CAACAGAA CUGAUGAGGNNNNNNNNCCGAA ACUCCCGG	7822
4641	GGGAGUCUU CUGUUGUC	3679	GACAACAG CUGAUGAGGNNNNNNNNCCGAA AGACUCCC	7823
4642	GGAGUCUUC UGUUGUCU	3680	AGACAACA CUGAUGAGGNNNNNNNNCCGAA AAGACUCC	7824
4646	UCUUCUGUU GUCUGUUU	3681	AAACAGAC CUGAUGAGGNNNNNNNNCCGAA ACAGAAGA	7825
4649	UCUGUUGUC UGUUUACC	3682	GGUAAACA CUGAUGAGGNNNNNNNNCCGAA ACAACAGA	7826
4653	UUGUCUGUU UACCAUCC	3683	GGAUGGUA CUCAUGAGGNNNNNNNNCCGAA ACAGACAA	7827
4654	UGUCUGUUU ACCAUCCA	3684	UGGAUGGU CUGAUGAGGNNNNNNNNCCGAA AACAGACA	7828
4655	GUCUGUUUA CCAUCCAA	3685	UUGGAUGG CUGAUGAGGNNNNNNNNCCGAA AAACAGAC	7829
4660	UUUACCAUC CAAAGCAU	3686	AUGCUUUG CUGAUGAGGNNNNNNNNCCGAA AUGGUAAA	7830
4669	CAAAGCAUA UUUAACAU	3687	AUGUUAAA CUGAUGAGGNNNNNNNNCCGAA AUGCUUUG	7831
4671	AAGCAUAUU UAACAUGU	3688	ACAUGUUA CUGAUGAGGNNNNNNNNCCGAA AUAUGCUU	7832
4672	AGCAUAUUU AACAUGUG	3689	CACAUGUU CUGAUGAGGNNNNNNNNCCGAA AAUAUGCU	7833
4673	GCAUAUUUA ACAUGUGU	3690	ACACAUGU CUGAUGAGGNNNNNNNNCCGAA AAAUAUGC	7834
4682	ACAUGUGUC AGUGGGGG	3691	CCCCCACU CUGAUGAGGNNNNNNNNCCGAA ACACAUGU	7835
4698	GUGGCGCUU GGCUUCUG	3692	CAGAAGCC CUGAUGAGGNNNNNNNNCCGAA AGCGCCAC	7836
4703	GCUUGGCUU CUGAGGCC	3693	GGCCUCAG CUGAUGAGGNNNNNNNNCCGAA AGCCAAGC	7837
4704	CUUGGCUUC UGAGGCCA	3694	UGGCCUCA CUGAUGAGGNNNNNNNNCCGAA AAGCCAAG	7838
4720	AGAGCCAUC AUCAGUUC	3695	GAACUGAU CUGAUGAGGNNNNNNNNCCGAA AUGGCUCU	7839
4723	GCCAUCAUC AGUCCCUC	3696	GAGGAACU CUGAUGAGGNNNNNNNNCCGAA AUGAUGGC	7840
4727	UCAUCAGUU CCUCUAGU	3697	ACUAGAGG CUGAUGAGGNNNNNNNNCCGAA ACUGAUGA	7841
4728	CAUCAGUUC CUCUAGUG	3698	CACUAGAG CUGAUGAGGNNNNNNNNCCGAA AACUGAUG	7842
4731	CAGUUCCUC UAGUGAGA	3699	UCUCACUA CUGAUGAGGNNNNNNNNCCGAA AGGAACUG	7843
4733	GUUCCUCUA GUGAGAUG	3700	CAUCUCAC CUGAUGAGGNNNNNNNNCCGAA AGAGGAAC	7844
4745	AGAUGCAUU GAGGUCAU	3701	AUGACCUC CUGAUGAGGNNNNNNNNCCGAA AUGCAUCU	7845
4751	AUUGAGGUC AUACCCAA	3702	UUGGGUAU CUGAUGAGGNNNNNNNNCCGAA ACCUCAAU	7846
4754	GAGGUCAUA CCCAAGCU	3703	AGCUUGGG CUGAUGAGGNNNNNNNNCCGAA AUGACCUC	7847
4763	CCCAAGCUU GCAGGCCU	3704	AGGCCUGC CUGAUGAGGNNNNNNNNCCGAA AGCUUGGG	7848
4777	CCUGACCUU CGCAUACU	3705	AGUAUGCG CUGAUGAGGNNNNNNNNCCGAA AGGUCAGG	7849
4778	CUGACCUUC GCAUACUG	3706	CAGUAUGC CUGAUGAGGNNNNNNNNCCGAA AAGGUCAG	7850
4783	CUUCGCAUA CUGCUCAC	3707	GUGAGCAG CUGAUGAGGNNNNNNNNCCGAA AUGCGAAG	7851
4789	AUACUGCUC ACGGGGAG	3708	CUCCCCGU CUGAUGAGGNNNNNNNNCCGAA AGCAGUAU	7852
4799	CGGGGAGUU AAGUGGUC	3709	GACCACUU CUGAUGAGGNNNNNNNNCCGAA ACUCCCCG	7853
4800	GGGGAGUUA AGUGGUCC	3710	GGACCACU CUGAUGAGGNNNNNNNNCCGAA AACUCCCC	7854
4807	UAAGUGGUC CAGUUUGG	3711	CCAAACUG CUGAUGAGGNNNNNNNNCCGAA ACCACUUA	7855
4812	GGUCCAGUU UGGCCUAG	3712	CUAGGCCA CUGAUGAGGNNNNNNNNCCGAA ACUGGACC	7856
4813	GUCCAGUUU GGCCUAGU	3713	ACUAGGCC CUGAUGAGGNNNNNNNNCCGAA AACUGGAC	7857
4819	UUUGGCCUA GUAAGGUU	3714	AACCUUAC CUGAUGAGGNNNNNNNNCCGAA AGGCCAAA	7858
4822	GGCCUAGUA AGGUUGCC	3715	GGCAACCU CUGAUGAGGNNNNNNNNCCGAA ACUAGGCC	7859
4827	AGUAAGGUU GCCUACUG	3716	CAGUAGGC CUGAUGAGGNNNNNNNNCCGAA ACCUUACU	7860
4832	GGUUGCCUA CUGAUGGG	3717	CCCAUCAG CUGAUGAGGNNNNNNNNCCGAA AGGCAACC	7861
4843	GAUGGGCUC AAAAGCCA	3718	UGGCUUUU CUGAUGAGGNNNNNNNNCCGAA AGCCCAUC	7862
4855	AGCCACAUU UUAAACAG	3719	CUGUUUAA CUGAUGAGGNNNNNNNNCCGAA AUGUGGCU	7863
4856	GCCACAUUU UAAACAGG	3720	CCUGUUUA CUGAUGAGGNNNNNNNNCCGAA AAUGUGGC	7864
4857	CCACAUUUU AAACAGGU	3721	ACCUGUUU CUGAUGAGGNNNNNNNNCCGAA AAAUGUGG	7865
4858	CACAUUUUA AACAGGUU	3722	AACCUGUU CUGAUGAGGNNNNNNNNCCGAA AAAAUGUG	7866
4866	AAACAGGUU UUAUCUCA	3723	UGAGAUAA CUGAUGAGGNNNNNNNNCCGAA ACCUGUUU	7867
4867	AACAGGUUU UAUCUCAA	3724	UUGAGAUA CUGAUGAGGNNNNNNNNCCGAA AACCUGUU	7868
4868	ACAGGUUUU AUCUCAAG	3725	CUUGAGAU CUGAUGAGGNNNNNNNNCCGAA AAACCUGU	7869
4869	CAGGUUUUA UCUCAAGU	3726	ACUUGAGA CUGAUGAGGNNNNNNNNCCGAA AAAACCUG	7870
4871	GGUUUUAUC UCAAGUAU	3727	AUACUUGA CUGAUGAGGNNNNNNNNCCGAA AUAAAACC	7871
4873	UUUUAUCUC AAGUAUUA	3728	UAAUACUU CUGAUGAGGNNNNNNNNCCGAA AGAUAAAA	7872
4878	UCUCAAGUA UUAAUAUA	3729	UAUAUUAA CUGAUGAGGNNNNNNNNCCGAA ACUUGAGA	7873
4880	UCAAGUAUU AAUAUAUA	3730	UAUAUAUU CUGAUGAGGNNNNNNNNCCGAA AUACUUGA	7874
4881	CAAGUAUUA AUAUAUAG	3731	CUAUAUAU CUGAUGAGGNNNNNNNNCCGAA AAUACUUG	7875
4884	GUAUUAAUA UAUAGACA	3732	UGUCUAUA CUGAUGAGGNNNNNNNNCCGAA AUUAAUAC	7876
