Abstract: The invention provides for compounds comprising nucleotide sequences 5′-P-N1-N2-G-N3-C-I-3′ and 3′-Q-N4-N5-N6-N7-N8-N9-Y-J-5′ that are the generic sequences of a mIRES of an HCV genome, and variants thereof The invention also provides assays that utilise the compounds of the invention, including assays for detection of HCV antiviral compounds.

Abstract: A fluorescent cyanine dye of the following general formula is disclosed: wherein: X1 and X2 are independently selected from the group consisting of —O—, —S—, —C(CH3)2 or —C═CH2; Y1 and Y2 are nonmetal atoms required to form a benzo-condensed or naphtho-condensed ring; Q is a conjugated moiety that increases the fluorescent quantum yield and the stability of the compound; R1 and R2 are independently selected from the group consisting of H, C1-C4, alkyl, alkylensulfonic group or alkylensulfonate group wherein the alkylene group has from 1 to 4 carbon atoms; R3, R4 and R5 are independently selected from the group consisting of H, a sulfonic group, a sulfonate group, alkylensulfonic, alkylensulfonate and —SO2NH(CH2)m—W—(CH2)nZ, wherein alkylene has 1 to 4 carbon atoms, with the proviso that at least one of R1 to R5 contains a sulfonic or sulfonate group; W is absent or is a group selected from —SO2NH, —O—, —COO

Abstract: A method for detecting point mutations in DNA using a fluorescently labeled oligomeric probe and Forster resonance energy transfer (FRET) is disclosed. The selected probe is initially labeled at each end with a fluorescence dye, which act together as a donor/acceptor pair for FRET. The fluorescence emission from the dyes changes dramatically from the duplex stage, wherein the probe is hybridized to the complementary strand of DNA, to the single strand stage, when the probe is melted to become detached from the DNA. The change in fluorescence is caused by the dyes coming into closer proximity after melting occurs and the probe becomes detached from the DNA strand. The change in fluorescence emission as a function of temperature is used to calculate the melting temperature of the complex or Tm. In the case where there is a base mismatch between the probe and the DNA strand, indicating a point mutation, the Tm has been found to be significantly lower than the Tm for a perfectly match probe/stand duplex.

Abstract: A process for the electrophoretic analysis of DNA fragments produced in DNA sequencing operations wherein chromophores or fluorophores are used to tag the DNA fragments produced by the sequencing chemistry and permit the detection and characterization of the fragments as they are resolved by electrophoresis through a gel. Preferably four different fragment sets are tagged with the fluorophores fluorescein, Texas Red, tetramethyl rhodamine, and 7-nitro-benzofurazan.

Abstract: This invention pertains to methods, kits and compositions suitable for the detection, identification and/or quantitation of nucleic acids which are electrostatically immobilized to matrices using non-nucleotide probes which sequence specifically hybridize to one or more target sequences of the nucleic acid but do not otherwise substantially interact with the matrix. Once the nucleic acid is immobilized, the detectable non-nucleotide probe/target sequence complex, formed before or after the immobilization of the nucleic acid, can be detected, identified or quantitated under a wide range of assay conditions as a means to detect, identify or quantitate the target sequence in the sample. Because it is reversibly bound, the non-nucleotide probe/target sequence can optionally be removed from the matrix for detecting, identifying or quantitating the target sequence in the sample.

Abstract: A method for detecting disease-associated alleles in patient genetic material is provided whereby a first group of oligonucleotide molecules, synthesized to compliment base sequences of the disease associated alleles is immobilized on a predetermined position on a substrate, and then contacted with patient genetic material to form duplexes. The duplexes are then contacted with a second group of oligonucleotide molecules which are synthesized to extend the predetermined length of the oligonucleotide molecules of the first group, and where each of the oligonucleotide molecules of the second group are tagged and either incorporate universal bases or a mixture of guanine, cytosine, thymine, and adenine, or complementary nucleotide strands that are tagged with a different fluorochrome which radiates light at a predetermined wavelength.

