Abstract: Solid support assays using non-standard bases are described. A capture oligonucleotide comprising a molecular recognition sequence is attached to a solid support and hybridized with a target oligonucleotide. In some instances, the molecular recognition sequence includes one or more non-standard bases and hybridizes to a complementary tagging sequence of the target oligonucleotide. In other instances, incorporation of a non-standard base (e.g., via PCR or ligation) is used in the assay.

Abstract: Disclosed are nanocapsules and methods of preparing these nanocapsules. The disclosure includes a modular assembly method of forming DNA nanocapsules. Discrete polyhedra are combined in a stepwise amalgamation to form icosahedra. The DNA nanocapsules may be used to encapsulate agents for drug delivery and other applications.

Abstract: The present invention provides oligonucleotide probes and oligonucleotide probe collections and protein labeling for detecting or localizing a plurality nucleic acid target genes or antigens within a cell or tissue sample. Specifically, the invention provides collections of oligonucleotide probes for use in in situ hybridization analyses in which each probe has a label-domain with the sequence formulas of (CTATTTT)nCT, (AAAATAG)n or (TTTTATC)n or (GATAAAA)n in which all cases “n” would equal 1 or greater. The present invention provides collections or “cocktails” of oligonucleotide probes for detecting or localizing specific nucleic acid target genes within a cell or tissue sample.

Abstract: This invention pertains to the field of combination oligomers, including the block synthesis of combination oligomers in the absence of a template, as well as related methods, kits, libraries and other compositions.

Abstract: This invention provides a process for sequencing single-stranded DNA by employing a nanopore and modified nucleotides.

Abstract: Disclosed are methods and compositions for use in nucleic acid amplification or extension reactions.

Abstract: This invention generally relates to nucleic acid synthesis, in particular DNA synthesis. More particularly, the invention relates to the production of long nucleic acid molecules with precise user control over sequence content. This invention also relates to the prevention and/or removal of errors within nucleic acid molecules.

Abstract: A method and system for organic polymer synthesis utilizing flow through reaction vessels. A chemical plug is introduced selectively into reaction vessels that are inactive. Reactions continue in other reaction vessels. The chemical plug may be removed after reactions in the other reaction vessels have been completed. All reaction vessels are under a pressure differential which, with the use of the chemical plug, remains uniform.

Abstract: The present invention discloses methods and compositions for modulating the quality of an immune response to a target antigen in a mammal, which response results from the expression of a polynucleotide that encodes at least a portion of the target antigen, wherein the quality is modulated by replacing at least one codon of the polynucleotide with a synonymous codon that has a higher or lower preference of usage by the mammal to confer the immune response than the codon it replaces.

Abstract: Foot and mouth disease (FMD) viruses which are able to grow on BHK-21 cells in suspension are described herein. The new viruses are recombinant chimeric viruses formed by replacing the outer capsid coding region of a first FMDV strain, which has previously been shown to be an effective vaccine strain, with the outer capsid coding region of a second FMDV strain. The outer capsid coding region of the second FMDV strain is also modified to introduce a heparan sulphate proteoglycan (HSPG) binding site. The chimeric viruses are then used as seed viruses in the production of inactivated vaccine antigens which have been tailored for specific outbreak situations or locality. The invention also relates to the product of expression of the chimeric FMD viruses and to uses therefor, such as to form antigenic, immunological or vaccine compositions for prevention of FMD.

Abstract: Methods for synthesizing a collection of partially identical polynucleotides are disclosed.

Abstract: Double-stranded RNA of about 19 to about 25 nucleotides in length capable of regulating gene expression by RNA interference is provided. Such double-stranded RNA are particularly useful for treating disease or conditions associated with a target mRNA or gene. Methods of manufacture and methods of use of the double-stranded RNA are also provided.

Abstract: A method of detecting a target nucleic acid is disclosed, the method comprising detecting the presence of a fluorescent covalent crosslinked product from non-fluorescent precursors. The fluorescent covalent crosslinked product comprises a novel fluorophore structure. Also described are methods of synthesizing probe molecules that can form fluorescent covalent crosslinked products with nucleic acid targets and arrays comprising such probes.