4886	AUUAAUAUA UAGACAAG	3733	CUUGUCUA CUGAUGAGGNNNNNNNNCCGAA AUAUUAAU	7877
4888	UAAUAUAUA GACAAGAC	3734	GUCUUGUC CUGAUGAGGNNNNNNNNCCGAA AUAUAUUA	7878
4900	AAGACACUU AUGCAUUA	3735	UAAUGCAU CUGAUGAGGNNNNNNNNCCGAA AGUGUCUU	7879
4901	AGACACUUA UGCAUUAU	3736	AUAAUGCA CUGAUGAGGNNNNNNNNCCGAA AAGUGUCU	7880
4907	UUAUGCAUU AUCCUGUU	3737	AACAGGAU CUGAUGAGGNNNNNNNNCCGAA AUGCAUAA	7881
4908	UAUGCAUUA UCCUGUUU	3738	AAACAGGA CUGAUGAGGNNNNNNNNCCGAA AAUGCAUA	7882
4910	UGCAUUAUC CUGUUUUA	3739	UAAAACAG CUGAUGAGGNNNNNNNNCCGAA AUAAUGCA	7883
4915	UAUCCUGUU UUAUAUAU	3740	AUAUAUAA CUGAUGAGGNNNNNNNNCCGAA ACAGGAUA	7884
4916	AUCCUGUUU UAUAUAUC	3741	GAUAUAUA CUGAUGAGGNNNNNNNNCCGAA AACAGGAU	7885
4917	UCCUGUUUU AUAUAUCC	3742	GGAUAUAU CUGAUGAGGNNNNNNNNCCGAA AAACAGGA	7886
4918	CCUGUUUUA UAUAUCCA	3743	UGGAUAUA CUGAUGAGGNNNNNNNNCCGAA AAAACAGG	7887
4920	UGUUUUAUA UAUCCAAU	3744	AUUGGAUA CUGAUGAGGNNNNNNNNCCGAA AUAAAACA	7888
4922	UUUUAUAUA UCCAAUGA	3745	UCAUUGGA CUGAUGAGGNNNNNNNNCCGAA AUAUAAAA	7889
4924	UUAUAUAUC CAAUGAAU	3746	AUUCAUUG CUGAUGAGGNNNNNNNNCCGAA AUAUAUAA	7890
4933	CAAUGAAUA UAACUGGG	3747	CCCAGUUA CUGAUGAGGNNNNNNNNCCGAA AUUCAUUG	7891
4935	AUGAAUAUA ACUGGGGC	3748	GCCCCAGU CUGAUGAGGNNNNNNNNCCGAA AUAUUCAU	7892
4948	GGGCGAGUU AAGAGUCA	3749	UGACUCUU CUGAUGAGGNNNNNNNNCCGAA ACUCGCCC	7893
4949	GGCGAGUUA AGAGUCAU	3750	AUGACUCU CUGAUGAGGNNNNNNNNCCGAA AACUCGCC	7894
4955	UUAAGAGUC AUGGUCUA	3751	UAGACCAU CUGAUGAGGNNNNNNNNCCGAA ACUCUUAA	7895
4961	GUCAUGGUC UAGAAAAG	3752	CUUUUCUA CUGAUGAGGNNNNNNNNCCGAA ACCAUGAC	7896
4963	CAUGGUCUA GAAAAGGG	3753	CCCUUUUC CUGAUGAGGNNNNNNNNCCGAA AGACCAUG	7897
4974	AAAGGGGUU UCUCUGUA	3754	UACAGAGA CUGAUGAGGNNNNNNNNCCGAA ACCCCUUU	7898
4975	AAGGGGUUU CUCUGUAC	3755	GUACAGAG CUGAUGAGGNNNNNNNNCCGAA AACCCCUU	7899
4976	AGGGGUUUC UCUGUACC	3756	GGUACAGA CUGAUGAGGNNNNNNNNCCGAA AAACCCCU	7900
4978	GGGUUUCUC UGUACCCA	3757	UGGGUACA CUGAUGAGGNNNNNNNNCCGAA AGAAACCC	7903
4982	UUCUCUGUA CCCAAAUC	3758	GAUUUGGG CUGAUGAGGNNNNNNNNCCGAA ACAGAGAA	7902
4990	ACCCAAAUC GGGCUGGU	3759	ACCAGCCC CUGAUGAGGNNNNNNNNCCGAA AUUUGGGU	7903
4999	GGGCUGGUU GGACCAAG	3760	CUUGGUCC CUGAUGAGGNNNNNNNNCCGAA ACCAGCCC	7904
5029	AGAGUGGUU GUCCCAGC	3761	GCUGGGAC CUGAUGAGGNNNNNNNNCCGAA ACCACUCU	7905
5032	GUGGUUGUC CCAGCUAU	3762	AUAGCUGG CUGAUGAGGNNNNNNNNCCGAA ACAACCAC	7906
5039	UCCCAGCUA UAGUUACU	3763	AGUAACUA CUGAUGAGGNNNNNNNNCCGAA AGCUGGGA	7907
5041	CCAGCUAUA GUUACUAA	3764	UUAGUAAC CUGAUGAGGNNNNNNNNCCGAA AUAGCUGG	7908
5044	GCUAUAGUU ACUAAACU	3765	AGUUUAGU CUGAUGAGGNNNNNNNNCCGAA ACUAUAGC	7909
5045	CUAUAGUUA CUAAACUA	3766	UAGUUUAG CUGAUGAGGNNNNNNNNCCGAA AACUAUAG	7910
5048	UAGUUACUA AACUACUC	3767	GAGUAGUU CUGAUGAGGNNNNNNNNCCGAA AGUAACUA	7911
5053	ACUAAACUA CUCACCCA	3768	UGGGUGAG CUGAUGAGGNNNNNNNNCCGAA AGUUUAGU	7912
5056	AAACUACUC ACCCAAAG	3769	CUUUGGGU CUGAUGAGGNNNNNNNNCCGAA AGUAGUUU	7913
5066	CCCAAAGUU GGGACCUC	3770	GAGGUCCC CUGAUGAGGNNNNNNNNCCGAA ACUUUGGG	7914
5074	UGGGACCUC ACUGGCUU	3771	AAGCCAGU CUGAUGAGGNNNNNNNNCCGAA AGGUCCCA	7915
5082	CACUGGCUU CUCUUUAC	3772	GUAAAGAG CUGAUGAGGNNNNNNNNCCGAA AGCCAGUG	7916
5083	ACUGGCUUC UCUUUACU	3773	AGUAAAGA CUGAUGAGGNNNNNNNNCCGAA AAGCCAGU	7917
5085	UGGCUUCUC UUUACUUC	3774	GAAGUAAA CUGAUGAGGNNNNNNNNCCGAA AGAAGCCA	7918
5087	GCUUCUCUU UACUUCAU	3775	AUGAAGUA CUGAUGAGGNNNNNNNNCCGAA AGAGAAGC	7919
5088	CUUCUCUUU ACUUCAUC	3776	GAUGAAGU CUGAUGAGGNNNNNNNNCCGAA AAGAGAAG	7920
5089	UUCUCUUUA CUUCAUCA	3777	UGAUGAAG CUGAUGAGGNNNNNNNNCCGAA AAAGAGAA	7921
5092	UCUUUACUU CAUCAUGG	3778	CCAUGAUG CUGAUGAGGNNNNNNNNCCGAA AGUAAAGA	7922
5093	CUUUACUUC AUCAUGGA	3779	UCCAUGAU CUGAUGAGGNNNNNNNNCCGAA AAGUAAAG	7923
5096	UACUUCAUC AUGGAUUU	3780	AAAUCCAU CUGAUGAGGNNNNNNNNCCGAA AUGAAGUA	7924
5103	UCAUGGAUU UCACCAUC	3781	GAUGGUGA CUGAUGAGGNNNNNNNNCCGAA AUCCAUGA	7925
5104	CAUGGAUUU CACCAUCC	3782	GGAUGGUG CUGAUGAGGNNNNNNNNCCGAA AAUCCAUG	7926
5105	AUGGAUUUC ACCAUCCC	3783	GGGAUGGU CUGAUGAGGNNNNNNNNCCGAA AAAUCCAU	7927
5111	UUCACCAUC CCAAGGCA	3784	UGCCUUGG CUGAUGAGGNNNNNNNNCCGAA AUGGUGAA	7928
5122	AAGGCAGUC UGAGAGGA	3785	UCCUCUCA CUGAUGAGGNNNNNNNNCCGAA ACUGCCUU	7929
5134	GAGGAGCUA AAGAGUAU	3786	AUACUCUU CUGAUGAGGNNNNNNNNCCGAA AGCUCCUC	7930
5141	UAAAGAGUA UCAGCCCA	3787	UGGGCUGA CUGAUGAGGNNNNNNNNCCGAA ACUCUUUA	7931