Abstract: Novel anticancer agents of the phenanthridine class having a specific mechanism of action and cancer therapy methods are described, including the novel chemical compounds and their therapeutic use thereof in humans.

Abstract: Minor groove binding molecules are covalently bound to oligonucleotides which in their base sequence are complementary to a target sequence of single stranded or double stranded DNA, RNA or hybrids thereof. The covalently bound oligonucleotide minor groove binder conjugates strogly bind to the target sequence of the complementary strand.

Abstract: The present invention provides an improved method for stably attaching a desired compound to a silaceous or silane-containing substrate, in particular a glass, porous silica, or oxidized silicon. This method in certain embodiments provides improvements over conventional methods for attaching desired compounds to silaceous or silane-containing substrate, e.g., glass, porous silica, or oxidized silicon materials, e.g. obviating the need for derivatization (e.g., epoxysilane derivatization) prior to attachment. More particularly, the present invention provides a method for stably attaching a desired compound comprising at least one amine and hydroxyl group (e.g., an aminopropanol containing compound), to a silaceous or silane-containing substrate, preferably underivatized (plain) glass, a porous silica, or oxidized silicon substance. The subject method is especially useful for the attachment of nucleic acid sequences, e.g.

Abstract: The invention employs an unlabeled signal primer comprising a 5′ adapter sequence for detection of nucleic acid target sequences. The detection system further comprises a reporter probe, the 3′ end of which hybridizes to the complement of the 5′ adapter sequence of the signal primer to produce a 5′ overhang. Polymerase is used to fill in the overhang and synthesize the complement of the 5′ overhang of the reporter probe. Synthesis of the reporter probe complement is detected, either directly or indirectly, as an indication of the presence of the target.

Abstract: Microscopic beads or other structures are attached to nucleic acids (DNA) using a terminal transferase. The transferase adds labeled dideoxy nucleotide bases to the ends of linear strands of DNA. The labels, such as the antigens digoxigenin and biotin, bind to the antibody compounds or other appropriate complementary ligands, which are bound to the microscopic beads or other support structures. The method does not require the synthesis of a synthetic oligonucleotide probe. The method can be used to tag or label DNA even when the DNA has an unknown sequence, has blunt ends, or is a very large fragment (e.g., >500 kilobase pairs).

Abstract: Triplex complexes contain a single-stranded probe bound to a double-stranded nucleic acid target, in which the probe includes a heteropolymeric nucleic acid or a heteropolymeric nucleic acid analog. All base triplets of the complex are members selected from the group consisting of A-T-A, T-A-T, U-A-T, T-A-U, A-U-A, U-A-U, G-C-G and C-G-C. A cation-facilitated assay includes detecting the presence of such triplex complexes to determine the degree of complementarity between the probe and target sequence. The assay preferably detects a change in fluorescent intensity of a label as a function of binding affinity between the probe and target. The label can be covalently tethered to the probe or to the target, or can be an intercalating fluorophore in the reaction medium.

Abstract: The present invention relates, in general, to a screening method for identifying novel viral proteins with interferon antagonizing function using a transfection-based assay, and the use of such proteins in isolating various types of attenuated viruses for the development of vaccine and pharmaceutical formulations. The invention also relates to the use of viral interferon antagonists in screening assays to identify potential anti-viral agents. The invention further relates to protocols utilizing interferon antagonists, e.g., NS1, to enhance gene therapy or DNA vaccination based on their ability to increase gene expression.

Abstract: This invention is related to novel probes, probe sets, methods and kits pertaining to the detection of bacteria of the Salmonella genus. The probes, probe sets, methods and kits of this invention are particularly useful for the detection, identification and/or enumeration of bacteria of the Salmonella genus. It is an advantage of the identified probes that they do not substantially cross react with bacteria of the closely related Citrobacter genus. Preferably, the probes of this invention are prepared as PNA probes and most preferably the probing nucleobase sequence comprises a segment that is at least ninety percent homologous to the nucleobase sequence; GTG-TTA-AAG-TGA-ACC (Seq. Id. No. 1), AGC-CTT-GAT-TTT-CCG (Seq. Id. No. 2) or ACC-TAC-GTG-TCA-GCG (Seq. Id. No. 3).