Abstract: The present invention provides a stable salt of 3?-phosphoadenosine 5?-phosphosulfate (PAPS) and a production method therefor. The present invention is directed to a stable salt of PAPS (amine salt), which is formed between PAPS and an amine compound, and to a method for producing a stable salt of PAPS, which includes adding an amine compound to an aqueous PAPS solution in an amount by mole equal to or greater than that of PAPS, and lyophilizing the resultant solution. The present invention has first realized production of a solid-form PAPS salt having considerably improved stability through a very simple technique. Since the thus-produced amine salt of PAPS is very stable, the salt can be stored or employed without taking much care about decomposition thereof at ambient temperature.

Abstract: Protective groups which may be cleaved with an activatable deprotecting reagent are employed to achieve a highly sensitive, high resolution, combinatorial synthesis of pattern arrays of diverse polymers. In preferred embodiments of the instant invention, the activatable deprotecting reagent is a photoacid generator and the protective groups are DMT for nucleic acids and tBOC for amino acids. This invention has a wide variety of applications and is particularly useful for the solid phase combinatorial synthesis of polymers.

Abstract: The present invention provides methods of extending nucleic acids and purifying target nucleic acids. The methods include the use of capping reagents to effect chain termination and provide a handle for purification via fluorous affinity methods.

Abstract: The present invention relates to novel phosphoramidites, A-n-bz, C-n-bz, C-n-ac, G-n-ac and U are produced with an HPLC purity of greater than 98% and 31P NMR purity greater than 99%. A novel process of reverse 5??3? directed synthesis of RNA oligomers has been developed and disclosed. Using that method demonstrated high quality RNA synthesis with coupling efficiency approaching 99%.

Abstract: A process for providing regiospecific and highly stereoselective synthesis of 9-? anomeric purine nucleoside analogs is described. The introduction of the sugar moiety on to 6-(azolyl)-substituted purine bases is performed so that highly stereoselective formation of the ? anomers of only the 9 position regioisomers of the purine nucleoside analogs (either D or L enantiomers) is obtained. This regiospecific and stereoselective introduction of the sugar moiety allows the synthesis of nucleoside analogs, and in particular 2?-deoxy, 3?-deoxy, 2?-deoxy-2?-halo-arabino and 2?,3?-dideoxy-2?-halo-threo purine nucleoside analogs, in high yields without formation of the 7-positional regioisomers. Processes for providing novel 6-(azolyl)purines for the regiospecific and highly stereoselective synthesis of 9-? anomeric purine nucleoside analogs are described. The compounds are drugs or intermediates to drugs.

Abstract: In various embodiments of the invention, novel compositions having a polynucleotide bound to a substrate via a cleavable linker are provided, and methods of cleaving a polynucleotide from a substrate are provided.

Abstract: The present invention describes a polypeptide, comprising at least one repeat domain, further comprising a recombinant peptide of interest. The present invention further describes a process for the production of a recombinant peptide of interest. The invention further describes the use of a repeat protein for the production of a recombinant peptide of interest.

Abstract: To provide an oligonucleotide derivative that can be used without a problem of falling of a DNA probe from a support. The oligonucleotide derivative of the present invention is represented by the following General Formula (1). The oligonucleotide derivative of the present invention can be used in a DNA chip, a microarray, and so on and further used in a method of detecting gene and a method of regulating gene expression, for example.

Abstract: This invention pertains to the field of combination oligomers, including the block synthesis of combination oligomers in the absence of a template, as well as related methods, kits, libraries and other compositions.

Abstract: Within oligonucleotides, 2-azapurine and especially 2-azaadenine bases form specifically base pairs with guanine. This base pair is of analogous stability as an adenine-thymine but less stable than a guanine-cytosine base pair. Therefore, the incorporation of 2-azaadenine residues into oligonucleotides instead of cytosine leads specifically to hybridization complexes with nucleic acids with homogenous stability. This is useful for the adaptation of the stabilities of different oligonucleotide sequences in all kinds of hybridization techniques, for example in oligomer chip technology.