5143	AAGAGUAUC AGCCCAUA	3788	UAUGGGCU CUGAUGAGGNNNNNNNNCCGAA AUACUCUU	7932
5151	CAGCCCAUA UUUAUUAA	3789	UUAAUAAA CUGAUGAGGNNNNNNNNCCGAA AUGGGCUG	7933
5153	GCCCAUAUU UAUUAAGC	3790	GCUUAAUA CUGAUGAGGNNNNNNNNCCGAA AUAUGGGC	7934
5154	CCCAUAUUU AUUAAGCA	3791	UGCUUAAU CUGAUGAGGNNNNNNNNCCGAA AAUAUGGG	7935
5155	CCAUAUUUA UUAAGCAC	3792	GUGCUUAA CUGAUGAGGNNNNNNNNCCGAA AAAUAUGG	7936
5157	AUAUUUAUU AAGCACUU	3793	AAGUGCUU CUGAUGAGGNNNNNNNNCCGAA AUAAAUAU	7937
5158	UAUUUAUUA AGCACUUU	3794	AAAGUGCU CUGAUGAGGNNNNNNNNCCGAA AAUAAAUA	7938
5165	UAAGCACUU UAUGCUCC	3795	GGAGCAUA CUGAUGAGGNNNNNNNNCCGAA AGUGCUUA	7939
5166	AAGCACUUU AUGCUCCU	3796	AGGAGCAU CUGAUGAGGNNNNNNNNCCGAA AAGUGCUU	7940
5167	AGCACUUUA UGCUCCUU	3797	AAGGAGCA CUGAUGAGGNNNNNNNNCCGAA AAAGUGCU	7941
5172	UUUAUGCUC CUUGGCAC	3798	GUGCCAAG CUGAUGAGGNNNNNNNNCCGAA AGCAUAAA	7942
5175	AUGCUCCUU GGCACAGC	3799	GCUGUGCC CUGAUGAGGNNNNNNNNCCGAA AGGAGCAU	7943
5195	UGAUGUGUA AUUUAUGC	3800	GCAUAAAU CUGAUGAGGNNNNNNNNCCGAA ACACAUCA	7944
5198	UGUGUAAUU UAUGCAAG	3801	CUUGCAUA CUGAUGAGGNNNNNNNNCCGAA AUUACACA	7945
5199	GUGUAAUUU AUGCAAGC	3802	GCUUGCAU CUGAUGAGGNNNNNNNNCCGAA AAUUACAC	7946
5200	UGUAAUUUA UGCAAGCU	3803	AGCUUGCA CUGAUGAGGNNNNNNNNCCGAA AAAUUACA	7947
5209	UGCAAGCUC CCUCUCCA	3804	UGGAGAGG CUGAUGAGGNNNNNNNNCCGAA AGCUUGCA	7948
5213	AGCUCCCUC UCCAGCUA	3805	UAGCUGGA CUGAUGAGGNNNNNNNNCCGAA AGGGAGCU	7949
5215	CUCCCUCUC CAGCUAGG	3806	CCUAGCUG CUGAUGAGGNNNNNNNNCCGAA AGAGGGAG	7950
5221	CUCCAGCUA GGACUCAG	3807	CUGAGUCC CUGAUGAGGNNNNNNNNCCGAA AGCUGGAG	7951
5227	CUAGGACUC AGGAUAUU	3808	AAUAUCCU CUGAUGAGGNNNNNNNNCCGAA AGUCCUAG	7952
5233	CUCAGGAUA UUAGUCAA	3809	UUGACUAA CUGAUGAGGNNNNNNNNCCGAA AUCCUGAG	7953
5235	CAGGAUAUU AGUCAAUG	3810	CAUUGACU CUGAUGAGGNNNNNNNNCCGAA AUAUCCUG	7954
5236	AGGAUAUUA GUCAAUGA	3811	UCAUUGAC CUGAUGAGGNNNNNNNNCCGAA AAUAUCCU	7955
5239	AUAUUAGUC AAUGAGCC	3812	GGCUCAUU CUGAUGAGGNNNNNNNNCCGAA ACUAAUAU	5095
5250	UGAGCCAUC AAAAGGAA	3813	UUCCUUUU CUGAUGAGGNNNNNNNNCCGAA AUGGCUCA	7956
5273	AAAAACCUA UCUUAUUU	3814	AAAUAAGA CUGAUGAGGNNNNNNNNCCGAA AGGUUUUU	7957
5275	AAACCUAUC UUAUUUUC	3815	GAAAAUAA CUGAUGAGGNNNNNNNNCCGAA AUAGGUUU	7958
5277	ACCUAUCUU AUUUUCAU	3816	AUGAAAAU CUGAUGAGGNNNNNNNNCCGAA AGAUAGGU	7959
5278	CCUAUCUUA UUUUCAUC	3817	GAUGAAAA CUGAUGAGGNNNNNNNNCCGAA AAGAUAGG	7960
5280	UAUCUUAUU UUCAUCUG	3818	CAGAUGAA CUGAUGAGGNNNNNNNNCCGAA AUAAGAUA	7961
5281	AUCUUAUUU UCAUCUGU	3819	ACAGAUGA CUGAUGAGGNNNNNNNNCCGAA AAUAAGAU	7962
5282	UCUUAUUUU CAUCUGUU	3820	AACAGAUG CUGAUGAGGNNNNNNNNCCGAA AAAUAAGA	7963
5283	CUUAUUUUC AUCUGUUU	3821	AAACAGAU CUGAUGAGGNNNNNNNNCCGAA AAAAUAAG	7964
5286	AUUUUCAUC UGUUUCAU	3822	AUGAAACA CUGAUGAGGNNNNNNNNCCGAA AUGAAAAU	7965
5290	UCAUCUGUU UCAUACCU	3823	AGGUAUGA CUGAUGAGGNNNNNNNNCCGAA ACAGAUGA	7966
5291	CAUCUGUUU CAUACCUU	3824	AAGGUAUG CUGAUGAGGNNNNNNNNCCGAA AACAGAUG	7967
5292	AUCUGUUUC AUACCUUG	3825	CAAGGUAU CUGAUGAGGNNNNNNNNCCGAA AAACAGAU	7968
5295	UGUUUCAUA CCUUGUCU	3826	AGACAAGG CUGAUGAGGNNNNNNNNCCGAA AUGAAACA	7969
5299	UCAUACCUU GUCUGGGG	3827	CCCCAGAC CUGAUGAGGNNNNNNNNCCGAA AGGUAUGA	7970
5302	UACCUUGUC UGGGGUCU	3828	AGACCCCA CUGAUGAGGNNNNNNNNCCGAA ACAAGGUA	7971
5309	UCUGGGGUC UAAUGACG	3829	CGUCAUUA CUGAUGAGGNNNNNNNNCCGAA ACCCCAGA	7972
5311	UGGGGUCUA AUGACGAU	3830	AUCGUCAU CUGAUGAGGNNNNNNNNCCGAA AGACCCCA	7973
5331	AACAGGGUA GACAUGGG	3831	CCCAUGUC CUGAUGAGGNNNNNNNNCCGAA ACCCUGUU	7974
5350	GACAGGGUA GAAAAGGG	3832	CCCUUUUC CUGAUGAGGNNNNNNNNCCGAA ACCCUGUC	7975
5367	UGCCCGCUC UUUGGGGU	3833	ACCCCAAA CUGAUGAGGNNNNNNNNCCGAA AGCGGGCA	7976
5369	CCCGCUCUU UGGGGUCU	3834	AGACCCCA CUGAUGAGGNNNNNNNNCCGAA AGAGCGGG	7977
5370	CCGCUCUUU GGGGUCUA	3835	UAGACCCC CUGAUGAGGNNNNNNNNCCGAA AAGAGCGG	7978
5376	UUUGGGGUC UAGAGAUG	3836	CAUCUCUA CUGAUGAGGNNNNNNNNCCGAA ACCCCAAA	7979
5378	UGGGGUCUA GAGAUGAG	3837	CUCAUCUC CUGAUGAGGNNNNNNNNCCGAA AGACCCCA	7980
5395	CCCUGGGUC UCUAAAAU	3838	AUUUUAGA CUGAUGAGGNNNNNNNNCCGAA ACCCAGGG	7981
5397	CUGGGUCUC UAAAAUGG	3839	CCAUUUUA CUGAUGAGGNNNNNNNNCCGAA AGACCCAG	7982
5399	GGGUCUCUA AAAUGGCU	3840	AGCCAUUU CUGAUGAGGNNNNNNNNCCGAA AGAGACCC	7983
5408	AAAUGGCUC UCUUAGAA	3841	UUCUAAGA CUGAUGAGGNNNNNNNNCCGAA AGCCAUUU	7984
