Abstract: The present invention is directed to methods for the production and isolation of nucleic acid molecules. In particular, the invention concerns isolation of mRNA molecules and the production and isolation of nucleic acid molecules (e.g., cDNA molecules or libraries), which may be single- or double-stranded. Additionally, the invention concerns selection and isolation of particular nucleic acid molecules of interest from a sample which may contain a population of molecules. Specifically, the invention concerns affinity-labeled primer-adapter molecules which allow improved isolation and production of such nucleic acid molecules, increasing both product recovery and speed of isolation.

Abstract: The present invention relates to a method for genotyping DNA molecules contained in at least one DNA sample comprising: (a) digesting the DNA molecules contained in at least one DNA sample with a class IIB restriction endonuclease to generate DNA fragments; (b) optionally separating DNA fragments comprising the recognition site for said class IIB restriction endonuclease from the remaining DNA fragments; (c) attaching at least one adaptor DNA to the 5? and/or 3? end of one or both strands of the DNA fragments comprising the recognition site for said class IIB restriction endonuclease obtained in a) or separated in b) to form adaptor-fragment constructs; (d) determining the sequence of at least a fraction of the DNA fragments obtained in c); and (e) assigning genotypes to said at least one DNA sample analysed based on the sequence data obtained in d).

Abstract: The present invention relates to a use of non-cofactor compounds, represented by formulas (I) or (II) wherein R and Z are independently selected from H, D, C1-C12-alkyl, preferably C1-C4-alkyl, alkenyl, alkinyl, phenyl or -LX, wherein X represents a functional group or a reporter group attached via a linker group L, and QH is selected from —SH, —SeH, —NHNH2 or —ONH2, for a targeted modification or derivatization of a biomolecule by covalent coupling to the biomolecule in the presence of a directing methyltransferase. Further development of the method of targeted modification and derivatization are the method for targeted labeling a biomolecule and method for detecting unmethylated target sites in a biomolecule comprising modification of the biomolecule according to the present invention.

Abstract: The present invention provides polypeptides having a nucleotide polymerase activity and method of enhancing polymerase activity. The polypeptides of the present invention may possess both a DNA-dependent DNA polymerase activity and an RNA-dependent DNA polymerase activity, i.e., a reverse transcriptase activity. The polypeptides of the present invention may be used in any application including, but not limited to, DNA sequencing reactions, amplification reactions, cDNA synthesis reactions, and combined cDNA synthesis and amplification reactions, e.g., RT-PCR.

Abstract: The present invention relates to targeted conversion of alpha-hydroxyalkylated residues in biomolecules in the presence of a directing methyltransferase, namely to targeted removal of the alpha-hydroxyalkyl moieties to give unmodified residues, or targeted derivatization of the alpha-hydroxyalkyl groups by covalent coupling of non-cofactor compounds represented by formula HQ-LX1 wherein X represents a functional group or a reporter group attached via a linker moiety L, and QH is selected from HS—, HSe—, HO—H2N—, HN3 or HCN in the presence of a directing methyltransferase. Further development of the method of targeted conversion comprises methods for targeted labeling a biomolecule and method for detecting hydroxymethylated target sites in a biomolecule according to the present invention.

Abstract: The present invention provides methods and compositions for asymmetrically tagging a nucleic acid fragment using asymmetric adapters.

Abstract: Thermostable viral and microbial polymerases exhibiting a combination of activities selected from proofreading (3?-5?) exonuclease activity, nick translating (5?-3?) nuclease activity, synthetic primer-initiated polymerase activity, nick-initiated polymerase activity, reverse transcriptase activity, strand displacement activity, terminal transferase activity, primase activity, and/or efficient incorporation of chain terminating analogs. Some of the polymerases provided herein include a first motif and a second motif. The first motif preferably has the sequence X1X2X3DX4PX5IELRX6X7X8, wherein X1 is I or V; X4 is F or Y; X8 is G or A; and X2, X3, X5, X6, and X7 are any amino acid. The second motif preferably has the sequence RX9X10X11KSANX12GX13X14YG, wherein X11 is G or A; X12 is F, L, or Y; X13 is L or V; X14 is I or L; and X9 and X10 are any amino acid.

Abstract: Methods, Compositions, and Systems are provided for obtaining polymerase-template complex mixtures with improved levels of active polymerase. In some aspects, methods are described in which a polymerase-template complex is exposed to reaction conditions in which a complementary strand to the template is produced. The extended reaction mixture is purified, for example by gel filtration chromatography to produce a mixture of polymerase-template complex having a higher active fraction. This purified mixture can be used for further analyses including single molecule sequencing.