Abstract: The purification and isolation of various genes which encode mammalian cell surface polypeptides. Nucleic acids, proteins, antibodies, and other reagents useful in modulating development of cells, e.g., lymphoid and myeloid, are provided, along with methods for their use.

Abstract: A photoactivatable nucleic acid derivative composition in which one or more photoreactive group(s) are bound to a natural or synthetic nucleic acid. The photoreactive groups can be bound to the nucleic acid before, during or after its formation, and can thereafter be activated in order to attach the nucleic acid to another molecule, e.g., to the surface of a solid support. Also described is a method of preparing such a composition, and a method of using such a composition to attach the nucleic acid to a another molecule, such as that provided by the surface of a substrate used to prepare a nucleic acid chip by photolithographic techniques.

Abstract: This invention provides methods for removing unincorporated fluorescent dye-labeled molecules from a mixture that includes fluorescently-labeled polynucleotides and the unincorporated fluorescent dye-labeled molecules. The methods involve adsorbing the unincorporated fluorescent dye-labeled molecules into a plurality of particles that are made up of one or more porous hydrophobic materials that are encapsulated in a hydrophilic matrix.

Abstract: Compounds having structure (1) wherein R1 is —H a protecting group, a linker or a binding partner; and R2 and R34 are as defined in the specification. The invention also provides intermediates and methods make the structure (1) compounds, as well as methods to use the compounds as labels in diagnostic assays and to enhance binding to complementary bases.

Abstract: A process of fragmenting and labeling a synthetic or natural nucleic acid, comprising the steps of providing a mixture containing a nucleic acid, a labeling agent containing a detectable label, and at least one multivalent metal cation in a substantially aqueous solution; chemically fragmenting the nucleic acid in the mixture to produce a multiplicity of nucleic acid fragments; and attaching at least one label to at least one of the nucleic acid fragments to produce a detectably labeled nucleic acid fragment.

Abstract: The process of the instant invention is drawn to the synthesis of modified P-chiral nucleotide analogues in the form of pure diastereomers possessing preselected configuration at the P-atom. Oligonucleotides prepared by the method of the invention containing P-chiral compounds have enhanced hybridization and transporting properties.

Abstract: A method and apparatus for preparation of a substrate containing a plurality of sequences. Photoremovable groups are attached to a surface of a substrate. Selected regions of the substrate are exposed to light so as to activate the selected areas. A monomer, also containing a photoremovable group; is provided to the substrate to bind at the selected areas. The process is repeated using a variety of monomers such as amino acids until sequences of a desired length are obtained. Detection methods and apparatus are also disclosed.

Abstract: The invention provides a homogeneous assay for nucleic acid hybridization. The fluorescent intensity of a hybridization medium containing a probe, a target and an intercalating agent is a function of the hybridization efficiency of the probe with respect to the target. The assay can detect specific hybridization between single-stranded probes and non-denatured double-stranded targets to form triplexes, thus obviating the need to denature the targets. The assay can also detect duplex hybridization complexes. The assay can be used to identify accessible regions in folded nucleotide sequences, to determine the number of mismatched pairs in a hybridization complex, and to map genomes.

Abstract: This invention presents novel methods for synthesizing phosphorothioate oligonucleotides, using support-bound phosphoramidites. Novel intermediates useful in the methods are also provided.

Abstract: The present invention is concerned with a method for generating, in a non specific manner, multiple copies of RNA from a pool of mRNA's. Such a method is of particular importance in techniques for screening the differences in expression in given cell types or in cells under specific conditions. The present invention provides a non-selective poly A mRNA labeling and amplification method, i.e. a method not encompassing cDNA synthesis.