5410	AUGGCUCUC UUAGAAGU	3842	ACUUCUAA CUGAUGAGGNNNNNNNNCCGAA AGAGCCAU	7985
5412	GGCUCUCUU AGAAGUUG	3843	CAACUUCU CUGAUGAGGNNNNNNNNCCGAA AGAGAGCC	7986
5413	GCUCUCUUA GAAGUUGU	3844	ACAACUUC CUGAUGAGGNNNNNNNNCCGAA AAGAGAGC	7987
5419	UUAGAAGUU GUAUGUGC	3845	GCACAUAC CUGAUGAGGNNNNNNNNCCGAA ACUUCUAA	7988
5422	GAAGUUGUA UGUGCAAA	3846	UUUGCACA CUGAUGAGGNNNNNNNNCCGAA ACAACUUC	7989
5432	GUGCAAAUU AUGGUCUG	3847	CAGACCAU CUGAUGAGGNNNNNNNNCCGAA AUUUGCAC	7990
5433	UGCAAAUUA UGGUCUGU	3848	ACAGACCA CUGAUGAGGNNNNNNNNCCGAA AAUUUGCA	7991
5438	AUUAUGGUC UGUGUGCU	3849	AGCACACA CUGAUGAGGNNNNNNNNCCGAA ACCAUAAU	7992
5447	UGUGUGCUU AGGUGGUG	3850	CACGACCU CUGAUGAGGNNNNNNNNCCGAA AGGACACA	7993
5448	GUGUGCUUA GGUCGUGC	3851	GCACGACC CUGAUGAGGNNNNNNNNCCGAA AAGCACAC	7994
5452	GCUUAGGUC GUGCACAC	3852	GUGUGCAC CUGAUGAGGNNNNNNNNCCGAA ACCUAAGC	7995
5475	GAGCCGGUC ACAGCUGG	3853	CCAGCUGU CUGAUGAGGNNNNNNNNCCGAA ACCGGCUC	7996
5497	CGAUGAAUA GCUGCUUU	3854	AAAGCAGC CUGAUGAGGNNNNNNNNCCGAA AUUCAUCG	7997
5504	UAGCUGCUU UGGGAGAG	3855	CUCUCCCA CUGAUGAGGNNNNNNNNCCGAA AGCAGCUA	7998
5505	AGCUGCUUU GGGAGAGC	3856	GCUCUCCC CUGAUGAGGNNNNNNNNCCGAA AAGCAGCU	7999
5524	AGCAUGCUA GCCACUUA	3857	UAAGUGGC CUGAUGAGGNNNNNNNNCCGAA AGCAUGCU	8000
5531	UAGCCACUU AAUUCUCU	3858	AGAGAAUU CUGAUGAGGNNNNNNNNCCGAA AGUGGCUA	8001
5532	AGCCACUUA AUUCUCUG	3859	CAGAGAAU CUGAUGAGGNNNNNNNNCCGAA AAGUGGCU	8002
5535	CACUUAAUU CUCUGACC	3860	GGUCAGAG CUGAUGAGGNNNNNNNNCCGAA AUUAAGUG	8003
5536	ACUUAAUUC UCUGACCG	3861	CGGUCAGA CUGAUGAGGNNNNNNNNCCGAA AAUUAAGU	8004
5538	UUAAUUCUC UGACCGGG	3862	CCCGGUCA CUGAUGAGGNNNNNNNNCCGAA AGAAUUAA	8005
5554	GCCAGCAUC AUGGGUAC	3863	GUACCCAU CUGAUGAGGNNNNNNNNCCGAA AUGCUGGC	8006
5561	UCAUGGGUA CCUGCUCC	3864	GGAGCAGG CUGAUGAGGNNNNNNNNCCGAA ACCCAUGA	8007
5568	UACCUGCUC CCCUGUGU	3865	ACACAGGG CUGAUGAGGNNNNNNNNCCGAA AGCAGGUA	8008
5577	CCCUGUGUA CCCCAUCC	3866	GGAUGGGG CUGAUGAGGNNNNNNNNCCGAA ACACAGGG	8009
5584	UACCCCAUC CUUAAGGU	3867	ACCUUAAG CUGAUGAGGNNNNNNNNCCGAA AUGGGGUA	8010
5587	CCCAUCCUU AAGGUUUU	3868	AAAACCUU CUGAUGAGGNNNNNNNNCCGAA AGGAUGGG	8011
5588	CCAUCCUUA AGGUUUUC	3869	GAAAACCU CUGAUGAGGNNNNNNNNCCGAA AAGGAUGG	8012
5593	CUUAAGGUU UUCUGUCU	3870	AGACAGAA CUGAUGAGGNNNNNNNNCCGAA ACCUUAAG	8013
5594	UUAAGGUUU UCUGUCUG	3871	CAGACAGA CUGAUGAGGNNNNNNNNCCGAA AACCUUAA	8014
5595	UAAGGUUUU CUGUCUGA	3872	UCAGACAG CUGAUGAGGNNNNNNNNCCGAA AAACCUUA	8015
5596	AAGGUUUUC UGUCUGAU	3873	AUCAGACA CUGAUGAGGNNNNNNNNCCGAA AAAACCUU	8016
5600	UUUUCUGUC UGAUGAGA	3874	UCUCAUCA CUGAUGAGGNNNNNNNNCCGAA ACAGAAAA	8017
5627	AGUGCAAUC CCCACUGA	3875	UCAGUGGG CUGAUGAGGNNNNNNNNCCGAA AUUGCACU	8018
5660	CUGUGGCUC UUGGUGCA	3876	UGCACCAA CUGAUGAGGNNNNNNNNCCGAA AGCCACAG	8019
5662	GUGGCUCUU GGUGCACU	3877	AGUGCACC CUGAUGAGGNNNNNNNNCCGAA AGAGCCAC	8020
5671	GGUGCACUC ACCAGCCA	3878	UGGCUGGU CUGAUGAGGNNNNNNNNCCGAA AGUGCACC	8021
5685	CCAGGACUA GACAAGUA	3879	UACUUGUC CUGAUGAGGNNNNNNNNCCGAA AGUCCUGG	8022
5693	AGACAAGUA GGAAAGGG	3880	CCCUUUCC CUGAUGAGGNNNNNNNNCCGAA ACUUGUCU	8023
5704	AAAGGGCUU CUAGCCAC	3881	GUGGCUAG CUGAUGAGGNNNNNNNNCCGAA AGCCCUUU	8024
5705	AAGGGCUUC UAGCCACA	3882	UGUGGCUA CUGAUGAGGNNNNNNNNCCGAA AAGCCCUU	8025
5707	GGGCUUCUA GCCACACU	3883	AGUGUGGC CUGAUGAGGNNNNNNNNCCGAA AGAAGCCC	8026
5731	AAGAAAAUC AGGUAGGG	3884	CCCUACCU CUGAUGAGGNNNNNNNNCCGAA AUUUUCUU	8027
5736	AAUCAGGUA GGGCUGGC	3885	GCCAGCCC CUGAUGAGGNNNNNNNNCCGAA ACCUGAUU	8028
5754	AAAGACAUC UUUGUCCA	3886	UGGACAAA CUGAUGAGGNNNNNNNNCCGAA AUGUCUUU	8029
5756	AGACAUCUU UGUCCAUU	3887	AAUGGACA CUGAUGAGGNNNNNNNNCCGAA AGAUGUCU	8030
5757	GACAUCUUU GUCCAUUC	3888	GAAUGGAC CUGAUGAGGNNNNNNNNCCGAA AAGAUGUC	8031
5760	AUCUUUGUC CAUUCGCA	3889	UGCGAAUG CUGAUGAGGNNNNNNNNCCGAA ACAAAGAU	8032
5764	UUGUCCAUU CGCAAAAG	3890	CUUUUGCG CUGAUGAGGNNNNNNNNCCGAA AUGGACAA	8033
5765	UGUCCAUUC GCAAAAGC	3891	GCUUUUGC CUGAUGAGGNNNNNNNNCCGAA AAUGGACA	8034
5775	CAAAAGCUC UUGUCGGC	3892	GCCGACAA CUGAUGAGGNNNNNNNNCCGAA AGCUUUUG	8035
5777	AAAGCUCUU GUCGGCUG	3893	CAGCCGAC CUGAUGAGGNNNNNNNNCCGAA AGAGCUUU	8036
5780	GCUCUUGUC GGCUGCAG	3894	CUGCAGCC CUGAUGAGGNNNNNNNNCCGAA ACAAGAGC	8037
5794	CAGUGUGUA AGUCAGGC	3895	GCCUGACU CUGAUGAGGNNNNNNNNCCGAA ACACACUG	8038
5798	GUGUAAGUC AGGCGAUG	3896	CAUCGCCU CUGAUGAGGNNNNNNNNCCGAA ACUUACAC	8039