Abstract: The present invention is a method for synthesizing microarrays having different oligonucleotides present within one feature area of the array. The method utilizes the techniques common to microarray synthesis, but limits the duration in which selected feature areas on the array are initially dosed with light so as to only deprotect a calculated ratio of the compounds forming the array's binding layer. The compounds initially deprotected are capped with a non-photosensitive protecting group, such as di-methoxy-trityl, to inhibit their involvement in the synthesis of a first group of DNA strands built onto the array. Once the first group of DNA strands have been synthesized, the original deprotected group may then be further processed to build one or more groups of DNA strands in the same feature area as the first group of DNA strands. The present invention also includes microarrays manufactured using the method.

Abstract: A method and system is presented for introducing functional polynucleotides into a target polynucleotide using transposons.

Abstract: We describe here an in vitro method of increasing complementarity in a heteroduplex polynucleotide sequence. The method uses annealing of opposite strands to form a polynucleotide duplex with mismatches. The heteroduplex polynucleotide is combined with an effective amount of enzymes having strand cleavage activity, 3? to 5? exonuclease activity, and polymerase activity, and allowing sufficient time for the percentage of complementarity to be increased within the heteroduplex. Not all heteroduplex polynucleotides will necessarily have all mismatches resolved to complementarity. The resulting polynucleotide is optionally ligated. Several variant polynucleotides result. At sites where either of the opposite strands has templated recoding in the other strand, the resulting percent complementarity of the heteroduplex polynucleotide sequence is increased. The parent polynucleotides need not be cleaved into fragments prior to annealing heterologous strands. Therefore, no reassembly is required.

Abstract: Methods of binding biomolecules to a substrate are provided that include contacting the biomolecule with a branched linking moiety to form a branched linking structure. The branched linking structure is then contacted with a binding moiety on the substrate to form a coupled substrate binding structure, thereby binding the biomolecule to the substrate. The biomolecule may contain a Lewis base or a nucleophile to react with a Lewis acid or electrophile in the branched linking moiety. Alternatively, the biomolecule may contain a Lewis acid or electrophile that can react with a Lewis base or nucleophile in the branched linking moiety. Additionally, the biomolecule can be bound to the substrate through a covalent or non-covalent bond.

Abstract: A method for simplification of a microbial genome or microbial nucleic acid comprising treating microbial genome or nucleic acid with an agent that modifies cytosine to form derivative microbial nucleic acid and amplifying the derivative microbial nucleic acid to produce a simplified form of the microbial genome or nucleic acid.

Abstract: Methods of binding biomolecules to a substrate are provided that include contacting the biomolecule with a branched linking moiety to form a branched linking structure. The branched linking structure is then contacted with a binding moiety on the substrate to form a coupled substrate binding structure, thereby binding the biomolecule to the substrate. The biomolecule may contain a Lewis base or a nucleophile to react with a Lewis acid or electrophile in the branched linking moiety. Alternatively, the biomolecule may contain a Lewis acid or electrophile that can react with a Lewis base or nucleophile in the branched linking moiety. Additionally, the biomolecule can be bound to the substrate through a covalent or non-covalent bond.

Abstract: Embodiments of the invention relate to a branched or multichain nucleic acid switch adapted to switch from a first conformation to a second conformation upon ligand binding. The switch includes a probe strand, P, which includes the ligand binding domain; a switching framework which includes a cover strand (C), and a tether that holds P and C together and a signaling apparatus. Some embodiments include a toggle strand (T) where now the tether holds P, C, T, and the signaling apparatus together. As the switch changes between the first and second conformations; the signaling apparatus reports the state of the switch. The signaling entity is typically a lumiphore and a quencher located along the switching framework. Nucleic acid switches have applications in real time assays for diverse agents including infectious agents, environmental toxins, and terrorist agents, as well as screening methods for such agents. Further applications are found for nanoelectronics, nanofabrication and nanomachines.