Abstract: This specification generally relates to non-radioactive methods of non-radioactive real-time PCR using FRET dual-labeled primers.

Abstract: The present invention relates generally to a method of regulating oligonucleotide functionality and, more particularly, to a method of regulating the functionality of a primer or probe. The method of the invention is designed to provide a means to selectively inactivate or activate the functionality of an oligonucleotide, such as a primer, thereby providing means to regulate the progress of any method using that oligonucleotide. The development of a means to regulate the functionality of an oligonucleotide, such as a primer, is useful in a range of applications including, but not limited to, amplification reactions such as PCR, isothermal amplification and nucleic acid strand extension. With respect to amplification reactions, these have wide utility including the diagnosis and/or monitoring of disease conditions which are characterised by specific gene sequences and the characterisation or analysis of specific gene regions of interest.

Abstract: Disclosed is a method for introducing a mutation into a gene, which comprises the following steps: a homologous recombination step of carrying out the homologous recombination between a target gene into which the mutation is to be introduced and a target recombinant vector, thereby substituting an exon in the target gene into which the mutation is to be introduced by a target DNA sequence in the target recombinant vector; and a mutation introduction step of carrying out the specific recombination between the target DNA sequence in the resulting target recombinant gene and a mutation introduction cassette of a mutation introduction vector carrying a mutated DNA sequence containing a mutant exon by the intervening action of Cre recombinase to substitute the target DNA sequence by the mutated DNA in the mutation introduction cassette, thereby producing a mutation-introduced gene into which the mutant DNA sequence has been introduced.

Abstract: A method for sequencing a polynucleotide strand by using sequencing-by-synthesis techniques. To address the problem of incomplete extension (IE) and/or carry forward (CF) errors that can occur in sequencing-by-synthesis reactions, an alternative flow ordering of dNTPs is used. In contrast to conventional flow orderings, the dNTPs are flowed in an ordering that is not a continuous repeat of an ordering of the four different dNTPs. This alternate flow ordering may reduce the loss of phasic synchrony in the population of template polynucleotide strands that result from IE and/or CF errors.

Abstract: Methods and apparatus relate to reduction of sequence errors generated during synthesis of nucleic acids on a microarray chip. The error reduction can include synthesis of complementary stands (to template strands), using a short universal primer complementary to the template strands and polymerase. Heteroduplex can be formed be melting and re-annealing complementary stands and template strands. The heteroduplexes containing a mismatch can be recognized and cleaved by a mismatch endonuclease. The mismatch-containing cleaved heteroduplexes can be removed from the microarray chip using a global buffer exchange. The error free synthetic nucleic acids generated therefrom can be used for a variety of applications, including synthesis of biofuels and value-added pharmaceutical products.

Abstract: The present invention relates to a linker or population of linkers that include an oligonucleotide fixed portion and an oligonucleotide variable portion represented by formula (N)n, wherein N is A, C, G, T or U, or their derivatives, and n is an integer equal to or higher than 1. A linker-polynucleotide or a population of linker-polynucleotides of the invention may be constituted by said linker or population of linkers and a target first strand polynucleotide bound to said linker. The invention also encompasses a method of preparing said linker or population of linkers and a method of preparing a linker-polynucleotide using said linker or population of linkers. The linkers or polynucleotide-linkers of the invention can be used in a method of preparing a cDNA library.

Abstract: Disclosed are mutant DNA polymerases having increased 3?-mismatch discrimination relative to a corresponding, unmodified polymerase. The mutant polymerases are useful in a variety of disclosed primer extension methods. Also disclosed are related compositions, including recombinant nucleic acids, vectors, and host cells, which are useful, e.g., for production of the mutant DNA polymerases.

Abstract: The present invention provides a method of producing a nucleic acid at high reaction efficiency and high reproducibility with a decreased variation in yield and purity among different reaction lots. A nucleic acid synthesis reaction is carried out on a first solid phase carrier capable of supporting nucleic acid synthesis contained in a solid phase carrier mixture comprising the first solid phase carrier and a second solid phase carrier that does not support nucleic acid synthesis.

Abstract: The present invention is directed to compositions, methods and kits useful for the synthesis of nucleic acid molecules. More specifically, compositions, methods and kits are provided for the amplification of nucleic acid molecules in a one-step RT-PCR procedure comprising one or more agents used to increase tolerance to PCR inhibitors.

Abstract: Disclosed are mutant DNA polymerases having increased 3?-mismatch discrimination relative to a corresponding, unmodified polymerase. The mutant polymerases are useful in a variety of disclosed primer extension methods. Also disclosed are related compositions, including recombinant nucleic acids, vectors, and host cells, which are useful, e.g., for production of the mutant DNA polymerases.