5818	CAGAGGCUA CCAGAGAA	3897	UUCUCUGG CUGAUGAGGNNNNNNNNCCGAA AGCCUCUG	8040
5852	CCUGAGGUU UCUCAUCC	3898	GGAUGAGA CUGAUGAGGNNNNNNNNCCGAA ACCUCAGG	8041
5853	CUGAGGUUU CUCAUCCA	3899	UGGAUGAG CUGAUGAGGNNNNNNNNCCGAA AACCUCAG	8042
5854	UGAGGUUUC UCAUCCAG	3900	CUGGAUGA CUGAUGAGGNNNNNNNNCCGAA AAACCUCA	8043
5856	AGGUUUCUC AUCCAGAU	3901	AUCUGGAU CUGAUGAGGNNNNNNNNCCGAA AGAAACCU	8044
5859	UUUCUCAUC CAGAUAUC	3902	GAUAUCUG CUGAUGAGGNNNNNNNNCCGAA AUGAGAAA	8045
5865	AUCCAGAUA UCCAGCAA	3903	UUGCUGGA CUGAUGAGGNNNNNNNNCCGAA AUCUGGAU	8046
5867	CCAGAUAUC CAGCAAUU	3904	AAUUGCUG CUGAUGAGGNNNNNNNNCCGAA AUAUCUGG	8047
5875	CCAGCAAUU GGGGGGUG	3905	CACCCCCC CUGAUGAGGNNNNNNNNCCGAA AUUGCUGG	8048
5896	AAGACCAUA GAUGGUCC	3906	GGACCAUC CUGAUGAGGNNNNNNNNCCGAA AUGGUCUU	8049
5903	UAGAUGGUC CUGUAUUA	3907	UAAUACAG CUGAUGAGGNNNNNNNNCCGAA ACCAUCUA	8050
5908	GGUCCUGUA UUAUUCCG	3908	CGGAAUAA CUGAUGAGGNNNNNNNNCCGAA ACAGGACC	8051
5910	UCCUGUAUU AUUCCGAU	3909	AUCGGAAU CUGAUGAGGNNNNNNNNCCGAA AUACAGGA	8052
5911	CCUGUAUUA UUCCGAUU	3910	AAUCGGAA CUGAUGAGGNNNNNNNNCCGAA AAUACAGG	8053
5913	UGUAUUAUU CCGAUUUU	3911	AAAAUCGG CUGAUGAGGNNNNNNNNCCGAA AUAAUACA	8054
5914	GUAUUAUUC CGAUUUUA	3912	UAAAAUCG CUGAUGAGGNNNNNNNNCCGAA AAUAAUAC	8055
5919	AUUCCGAUU UUAAUAAU	3913	AUUAUUAA CUGAUGAGGNNNNNNNNCCGAA AUCGGAAU	8056
5920	UUCCGAUUU UAAUAAUC	3914	GAUUAUUA CUGAUGAGGNNNNNNNNCCGAA AAUCGGAA	8057
5921	UCCGAUUUU AAUAAUCU	3915	AGAUUAUU CUGAUGAGGNNNNNNNNCCGAA AAAUCGGA	8058
5922	CCGAUUUUA AUAAUCUA	3916	UAGAUUAU CUGAUGAGGNNNNNNNNCCGAA AAAAUCGG	8059
5925	AUUUUAAUA AUCUAAUU	3917	AAUUAGAU CUGAUGAGGNNNNNNNNCCGAA AUUAAAAU	8060
5928	UUAAUAAUC UAAUUCGU	3918	ACGAAUUA CUGAUGAGGNNNNNNNNCCGAA AUUAUUAA	8061
5930	AAUAAUCUA AUUCGUGA	3919	UCACGAAU CUGAUGAGGNNNNNNNNCCGAA AGAUUAUU	8062
5933	AAUCUAAUU CGUGAUCA	3920	UGAUCACG CUGAUGAGGNNNNNNNNCCGAA AUUAGAUU	8063
5934	AUCUAAUUC GUGAUCAU	3921	AUGAUCAC CUGAUGAGGNNNNNNNNCCGAA AAUUAGAU	8064
5940	UUCGUGAUC AUUAAGAG	3922	CUCUUAAU CUGAUGAGGNNNNNNNNCCGAA AUCACGAA	8065
5943	GUGAUCAUU AAGAGACU	3923	AGUCUCUU CUGAUGAGGNNNNNNNNCCGAA AUGAUCAC	8066
5944	UGAUCAUUA AGAGACUU	3924	AAGUCUCU CUGAUGAGGNNNNNNNNCCGAA AAUGAUCA	8067
5952	AAGAGACUU UAGUAAAU	3925	AUUUACUA CUGAUGAGGNNNNNNNNCCGAA AGUCUCUU	8068
5953	AGAGACUUU AGUAAAUG	3926	CAUUUACU CUGAUGAGGNNNNNNNNCCGAA AAGUCUCU	8069
5954	GAGACUUUA GUAAAUGU	3927	ACAUUUAC CUGAUGAGGNNNNNNNNCCGAA AAAGUCUC	8070
5957	ACUUUAGUA AAUGUCCC	3928	GGGACAUU CUGAUGAGGNNNNNNNNCCGAA ACUAAAGU	8071
5963	GUAAAUGUC CCUUUUCC	3929	GGAAAAGG CUGAUGAGGNNNNNNNNCCGAA ACAUUUAC	8072
5967	AUGUCCCUU UUCCCACA	3930	UGUGGGAA CUGAUGAGGNNNNNNNNCCGAA AGGGACAU	8073
5968	UGUCCCUUU UCCCACAA	3931	UUGUGGGA CUGAUGAGGNNNNNNNNCCGAA AAGGGACA	8074
5969	GUCCCUUUU CCCACAAA	3932	UUUGUGGG CUGAUGAGGNNNNNNNNCCGAA AAAGGGAC	8075
5970	UCCCUUUUC CCACAAAA	3933	UUUUGUGG CUGAUGAGGNNNNNNNNCCGAA AAAAGGGA	8076
5981	ACAAAAGUA AAGAAAAG	3934	CUUUUCUU CUGAUGAGGNNNNNNNNCCGAA ACUUUUGU	8077
5992	GAAAAGCUA UCGGGAUU	3935	AAUCCCGA CUGAUGAGGNNNNNNNNCCGAA AGCUUUUC	8078
5994	AAAGCUAUC GGGAUUCU	3936	AGAAUCCC CUGAUGAGGNNNNNNNNCCGAA AUAGCUUU	8079
6000	AUCGGGAUU CUCUGGUU	3937	AACCAGAG CUGAUGAGGNNNNNNNNCCGAA AUCCCGAU	8080
6001	UCGGGAUUC UCUGGUUC	3938	GAACCAGA CUGAUGAGGNNNNNNNNCCGAA AAUCCCGA	8081
6003	GGGAUUCUC UGGUUCUG	3939	CAGAACCA CUGAUGAGGNNNNNNNNCCGAA AGAAUCCC	8082
6008	UCUCUGGUU CUGCUUAA	3940	UUAAGCAG CUGAUGAGGNNNNNNNNCCGAA ACCAGAGA	8083
6009	CUCUGGUUC UGCUUAAA	3941	UUUAAGCA CUGAUGAGGNNNNNNNNCCGAA AACCAGAG	8084
6014	GUUCUGCUU AAAGACUU	3942	AAGUCUUU CUGAUGAGGNNNNNNNNCCGAA AGCAGAAC	8085
6015	UUCUGCUUA AAGACUUA	3943	UAAGUCUU CUGAUGAGGNNNNNNNNCCGAA AAGCAGAA	8086
6022	UAAAGACUU AGCUUUGG	3944	CCAAAGCU CUGAUGAGGNNNNNNNNCCGAA AGUCUUUA	8087
6023	AAAGACUUA GCUUUGGA	3945	UCCAAAGC CUGAUGAGGNNNNNNNNCCGAA AAGUCUUU	8088
6027	ACUUAGCUU UGGAGCCU	3946	AGGCUCCA CUGAUGAGGNNNNNNNNCCGAA AGCUAAGU	8089
6028	CUUAGCUUU GGAGCCUA	3947	UAGGCUCC CUGAUGAGGNNNNNNNNCCGAA AAGCUAAG	8090
6036	UGGAGCCUA UGAAAGUU	3948	AACUUUCA CUGAUGAGGNNNNNNNNCCGAA AGGCUCCA	8091
6044	AUGAAAGUU GAUCAGCC	3949	GGCUGAUC CUGAUGAGGNNNNNNNNCCGAA ACUUUCAU	8092
The length of stem II may be ≧2 base-pairs. Underlined region can be any N sequence or linker, as described herein.