Abstract: The present invention provides a method for preparing nucleotide oligomers, including (a) coupling a nucleotide dimer or nucleotide trimer to a nucleoside attached to solid supports or to universal solid supports as a starting material; (b) sequentially coupling nucleotide monomers to the resulting structures of Step (a) to prepare a nucleotide oligomer; and (c) removing the nucleotide oligomers from the solid supports. The method of the present invention provides nucleotide oligomers having 15-20% higher purity than the conventional art. The present invention enables the efficient and inexpensive synthesis of nucleotide oligomers with high purity within a shorter period of time.

Abstract: A method of detecting a target nucleic acid.

Abstract: The present invention provides an improved process for the synthesis of 2?-O-substituted purine nucleosides. The process includes anhydro or thioanhydro ring opening of a selected 8,2?-cyclopurine nucleoside with a weak nucleophile in the presence of a Lewis acid ester, followed by reduction to afford the desired 2?-O-substituted purine nucleoside.

Abstract: The present invention provides novel systems for sequencing nucleic acid molecules using dNTPs that are 3? end labeled with cleavable tags that block further extension and uniquely identify the bases to which they are attached. Removal of the tags liberates the 3? ends of the extension products for further extension. In related embodiments, oligonucleotides containing sequence-related cleavable tags are employed in a ligation reaction to determine the sequence of a particular DNA sample.

Abstract: This invention is directed to compositions comprising a linked acceptor moiety.

Abstract: Disclosed herein are methods, devices, and other components for synthesizing polymers. In some embodiments, numerous sites can be multiplexed together to allow for effective nucleic acid synthesis.

Abstract: Methods and apparatus for detecting single nucleotide polymorphisms in genes of interest are disclosed. A plurality of probes is immobilized on a planar waveguide. The probes comprise sequences complementary to a wildtype sequence of the gene of interest and complementary to a sequence of a known SNP in the gene of interest. A fluorescently-labeled analyte is flowed over the planar waveguide. The binding between the labeled analyte and each of the probes causes a change in the fluorescence signal. The SNP is detected by comparing the hybridization kinetics of the analyte with each of the probes. A method of detecting single nucleotide polymorphisms in a gene of interest by sequencing by hybridization is also disclosed.

Abstract: This invention provides an apparatus and method for analyzing a polynucleotide sequence, either an unknown sequence or a known sequence. A support carries an array of the whole or a chosen part of a complete set of oligonucleotides, which are capable of taking part in hybridization reactions. The polynucleotide sequence, or fragments thereof, are labeled and applied to the array under hybridizing conditions. Applications include analysis of known point mutations, genomic fingerprinting, linkage analysis, characterization of mRNAs, mRNA populations, and sequence determination.

Abstract: A method of modulation of synthesis capacity on and cleavage properties of synthetic oligomers from solid support is described. The method utilizes linker molecules attached to a solid surface and co-coupling agents that have similar reactivities to the coupling compounds with the surface functional groups. The preferred linker molecules provide an increased density of polymers and more resistance to cleavage from the support surface. The method is particularly useful for synthesis of oligonucleotides, oligonucleotides microarrays, peptides, and peptide microarrays. The stable linkers are also coupled to anchor molecules for synthesis of DNA oligonucleotides using on support purification, eliminating time-consuming chromatography and metal cation presence. Oligonucleotides thus obtained can be directly used for mass analysis, DNA amplification and ligation, hybridization, and many other applications.

Abstract: A method of increasing discrimination for a target DNA having a polymorphic site is provided. The method comprising immobilizing first and second probes on a substrate; hybridizing the immobilized first and second probes with first and second hurdle DNAs, respectively; and hybridizing the target DNA with the hybrids, and determining the ratio of a signal of the target DNA hybridized to the first probe to a signal of the target DNA hybridized to the second probe. The addition of a hurdle DNA and variation of a probe base can improve an ability of discriminating a single base mismatch.