Abstract: Amplification oligonucleotides and hybridization assay probes which distinguish Human Immunodeficiency Virus type 1 from other viruses.

Abstract: Novel energy transfer dyes which can be used with shorter wavelength light sources are provided. These dyes include a donor dye with an absorption maxima at a wavelength between about 250 to 450 nm and an acceptor dye which is capable of absorbing energy emitted from the donor dye. One of the energy transfer dyes has a donor dye which is a member of a class of dyes having a coumarin or pyrene ring structure and an acceptor dye which is capable of absorbing energy emitted from the donor dye, wherein the donor dye has an absorption maxima between about 250 and 450 nm and the acceptor dye has an emission maxima at a wavelength greater than about 500 nm.

Abstract: The invention presented is a novel method for the extraction of VNTR alleles and for the concomitant detection of polymorphic markers for inherited traits at multiple loci by simultaneous comparison of complex genomes from multiple individuals. The product is designated a Total Representation of Alleles that are Informative for a Trait (TRAIT). These alleles may be used directly as genetic markers or may be used as vehicles to facilitate precise localisation of sequence variations responsible.

Abstract: Methods are provided for the production of nucleic acid ligands against target molecules using a procedure known as Transcription-free Systematic Evolution of Ligands by EXponential enrichment (Transcription-free SELEX). The Transcription-free SELEX method assembles nucleic acid ligands from fragments of synthetic nucleic acids by annealing those fragments to a complementary template, and then ligating the fragments together.

Abstract: A method of detecting peptide fragments of protein(s) that are differentially present in biological samples. The identity of the peptides may be determined and correlated with the protein(s) that are differentially present in the samples.

Abstract: The present invention relates to a process for labeling a synthetic or natural ribonucleic acid (RNA). It also relates to RNA fragments, which have been labeled by fragmenting the RNA to free a terminal phosphate of each fragment for further reaction, and labeling each fragment at the freed terminal phosphate which is located at the 3′ end and/or the 5′ end of each fragment of the RNA, and to the use of such RNA fragments, for example, in the field of medical diagnosis.

Abstract: The present invention is a method for selectively removing objects from a surface utilizing a probe. The probe is scanned over the surface utilizing a greater and greater relative amount of force so that a certain number of the objects are removed from the surface. The force required to remove the objects from the surface can be calculated utilizing Hook's law and the spring constant of the probe. After removal of the objects that have a relatively weaker binding affinity with the surface, the remaining objects can be harvested, characterized, and subjected to further study.

Abstract: A compound of the following formula: Ea—La—X—Lb—Eb in which each of Ea and Eb independently is a group having oxidation-reduction activity and having a conjugated system in its group; X is a divalent cyclic group; and each of La and Lb independently is a group which does not form a conjugated system in combination with the conjugated system of each of Ea and Eb and at least one of which has a site imparting water solubility to the compound or a site that is convertible into a site imparting water solubility to the compound, is favorably employable as an electroconductive threading intercalator in an electrochemical method for detecting complementary DNA fragments.

Abstract: The present invention provides a method for targeting a particular mRNA sequence in vivo by oral administration of a morpholino antisense compound having uncharged phosphorus-containing backbone linkages. Also disclosed is a non-invasive method of detecting and quantitating the in vivo presence of RNA containing one or more selected target sequences. The method includes administering to a subject a nuclease-resistant antisense oligomer which hybridizes by Watson-Crick base pairing to a region of the target RNA with a Tm substantially greater than 37° C. The oligomer is able to complex intracellularly with target RNA, and is released from intracellular sites as a nuclease-resistant heteroduplex, which can then be measured in a body fluid sample, e.g., urine.

Abstract: For nucleic acid amplification including extension of primers by a DNA polymerase, high specificity primers are provided. The primers include a type of hairpin structure in which a single-stranded loop separates complementary 3′ and 5′ arms and in which the loop and the 3′ arm are complementary to the target nucleic acid. Amplification methods, assays and kits including such primers are included in the invention.