TABLE IX
Mouse flt1 VEGF Receptor-Hairpin Ribozyme and Substrate Sequence
		Seq		Seq
		ID		ID
Pos	Substrate	No	HP Ribozyme	No
33	AUGGUCA GCU GCUGGGAC	3950	GUCCCAGC AGAA GACCAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8093
36	GUCAGCU GCU GGGACACC	3952	GGUGUCCC AGAA GCUGAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8094
50	CACCGCG GUC UUGCCUUA	3952	UAAGGCAA AGAA GCGGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8095
67	ACGCGCU GCU CGGGUGUC	3953	GACACCCG AGAA GCGCGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8096
79	GGUGUCU GCU UCUCACAG	3954	CUGUGAGA AGAA GACACC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8097
166	CAGGCCA GAC UCUCUUUC	3955	GAAAGAGA AGAA GGCCUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8098
197	GGAGGCA GCC CACUCAUG	3956	CAUGAGUG AGAA GCCUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8099
214	GGUCUCU GCC CACGACCG	3957	CGGUCGUG AGAA GAGACC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8100
266	CCCAUCG GCC UGUGGGAG	3958	CUCCCACA AGAA GAUGGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8101
487	GAAGACA GCU CAUCAUCC	3959	GGAUGAUG AGAA GUCUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8102
501	AUCCCCU GCC GGGUGACG	3960	CGUCACCC AGAA GGGGAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8103
566	UACCCCU GAU GGGCAAAG	3961	CUUUGCCC AGAA GGGGUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8104
640	UAGGACU GCU GAACUGCG	3962	CGCAGUUC AGAA GUCCUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8105
691	ACUAUCU GAC CCAUCGGC	3963	GCCGAUGG AGAA GAUAGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8106
703	AUCGGCA GAC CAAUACAA	3964	UUGUAUUG AGAA GCCGAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8107
736	UACGCCC GCC GAGCCCAG	3965	CUGGGCUC AGAA GGCGUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8108
754	UGAGACU GCU CCACGGGC	3966	GCCCGUGG AGAA GUCUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8109
766	ACGGGCA GAC UCUUGUCC	3967	GGACAAGA AGAA GCCCGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8110
871	GGCAGCG GAU UGACCGGA	3968	UCCGGUCA AGAA GCUGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8111
960	UACACCU GUC GCGUGAAG	3969	CUUCACGC AGAA GGUGUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8112
988	CGUUCCA GUC UUUCAACA	3970	UGUUGAAA AGAA GGAACG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8113
1051	GGAAGCA GCC GGUGCAGG	3971	CCUGCACC AGAA GCUUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8114
1081	GAAGACG GUC CUAUCGGC	3972	GCCGAUAG AGAA GUCUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8115
1090	CCUAUCG GCU GUCCAUGA	3973	UCAUGGAC AGAA GAUAGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8116
1093	AUCGGCU GUC CAUGAAAG	3974	CUUUCAUG AGAA GCCGAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8117
1169	GAAGUCU GCU CGCUAUUU	3975	AAAUAGCG AGAA GACUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8118
1315	AACCUCA GAU CUACGAAA	3976	UUUCGUAG AGAA GAGGUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8119
1363	UCUAUCC GCU GGGCAGCA	3977	UGCUGCCC AGAA GAUAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8120
1604	GGUGGCU GAC UCUCAGAC	3978	GUCUGAGA AGAA GCCACC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8121
1612	ACUCUCA GAC CCCUGGAA	3979	UUCCAGGG AGAA GAGAGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8122
1629	AUCUACA GCU GCCGGGCC	3980	GGCCCGGC AGAA GUAGAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8123
1632	UACAGCU GCC GGGCCUUC	3981	GAAGGCCC AGAA GCUGUA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8124
1688	UGUCACA GAU GUGCCGAA	3982	UUCGGCAC AGAA GUGACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8125
1730	GAUGCCA GCC GAAGGAGA	3983	UCUCCUUC AGAA GGCAUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8126
1753	UGAAACU GUC CUGUGUGG	3984	CCACACAG AGAA GUUUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8127
2017	CACACCU GCU UCAAAACC	3985	GGUUUUGA AGAA GGUGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8128
2101	CGCCUCA GAU CACUUGGU	3986	ACCAAGUG AGAA GAGGCG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8129
2176	GCACGCU GUU UAUUGAAA	1441	UUUCAAUA AGAA GCGUGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5597
2258	AAGCGCA GCC UACCUCAC	3987	GUGAGGUA AGAA GCGCUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8130
2305	UGGAGCU GAU CACGCUCA	3988	UGAGCGUG AGAA GCUCCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8131
2383	UGAAGCG GUC UUCUUCCG	3989	CGGAAGAA AGAA GCUUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8132
2405	AAAGACA GAC UACCUGUC	3990	GACAGGUA AGAA GUCUUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8133
2432	GGACCCA GAU GAAGUUCC	1445	GGAACUUC AGAA GGGUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5601
2464	GUGAACG GCU GCCCUAUG	3991	CAUAGGGC AGAA GUUCAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8134
2467	AACGGCU GCC CUAUGAUG	3992	CAUCAUAG AGAA GCCGUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8135
2592	CCCACCU GCC GGACUGUG	3993	CACAGUCC AGAA GGUGGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8136
2596	CCUGCCG GAC UGUGGCUG	3994	CAGCCACA AGAA GGCAGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8137
2653	AAGCUCU GAU GACCGAAC	3995	GUUCGGUC AGAA GAGCUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8138
2743	GGCCUCU GAU GGUGAUCG	3996	CGAUCACC AGAA GAGGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8139
2779	GAAACCU GUC CAACUACC	3997	GGUAGUUG AGAA GGUUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8140
2814	UUAUUCU GUC UCAACAAG	3998	CUUGUUGA AGAA GAAUAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8141
2831	GGACGCA GCC UUGCAUAU	3999	AUAUGCAA AGAA GCGUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8142
2895	AAGCCCC GCC UAGACAGU	4000	ACUGUCUA AGAA GGGCUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8143
2913	GUCAGCA GCU CAAGUGUC	4001	GACACUUG AGAA GCUGAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8144
2928	GUCACCA GCU CCAGCUUC	4002	GAAGCUGG AGAA GGUGAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8145
2934	AGCUCCA GCU UCCCUGAA	4003	UUCAGGGA AGAA GGAGCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8146
3001	CCAAGCA GCC CCUCACCA	4004	UGGUGAGG AGAA GCUUGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8147
3022	AAGACCU GAU UUCCUACA	4005	UGUAGGAA AGAA GGUCUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8148
3033	UCCUACA GUU UCCAAGUG	4006	CACUUGGA AGAA GUAGGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8149
3064	AGUUUCU GUC CUCCAGAA	4007	UUCUGGAG AGAA GAAACU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8150
3179	GAACCCU GAU UAUGUGAG	4008	CUCACAUA AGAA GGGUUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	5613
3357	UUCUGCA GCC GCCUGAAG	4009	CUUCAGGC AGAA GCAGAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8151
3360	UGCAGCC GCC UGAAGGAA	4010	UUCCUUCA AGAA GCUGCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8152
3379	GCAUGCG GAU GAGAACCC	4011	GGGUUCUC AGAA GCAUGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8153
3463	GGCCCCG GUU UGCUGAAC	4012	GUUCAGCA AGAA GGGGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8154
3496	GUGACCU GCU UCAAGCCA	4013	UGGCUUGA AGAA GGUCAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8155
3553	CCAUACU GAC UAGAAACA	4014	UGUUUCUA AGAA GUAUGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8156
3615	AAGGACG GCU UUGCAGAU	4015	AUCUGCAA AGAA GUCCUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8157
3623	CUUUGCA GAU CCACAUUU	4016	AAAUGUGG AGAA GCAAAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8158
3650	AAGCUCU GAU GAUGUGAG	4017	CUCACAUC AGAA GAGCUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8159
3754	ACUAUCA GCU GGACACUA	4018	UAGUGUCC AGAA GAUAGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8160
3772	GCACUCU GCU GGGCUCCC	4019	GGGAGCCC AGAA GAGUGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8161
3796	UGAAGCG GUU CACCUGGA	4020	UCCAGGUG AGAA GCUUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8162
3881	ACUUUCC GAU CUGCCGAG	4021	CUCGGCAG AGAA GAAAGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8163
3886	CCGAUCU GCC GAGGCCCA	4022	UGGGCCUC AGAA GAUCGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8164
3897	AGGCCCA GCU UCUGCUUC	4023	GAAGCAGA AGAA GGGCCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8165
3903	AGCUUCU GCU UCUCCAGC	4024	GCUGGAGA AGAA GAAGCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8166
3912	UUCUCCA GCU GUGGCCAC	4025	GUGGCCAC AGAA GGAGAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8167
3969	GAGUCCU GCU GUUCUCCA	4026	UGGAGAAC AGAA GGACUC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8168
3972	UCCUGCU GUU CUCCACCC	4027	GGGUGGAG AGAA GCAGGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8169
3986	ACCCCCA GAC UACAACUC	4028	GAGUUGUA AGAA GGGGGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8170
4018	CCUCCCC GCC CGCCUAAA	4029	UUUAGGCG AGAA GGGAGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8171
4022	CCCGCCC GCC UAAAGCUU	4030	AAGCUUUA AGAA GGCGGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8172
4040	CUCACCA GCC CCGACAAC	4031	GUUGUCGG AGAA GGUGAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8173
4053	ACAACCA GCC CCUGACAG	4032	CUGUCAGG AGAA GGUUGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8174
4095	CUAUUCC GCU CCACAGGA	4033	UCCUGUGG AGAA GAAUAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8175
4110	GGAGCCA GCU GCUUUUCG	4034	CGAAAAGC AGAA GGCUCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8176
4113	GCCAGCU GCU UUUCGUGA	4035	UCACGAAA AGAA GCUGGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8177
4168	UGUUGCU GUU UUGACUAA	4036	UUAGUCAA AGAA GCAACA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8178
4290	GGCGACC GCC CGCCCACC	4037	GGUGGGCG AGAA GUCGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8179
4294	ACCGCCC GCC CACCGGCC	4038	GGCCGGUG AGAA GGCGGU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8180
4329	CCCUGCA GCU GUGGGACU	4039	AGUCCCAC AGAA GCAGGG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8181
4378	AUGCACU GAC CUGCUCUG	4040	CAGAGCAG AGAA GUGCAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8182
4383	CUGACCU GCU CUGUCUCU	4041	AGAGACAG AGAA GGUCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8183
4388	CUGCUCU GUC UCUCUUAU	4042	AUAAGAGA AGAA GAGCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8184
4457	UGCGUCC GUC CUGUGGAG	4043	CUCCACAG AGAA GACGCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8185
4525	GGCCUCC GCU GUUUCGGG	4044	CCCGAAAC AGAA GAGGCC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8186
4528	CUCCGCU GUU UCGGGCCC	4045	GGGCCCGA AGAA GCGGAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8187
4643	GUCUUCU GUU GUCUGUUU	4046	AAACAGAC AGAA GAAGAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8188
4650	GUUGUCU GUU UACCAUCC	4047	GGAUGGUA AGAA GACAAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8189
4724	AUCAUCA GUU CCUCUAGU	4048	ACUAGAGG AGAA GAUGAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8190
4771	CAGGCCU GAC CUUCGCAU	4049	AUGCGAAG AGAA GGCCUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8191
4785	GCAUACU GCU CACGGGGA	4050	UCCCCGUG AGAA GUAUGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8192
4809	UGGUCCA GUU UGGCCUAG	4051	CUAGGCCA AGAA GGACCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8193
4834	GCCUACU GAU GGGCUCAA	4052	UUGAGCCC AGAA GUAGGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8194
4912	UUAUCCU GUU UUAUAUAU	4053	AUAUAUAA AGAA GGAUAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8195
5119	CAAGGCA GUC UGAGAGGA	4054	UCCUCUCA AGAA GCCUUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8196
5144	AGUAUCA GCC CAUAUUUA	4055	UAAAUAUG AGAA GAUACU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8197
5287	UUCAUCU GUU UCAUACCU	4056	AGGUAUGA AGAA GAUGAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8198
5363	GGUGCCC GCU CUUUGGGG	4057	CCCCAAAG AGAA GGCACC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8199
5462	CACACCU GCC GGAGCCGG	4058	CCGGCUCC AGAA GGUGUG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8200
5478	GGUCACA GCU GGGCAGAC	4059	GUCUGCCC AGAA GUGACC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8201
5486	CUGGGCA GAC GAUGAAUA	4060	UAUUCAUC AGAA GCCCAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8202
5500	AAUAGCU GCU UUGGGAGA	4061	UCUCCCAA AGAA GCUAUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8203
5539	AUUCUCU GAC CGGGCCAG	4062	CUGGCCCG AGAA GAGAAU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8204
5564	GGUACCU GCU CCCCUGUG	4063	CACAGGGG AGAA GGUACC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8205
5597	GUUUUCU GUC UGAUGAGA	4064	UCUCAUCA AGAA GAAAAC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8206
5601	UCUGUCU GAU GAGACUGG	4065	CCAGUCUC AGAA GACAGA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8207
5639	UGAGACA GCC UGCAGCCC	4066	GGGCUGCA AGAA GUCUCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8208
5646	GCCUGCA GCC CACUGUGG	4067	CCACAGUG AGAA GCAGGC ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8209
5781	CUUGUCG GCU GCAGUGUG	4068	CACACUGC AGAA GACAAG ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8210
5829	AGAAACG GAU GAGAACAG	4069	CUGUUCUC AGAA GUUUCU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8211
5842	AACAGCA GCC UGAGGUUU	4070	AAACCUCA AGAA GCUGUU ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8212
5915	UUAUUCC GAU UUUAAUAA	4071	UUAUUAAA AGAA GAAUAA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8213
6010	UGGUUCU GCU UAAAGACU	4072	AGUCUUUA AGAA GAACCA ACCAGAGAAACACACGUUGUGGUACAUUACCUGGUA	8214