Abstract: The present invention relates the use of broad range primer (e.g., as broad range capture olignucleotides) immobilized in a SCODA method gel to allow, for example, selective concentration of target nucleic acids. Such concentrated target nucleic acids may, for example, be: i) eluted from the gel and analyzed (e.g., by broad range primer methods); ii) subject to in situ (e.g., in gel) PCR methods; and/or iii) analyzed in the gel (e.g., by fluorescent detection methods).

Abstract: Provided are compounds comprising two DNA supramolecular binding molecules covalently joined by a linker group. Also provided are multisignal labeling reagents comprising (i) an oligomer of nucleotides or nucleotide analogs; (ii) a DNA supramolecular binding molecule noncovalently bound to the oligomer; and (iii) a first reactive group or a first partner of a first binding pair covalently bound to the oligomer. Additionally provided are methods of producing multisignal labeling reagents.

Abstract: Disclosed are mutant DNA polymerases having increased 3?-mismatch discrimination relative to a corresponding, unmodified polymerase. The mutant polymerases are useful in a variety of disclosed primer extension methods. Also disclosed are related compositions, including recombinant nucleic acids, vectors, and host cells, which are useful, e.g., for production of the mutant DNA polymerases.

Abstract: Disclosed are mutant DNA polymerases having increased 3?-mismatch discrimination relative to a corresponding, unmodified polymerase. The mutant polymerases are useful in a variety of disclosed primer extension methods. Also disclosed are related compositions, including recombinant nucleic acids, vectors, and host cells, which are useful, e.g., for production of the mutant DNA polymerases.

Abstract: Disclosed are mutant DNA polymerases having increased 3?-mismatch discrimination relative to a corresponding, unmodified polymerase. The mutant polymerases are useful in a variety of disclosed primer extension methods. Also disclosed are related compositions, including recombinant nucleic acids, vectors, and host cells, which are useful, e.g., for production of the mutant DNA polymerases.

Abstract: The present invention relates to a method, oligonucleotides, reaction mixtures and kits for the selective amplification of a messenger RNA target comprising an exon-exon junction, using an oligonucleotide that comprises at least one nucleotide modified at the exocyclic amino group.

Abstract: Described herein are primers and probes useful for the detection, screening, isolation and sequencing of MRSA, MSSA, Staphylococci markers, and the antibiotic resistance gene mecA.

Abstract: Double-stranded RNA (dsRNA) induces sequence-specific post-transcriptional gene silencing in many organisms by a process known as RNA interference (RNAi). Using a Drosophila in vitro system, we demonstrate that 19-23 nt short RNA fragments are the sequence-specific mediators of RNAi. The short interfering RNAs (siRNAs) are generated by an RNase III-like processing reaction from long dsRNA. Chemically synthesized siRNA duplexes with overhanging 3? ends mediate efficient target RNA cleavage in the lysate, and the cleavage site is located near the center of the region spanned by the guiding siRNA. Furthermore, we provide evidence that the direction of dsRNA processing determines whether sense or antisense target RNA can be cleaved by the produced siRNP complex.

Abstract: Disclosed are mutant DNA polymerases having improved extension rates relative to a corresponding, unmodified polymerase. The mutant polymerases are useful in a variety of disclosed primer extension methods. The mutant polymerases overcome the inhibitory effects of a variety of polymerase and reverse transcriptase inhibitors. Therefore, the mutant polymerases are useful in a variety of disclosed methods in the presence of such inhibitors.

Abstract: Binary probe and clamp compositions conduct methods for target hybridization detection. Where the probe is a substrate for exonuclease cleavage, the composition provides quantitation and detection of PCR products, by real-time and end-point measurements. Where the probe is an amplification primer, the composition provides an improved method for labelling and detection of PCR products. Probes and clamps may be labelled with fluorescent dyes, quenchers, hybridization-stabilizing moieties, chemiluminescent dyes, and affinity ligands. Clamps may be nucleic acid analogs, such as 2-aminoethylglycine PNA.

Abstract: The invention provides a system and method for synthesizing polynucleotides by solid phase assembly oligonucleotide precursors, in accordance with the method, a polynucleotide is partitioned into an ordered set of subunits, wherein each subunit is assembled in a single reaction from a subset of oligonucleotide precursors that uniquely anneal together to produce the subunit. The subunits are then assembled to form the desired polynucleotide. An important feature of the invention is the selection of subunits that are free of undesired sequence elements, such as palindromes, repetitive sequences, and the like, which would result in more than one subunit product alter ligating a pool of oligonucleotide precursors.