Abstract: Methods, systems and assays are provided for FP detection of nucleic acid hybridization.

Abstract: The present invention relates to a support system for solid phase synthesis of oligomers, such as oligonucleotides, wherein the starting compound is bound to the support via a disiloxyl linkage. Furthermore, the invention relates to a method for synthesis of oligonucleotides on a solid support. The support system comprises a stable disiloxyl linkage providing high nucleoside loadings to the support and the method allows convenient non-laborious oligomer synthesis.

Abstract: The present invention relates to a process for preparing arrays of oligopeptide nucleic acid probes immobilized on a solid matrix by employing polymeric photoacid generator. Arrays of peptide nucleic acid probes of the invention are prepared by the steps of: (i) derivatizing the surface of a solid matrix with aminoalkyloxysilane in alcohol and attaching a linker with acid-labile protecting group on the solid matrix; (ii) coating the solid matrix with polymeric photoacid generator (PAG); (iii) exposing the solid matrix thus coated to light to generate acid for eliminating acid-labile protecting group; (iv) washing the solid matrix with alkaline solution or organic solvent and removing residual polymeric photoacid generator; and, (v) attaching a monomeric peptide nucleic acid with acid-labile protecting group to the solid matrix, and repeating the previous Steps of (ii) to (v).

Abstract: The invention provides a method of tracking, identifying, and/or sorting classes or subpopulations of molecules by the use of oligonucleotide tags. Oligonucleotide tags of the invention comprise oligonucleotides selected from a minimally cross-hybridizing set. Preferably, such oligonucleotides each consist of a plurality of subunits 3 to 9 nucleotides in length. A subunit of a minimally cross-hybridizing set forms a duplex or triplex having two or more mismatches with the complement of any other subunit of the same set. The number of oligonucleotide tags available in a particular embodiment depends on the number of subunits per tag and on the length of the subunit. An important aspect of the invention is the use of the oligonucleotide tags for sorting polynucleotides by specifically hybridizing tags attached to the polynucleotides to their complements on solid phase supports.

Abstract: A compound comprising a poly(ether-thioether), poly(ether-sulfoxide) or poly(ether-sulfone) backbone bearing a plurality of ligands that are individually bound to chiral carbon atoms located within the backbone, at least one of the ligands including a moiety such as a naturally occurring nucleobase, a nucleobase binding group or a DNA interchelator; a process of synthesizing the compound, monomers to be used in this process and their synthesis process and processes for using the compound in biochemistry and medicine.

Abstract: Isolated polynucleotide molecules and peptides encoded by these molecules are used in the analysis of human carbamyl phosphate synthetase I phenotypes, as well as in diagnostic and therapeutic applications, relating to a human carbamyl phosphate synthetase I polymorphism. By analyzing genomic DNA or amplified genomic DNA, or amplified cDNA derived from mRNA, it is possible to type a human carbamyl phosphate synthetase I with regard to the human carbamyl phosphate synthetase I polymorphism, for example, in the context of diagnosing and treating hepatic veno-occlusive disease (HVOD) associated with bone marrow transplants.

Abstract: Genomic or cDNA, or fragments and mixtures thereof, can be screened by generation of subsets and then subjecting the subsets to mismatch scanning procedures. Alternatively, DNA fragments can be generated by cutting with a restriction endonuclease that generates variable overhangs. For either of the above methods, Y-shaped adapters having a region of non-complementary single-stranded DNA at the end can be used. Heterohybrid DNA, containing one DNA strand derived from each of two different samples, or homohybrids, containing DNA strands from the same sample, can be selected. Adapters attached to the ends of the fragments are designed to allow the selective isolation of homohybrid or heterohybrid DNA.