TABLE X
Homologous Hammerhead Ribozyme Target Sites Between
Human flt-1 and KDR RNA
nt.	flt-1	Seq	nt.	KDR	Seq
Position	Target Sequence	ID No	Position	Target Sequence	ID No
3388	CCGGGAU A UUUAUAA	4073	3151	CCGGGAU A UUUAUAA	4073
2174	AAUGUAU A CACAGGG	4074	3069	AgUGUAU c CACAGGG	4116
2990	UGCAAAU A UGGAAAU	4075	2756	UGCAAAU u UGGAAAc	4117
2693	CUCCCUU A UGAUGCC	4076	2459	CUgCCUU A UGAUGCC	4118
2981	GUUGAAU A CUGCAAA	4077	2747	GUgGAAU u CUGCAAA	4119
1359	UAUGGUU A AAAGAUG	4078	2097	UgUGGUU u AAAGAUa	4120
3390	GGGAUAU U UAUAAGA	4079	3153	GGGAUAU U UAUAAag	4121
3391	GGAUAUU U AUAAGAA	4080	3154	GGAUAUU U AUAAagA	4122
2925	ACGUGGU U AACCUGC	4081	2691	AuGUGGU c AACCUuC	4123
7140	UAUUUCU A GUCAUGA	4082	2340	UAcUUCU u GUCAUcA	4124
1785	CAAUAAU A GAAGGAA	4083	1515	CucUAAU u GAAGGAA	4125
2731	GAGACUU A AACUGGG	4084	768	uuGACUU c AACUGGG	4126
3974	GAUGACU A CCAGGGC	4085	1466	GAgGACU u CCAGGGa	4127
6590	UUAAUGU A GAAAGAA	4086	2603	aaAAUGU u GAAAGAA	4128
6705	GCCAUUU A UGACAAA	4087	3227	aCaAUUU u UGACAgA	4129
974	GUCAAAU U ACUUAGA	4088	147	uUCAAAU U ACUUgcA	4130
1872	AUAAAGU U GGGACUG	4089	1602	AcAAAGU c GGGAgaG	4131
2333	ACUUGGU U UAAAAAC	4090	1088	AaaUGGU a UAAAAAu	4132
2775	AAGUGGU U CAAGCAU	4091	1745	AcaUGGU a CAAGCuU	4133
3533	UUCUCCU U AGGUGGG	4092	3296	UUuUCCU U AGGUGcu	4134
3534	UCUCCUU A GGUGGGU	4093	3297	UuUCCUU A GGUGcuU	4135
3625	GUACUCU A CUCCUGA	4094	4054	GagCUCU c CUCCUGu	4136
1814	AGCACCU U GGUUGUG	4095	1059	AGuACCU U GGUUacc	4137
2744	GGCAAAU C ACUUGGA	4096	147	uuCAAAU u ACUUGcA	4130
2783	CAAGCAU C AGCAUUU	4097	796	gAAGCAU C AGCAUaa	4138
3613	GAGAGCU C CUGAGUA	4098	2968	GgaAGCU C CUGAagA	4139
4052	AAGGCCU C GCUCAAG	4099	1923	ucuGCCU u GCUCAAG	4140
5305	UCUCCAU A UCAAAAC	4100	456	ggUCCAU u UCAAAuC	4141
7158	AUGUAUU U UGUAUAC	4101	631	gUcUAUU a UGUAcAu	4142
1836	CUAGAAU U UCUGGAA	4102	1007	aUgGAAU c UCUGGug	4143
2565	CUCUCUU C UGGCUCC	4103	2328	uguUCUU C UGGCUaC	4144
4250	CUGUACU C CACCCCA	4104	3388	uUaUACU a CACCagA	4145
7124	ACAUGGU U UGGUCCU	4105	3778	cagUGGU a UGGUuCU	4146
436	AUGGUCU U UGCCUGA	4106	1337	AcGGUCU a UGCCauu	4147
2234	GCACCAU A CCUCCUG	4107	1344	augCCAU u CCUCCcc	4148
2763	GGGCUUU U GGAAAAG	4108	990	uuGCUUU U GGAAguG	4149
4229	CCAGACU A CAACUCG	4109	767	auuGACU u CAACUgG	4150
5301	GUUUUCU C CAUAUCA	4110	3307	ugcUUCU C CAUAUCc	4151
6015	AGAAUGU A UGCCUCU	4111	1917	AcuAUGU c UGCCUug	4152
6095	AUUCCCU A GUGAGCC	4112	1438	AUaCCCU u GUGAaga	4153
6236	UGUUGUU C CUCUUCU	4113	76	UagUGUU u CUCUUga	4154
5962	GCUUCCU U UUAUCCA	4114	3099	auaUCCU c UUAUCgg	4155
7629	UAUAUAU U CUCUGCU	4115	3096	gAaAUAU c CUCUuaU	4156
Lowercase letters are used to represent sequence variance between fit-1 and KDR RNA