Abstract: Recombinational cloning is provided by the use of nucleic acids, vectors and methods, in vitro and in vivo, for moving or exchanging segments of DNA molecules using engineered recombination sites and recombination proteins to provide chimeric DNA molecules that have the desired characteristic(s) and/or DNA segment(s).

Abstract: The present invention relates to a polynucleotide comprising a ubiquitous chromatin opening element (UCOE) which is not derived from 13. The polynucleotide of any one of claims 1 to 7, wherein the UCOE comprises the sequence of FIG. 20 between nucleotides 1 to 7627 or a functional homologue or fragment thereof an LCR. The present invention also relates to a vector comprising the polynucleotide sequence, a host cell comprising the vector, use of the polynucleoticle, vector or host cell in therapy and in an assay, and a method of identifying UCOEs. The UCOE opens chromatin or maintains chromatin in an open state and facilitates reproducible expression of an operably-linked gene in cells of at least two different tissue types.

Abstract: Materials and methods are provided for the gel-free fractionation of polynucleotide molecules. According to the present invention, fractionation is size-based or sequence-based.

Abstract: The invention is directed to methods for in vitro DNA synthesis catalysed by a DNA polymerase using cyclodextrins. The invention also relates to methods, compositions and kits comprising cyclodextrins for the amplification of a nucleic acid. The use of cyclodextrins improves the specificity, sensibility and/or yield of the amplification reaction. The invention is related more particularly to kits, compositions and methods for carrying out PCR reactions comprising a cyclodextrin.

Abstract: Described herein are oligonucleotides useful for detecting, isolating, amplifying, quantitating, monitoring, screening and sequencing the C. Difficile genes encoding toxin B, and/or toxin A, and/or binary toxin, and methods of using the described oligonucleotides.

Abstract: Provided herein are compositions, materials, methods and kits for immobilizing a template polynucleotide in a first orientation, and immobilizing a complementary sequence of the template polynucleotide in an orientation that is flipped compared to the orientation of the template polynucleotide. Provided herein are adaptive oligonucleotides that can be used in various nucleic acid manipulations to generate immobilized complement polynucleotides that are flipped in orientation compared to the orientation of the immobilized template polynucleotides.

Abstract: The present invention provides a method of synthesizing libraries of molecules which include an encoding oligonucleotide tag.

Abstract: Described herein are primers and probes useful for the binding, detecting, differentiating, isolating, and sequencing of influenza A, influenza B, 2009 influenza A/H1N1, and a 2009 influenza A/H1N1 RNA sequence mutation associated with oseltamivir resistance.

Abstract: The present invention relates to novel bicyclic and tricyclic nucleoside and nucleotide analogues as well as to oligonucleotides comprising such elements. The nucleotide analogues, LNAs (Locked Nucleoside Analogues), are able to provide valuable improvements to oligonucleotides with respect to affinity and specificity towards complementary RNA and DNA oligomers. The novel type of LNA modified oligonucleotides, as well as the LNAs as such, are useful in a wide range of diagnostic applications as well as therapeutic applications. Among these can be mentioned antisense applications, PCR applications, strand displacement oligomers, as substrates for nucleic acid polymerases, as nucleotide based drugs, etc. The present invention also relates to such applications.

Abstract: The invention provides an in vitro method for producing proteins, membrane proteins, membrane-associated proteins, and soluble proteins that interact with membrane-associated proteins for assembly into an oligomeric complex or that require association with a membrane for proper folding. The method comprises, supplying intracytoplasmic membranes from organisms; modifying protein composition of intracytoplasmic membranes from organism by modifying DNA to delete genes encoding functions of the organism not associated with the formation of the intracytoplasmic membranes; generating appropriate DNA or RNA templates that encode the target protein; and mixing the intracytoplasmic membranes with the template and a transcription/translation-competent cellular extract to cause simultaneous production of the membrane proteins and encapsulation of the membrane proteins within the intracytoplasmic membranes.

Abstract: The present invention relates to methods, kits, and compositions for generating purified RNA samples and purified DNA samples. In particular, the present invention provides methods for generating a purified RNA or DNA sample from a sample containing both DNA and RNA molecules using a binding matrix that preferentially binds DNA or RNA in the presence of an acidic dilution buffer, or using a binding matrix that comprises acid zeolites, as well as compositions and kits for practicing such methods.

Abstract: Methods, kits, and compositions are provided herein for the generation of double stranded DNA products suitable for downstream analysis.

Abstract: Provided herein are methods of using a Cas1 polypeptide to generate nucleic fragments from a DNA substrate. These methods may be performed in vitro or in vivo. Also provided are methods of screening for modulators of Cas1.