Abstract: The present invention provides massively parallel oligonucleotide synthesis and purification for applications that utilize large collections of defined high-fidelity oligonucleotides (e.g., from about 101 to about 105 different sequences, generally between 25-160 bases in length).

Abstract: The present invention provides novel, water-soluble, red-emitting fluorescent rhodamine dyes and red-emitting fluorescent energy-transfer dye pairs, as well as labeled conjugates comprising the same and methods for their use. The dyes, energy-transfer dye pairs and labeled conjugates are useful in a variety of aqueous-based applications, particularly in assays involving staining of cells, protein binding, and/or analysis of nucleic acids, such as hybridization assays and nucleic acid sequencing.

Abstract: The invention provides a nucleotide or nucleoside having a base attached to a detectable label via a cleavable linker, characterized in that the cleavable linker contains a moiety selected from the group comprising: Formula (I) (wherein X is selected from the group comprising O, S, NH and NQ wherein Q is a C1-10 substituted or unsubstituted alkyl group, Y is selected from the group comprising O, S, NH and N(allyl). T is hydrogen or a C1-10 substituted or unsubstituted alkyl group and * indicates where the moiety is connected to the remainder of the nucleotide or nucleoside).

Abstract: The present invention provides a new labeling reagent for preparing modified oligonucleotides and processes for their production wherein these oligonucleotides contain at least once the structure P?N—SO2-benzole-L-M-X, characterized in that L is either —(CH2)n- or polyethylene glycol, M is selected from a group consisting of —NH—, —O—, —S—, and —COO—, and X is either a protecting group or a detectable unit. L is preferably either —(CH2)n- or polyethylene glycol.

Abstract: This invention provides methods for attaching a nucleic acid to a solid surface and for sequencing nucleic acid by detecting the identity of each nucleotide analogue after the nucleotide analogue is incorporated into a growing strand of DNA in a polymerase reaction. The invention also provides nucleotide analogues which comprise unique labels attached to the nucleotide analogue through a cleavable linker, and a cleavable chemical group to cap the —OH group at the 3?-position of the deoxyribose.

Abstract: In various embodiments of the invention, novel compositions having a polynucleotide bound to a substrate via a cleavable linker are provided, and methods of cleaving a polynucleotide from a substrate are provided.

Abstract: A method for modifying nucleic acid bases by a chemical means, which enables the discrimination of every base species in plural species of bases in a nucleic acid comprising plural nucleotide units, while retaining the base sequence information of the nucleic acid. A nucleic acid base-modified product provided by the method. The nucleic acid base-modified product is essentially a single strand. In accordance with the invention, a novel means for sequencing a nucleic acid by a microscopic means is provided.

Abstract: An apparatus and method for catalyzing a reaction on a substrate (24) comprising, a light source (12), a micromirror (16) positioned to redirect light (14) from the light source (12) toward a substrate (24) wherein the redirected light (14) catalyzes a chemical reaction proximate a substrate (24), is disclosed. A computer (18) is connected to, and controls, the positioning of mirrors within the micromirror (16) to specifically redirect light to specific portions of a substrate. The substrate (24) can be placed in a reaction chamber (50), wherein the light (14) that is redirected by the micromirror (16) catalyzes a chemical reaction proximate a substrate (24).

Abstract: The invention provides methods, reagents and kits for enabling comparative analysis of extracellular RNA species in bodily fluids including plasma and serum to detect, infer, or monitor cancer and other neoplasia.

Abstract: An apparatus for treating polymeric materials comprises a treatment chamber adapted to maintain a selected atmosphere; a means for supporting the polymeric material within the chamber; and, a source of plasma-derived gas containing at least one reactive oxidative species whereby the polymer is stabilized and cross linked through exposure to the oxidative species in the chamber at a selected temperature. The polymer may be directly exposed to the plasma, or alternatively, the plasma may be established in a separate volume from which the reactive species may be extracted and introduced into the vicinity of the polymer. The apparatus may be configured for either batch-type or continuous-type processing. The apparatus and method are especially useful for preparing polymer fibers, particularly PAN fibers, for later carbonization treatments.