Claims

1. An RNA molecule which specifically targets the cleavage of RNA encoding human fit-1 protein, wherein said RNA molecule is of length between about 14 and about 24 nucleotides and comprises sequence complementary to said fit-1 RNA or a portion thereof.

2. The RNA molecule of claim 1, wherein said RNA molecule comprises sequence complementary to any substrate sequence found in Tables II, III, VIII or IX.

3. The RNA molecule of claim 1, wherein said RNA molecule is single stranded.

4. The RNA molecule of claim 1, wherein said RNA molecule comprises one or more chemically modified nucleotides.

5. The RNA molecule of claim 1, wherein said RNA molecule comprises one or more nucleic acid backbone modifications.

6. The RNA molecule of claim 1, wherein said RNA molecule comprises one or more nucleic acid sugar modifications.

7. The RNA molecule of claim 1, wherein said RNA molecule comprises one or more nucleic acid base modifications.

8. The RNA molecule of claim 1, wherein said RNA molecule is chemically synthesized.

9. A composition comprising the RNA molecule of claim 1 and a pharmaceutically acceptable carrier or diluent.

10. The RNA molecule of claim 6, wherein said nucleic acid sugar modification is 2′-O-methyl.

11. The RNA molecule of claim 6, wherein said nucleic acid sugar modification is 2′-fluoro.

12. The RNA molecule of claim 6, wherein said nucleic acid sugar modification is 2′-H.