Abstract: Disclosed are devices and methods to synthesize polynucleotides and libraries of polynucleotides such as libraries of oligonucleotides. In exemplary embodiments, the device includes a support having a plurality of features. Each feature contains a plurality of oligonucleotides. Within each feature, each of the plurality of oligonucleotides includes an identical predetermined subunit sequence of X nucleosides and a degenerate sequence of Y nucleosides. A predetermined combination of a subset of the features can be used to produce a polynucleotide having a predetermined sequence of Z nucleosides.

Abstract: Chimeric proteins comprising a sequence nonspecific single-stranded nucleic-acid-binding domain joined to a catalytic nucleic-acid-modifying domain are provided. Methods comprising contacting a nucleic acid molecule with a chimeric protein, as well as systems comprising a nucleic acid molecule, a chimeric protein, and an aqueous solution are also provided. The joining of sequence nonspecific single-stranded nucleic-acid-binding domain and a catalytic nucleic-acid-modifying domain in chimeric proteins, among other things, may prevent the separation of the two domains due to their weak association and thereby enhances processivity while maintaining fidelity.

Abstract: Disclosed is a method of amplifying a nucleic acid sequence, wherein the method comprises subjecting a reaction mixture to at least one amplification cycle, wherein the reaction mixture comprises a double-stranded nucleic acid and at least two primers capable of annealing to complementary strands of the double-stranded nucleic acid and amplifying at least one short tandem repeat (STR) using a Family A DNA polymerase in a Fast PCR protocol having a two-step amplification cycle in 25 seconds or less. Also disclosed are real-time PCR methods using the two-step protocol and kits for STR profiling using the Fast PCR protocol.

Abstract: Processes for extracting nucleic acid from a biological sample and related assemblies and kits are disclosed. The processes comprise the steps of (a) providing a device comprising an inner surface, an outer surface, a first port, and a second port, wherein the inner surface is composed of unmodified, smooth glass and defines a tubular lumen providing fluid communication between the first port and second port, wherein the lumen is circular, oval, or elliptical in cross-section, and wherein the lumen is essentially free of nucleic acid-specific binding sites; (b) introducing a nucleic acid-containing sample into the lumen of the device via the first port; (c) allowing nucleic acid in the sample to bind to the unmodified smooth glass surface; and (d) washing the bound nucleic acid.

Abstract: Provided are novel nucleotides, nucleoside, and their derivatives described herein, that can be used in DNA sequencing technology and other types of DNA analysis. In one embodiment, the nucleotide or nucleoside with an unprotected 3?-OH group is derivatized at the nucleobase to include a fluorescent dye attached via a linker to a non-cleavable terminating group. The non-cleavable-fluorescent group is designed to terminate DNA synthesis so that DNA oligomers can be sequenced efficiently in a parallel format. These reagents and methods will lead to more accurate identification of polymorphisms and other valuable genetic information.

Abstract: The present invention provides methods of extending primer nucleic acids and sequencing target nucleic acids. The methods include the use of 2?-terminator nucleotides to effect chain termination. In addition to related reaction mixtures and kits, the invention also provides computers and computer readable media.

Abstract: A method for synthesizing a nucleic acid having a desired sequence and length comprises providing a solid support having an immobilized nucleic acid, performing a nucleic acid addition reaction to elongate the immobilized nucleic acid by adding a nucleotide or an oligonucleotide to the nucleic acid, determining whether the nucleotide or the oligonucleotide is added to the nucleic acid by detecting whether there is an increase in electrophoretic force applied to the solid support when an electric field and a magnetic field gradient are applied to the support, wherein the increase in electrophoretic force applied to the support is caused by adding the nucleotide or the oligonucleotide to the nucleic acid, repeating the addition reaction and determination steps if the nucleotide or the oligonucleotide is not added to the nucleic acid, and continuing until the immobilized nucleic acid has a desired sequence and length.

Abstract: Methods and compositions are provided for repairing a polynucleotide so that it can be synthesized efficiently with improved fidelity and yield in, for example, an amplification reaction. This involves the use of a reaction mixture that includes a ligase and a cofactor selected from NAD+ or ATP and incubating the polynucleotide with the reaction mixture in the absence of Endonuclease VI. The reaction mixture may further contain an AP endonuclease and a polymerase. These enzymes are optionally selected according to their ability to withstand high temperatures so they can be included in an amplification mixture. The reaction mixture may be used prior to a polynucleotide synthesis reaction in which case enzymes that are not thermophilic may be used. The repair reaction is not time sensitive with respect to seconds, minutes or hours of incubation in the enzyme mixture.