Abstract: A hydrocarbyldithiomethyl-modified compound of the Formula:

Abstract: Integrated microfluidic devices comprising at least an enrichment channel (10) and a main electrophoretic flowpath (12) are provided. In the subject integrated devices, the enrichment channel and the main electrophoretic flowpath are positioned so that waste fluid flows away from said main electrophoretic flowpath through a discharge outlet (6). The subject devices find use in a variety of electrophoretic applications, including clinical assays, high throughput screening for genomics and pharmaceutical applications, point-or-care in vitro diagnostics, molecular genetic analysis and nucleic acid diagnostics, cell separations, and bioresearch generally.

Abstract: This invention provides dyes, particularly cyanine and related dyes, with acyl fluoride activating groups, the dyes having the general formula wherein: each dotted line represents carbon atoms necessary to form a fused substituted or unsubstituted aromatic ring; n is an integer selected from the group consisting of 1, 2 and 3; X and Y are selected from the group consisting of S, O, N, CH2 and C(CH3)2; at least one of said R1 and R2 comprises a sulfonic acid or sulfonate group attached to the aromatic ring; and R3 and R4 are independently selected from the group consisting of alkylcarboxylate, activated alkylcarboxylate and an inert group; wherein at least one of said R3 and R4 groups is alcylcarboxylate or activated alkylcarboxylate with the carboxyl group converted to an acyl fluoride. The inert group is a group that is inert towards acyl fluoride and has a sterical structure which allows aminoacylation of the acyl fluoride group.

Abstract: Disclosed is a method for altering undesirable immune responses by identifying mutant polypeptides that exhibit less of an undesirable immune response while retaining one or more desired characteristics. Such polypeptides are safer and can be more efficacious when introduced into a human, other mammal, or other animal. Either the altered immune response or a surrogate for the immune response, referred to as a measurable immune characteristic, can be assessed in the method. Generally, the measurable immune characteristic can itself be an undesirable immune response, the measurable immune characteristic can be involved in an undesirable immune response, and/or an undesirable immune response can be mediated by the measurable immune characteristic.

Abstract: The invention relates to novel fluorescent conjugates of nucleosides or nucleotides which can be used especially for detecting, locating and/or isolating nucleic acids or molecules of biological or clinical interest which have a nucleoside structure or are capable of interacting with nucleic acids. The invention further relates to the polynucleotides comprising at least one fluorescent conjugate of a nucleotide.

Abstract: The invention provides novel bifunctional phosphitylating reagents and their application in in situ preparation of 5′-protected nucleoside phosphoramidites and synthesis of oligonucleotides. Bifunctional phosphitylating reagents according to the invention react quickly with nucleosides under neutral or weakly basic conditions, without an additional activation step. In addition, the bifunctional phosphitylating reagents according to the invention generate chemoselectively the corresponding nucleoside phosphoramidites in situ, without need to purify the nucleoside phosphoramidites before using them in oligonucleotide synthesis. Finally, the bifunctional phosphitylating reagents according to the invention are relatively stable and easy to handle.

Abstract: Fluorescent energy transfer cassettes that allow through bond energy transfer and have a succinimidyl ester functionality suitable for affecting them to biomolecules or provided and are applied to high throughput DNA sequencing.

Abstract: The invention is directed to novel methods of making nucleosides modified with signalling moieties and polydentate ligands, particularly for use in chelating transition metal complexes to form signalling moieties such as electron transfer moieties and fluorophores.

Abstract: A method of analyzing a sequence of a polynucleotide of interest, comprising the steps of: a) incorporating one member of a specific binding pair at the end of each strand of a double stranded polynucleotide of interest, the number being of the same type for both strands, b) immobilizing both strands of the polynucleotide to a solid support provided with the other member of the specific binding pair, c) annealing sequencing primers to the immobilized strands, d) sequencing both strands by the chain termination method. The polynucleotide of interest is preferably amplified before or in connection with step a) and most preferably by polymerase chain reaction extension. The invention also comprises a kit for use in analyzing the sequence of a polynucleotide of interest.