Abstract: System for detection and/or analysis of nucleic acids using nanowires to detect covalent modification of nucleic acids.

Abstract: The present teachings provide novel methods for amplifying short nucleic acids. In some embodiments, the present teachings provide novel methods for linearly amplifying a collection of micro RNAs by using temperature cycling during a reverse transcription reaction. The cycling can comprise at least 20 cycles of an annealing temperature segment of 10° C.-30° C., and a denaturation temperature segment of 35° C.-60° C. In some embodiments, the temperature cycled reaction can comprise an osmolyte.

Abstract: Apparatus and methods for separating different polynucleotide populations in a mixture are provided, wherein different polynucleotides or polynucleotide populations are captured on different solid support. After hybridization, polynucleotides are selectively released from a selected support by altering a physical property of that support. The released polynucleotides can be eluted from a common flow path and isolated.

Abstract: Methods for genotyping a sample comprising nucleic acid are provided. The methods comprise analyzing STR and SNP loci.

Abstract: A system is provided that can include: a plurality of retainment regions, where each retainment region is adapted to retain a respective type of an oligonucleotide supported on a respective support; a mixture retainment region; a handling device; a control unit adapted to control the handling device; and a separating unit adapted to simultaneously separate different supported oligonucleotides from their respective supports. A method is provided that can include: pooling together a plurality of supported oligonucleotides to form a mixture; and simultaneously separating the oligonucleotides of the supported oligonucleotides in the mixture from their supports.

Abstract: Polypeptides labelled with a donor and acceptor pair of dyes selected from a dibenzorhodamine dye and a diamino-benzophenoxazine dye are peptide conjugates which are useful for intracellular and bead-based assays with fluorescence detection. Peptide conjugates with a caspase-recognition site undergo cleavage into peptide fragments which may be detected, located, and quantitated by the changes in fluorescence. Intracellular cleavage of peptide conjugates is correlated with apoptosis.

Abstract: The present invention concerns methods and compositions involving the production or generation of siRNA mixtures or pools capable of triggering RNA-mediated interference (RNAi) in a cell. Compositions of the invention include kits that include reagents for producing or generating siRNA pools. The present invention further concerns methods using polypeptides with RNase III activity for generating siRNA mixtures or pools that effect RNAi, including the generation of a number of RNA molecules to the same target gene.

Abstract: Biological reagent carrier devices and methods are disclosed, which employ RFID techniques to associate information with biological reagents.

Abstract: This invention is related to PNA probes, probe sets, mixtures, methods and kits pertaining to the determination of Mycoplasma and related Mollicutes.

Abstract: Systems and methods for multiple analyte detection include a system for distribution of a biological sample that includes a substrate, wherein the substrate includes a plurality of sample chambers, a sample introduction channel for each sample chamber, and a venting channel for each sample chamber. The system may further include a preloaded reagent contained in each sample chamber and configured for nucleic acid analysis of a biological sample that enters the substrate and a sealing instrument configured to be placed in contact with the substrate to seal each sample chamber so as to substantially prevent sample contained in each sample chamber from flowing out of each sample chamber. The substrate can be constructed of detection-compatible and assay-compatible materials.

Abstract: Methods, reagents, and kits for (mis)ligating oligonucleotide probes or for identifying at least one target nucleotide are disclosed. One can enhance the generation of misligation product using a ligase under reaction conditions and with reagents where that particular ligase is prone to misligation. Alternatively, one can decrease or avoid generating misligation products using a particular ligase under reaction conditions and using reagents where that ligase is at least less prone to misligation. In certain embodiments, the recombinant ligase from Archaeoglobus fulgidus (Afu) is employed due to its unique misligation properties.

Abstract: The present teachings are generally directed to methods for normalizing at least one species of small nucleic acid that is present in a population of small nucleic acid species, wherein the relative concentration of at least one small nucleic acid species is substantially greater than the relative concentration of at least one other small nucleic acid species in the population. At least one small nucleic acid species is normalized using a multiplicity of primers comprising degenerate sequences. In some embodiments, a small nucleic acid species is identified by inserting at least part of an extension product from a normalized population into a vector and subsequently sequencing the insert. In some embodiments, a small nucleic acid species is identified by determining the sequence of at least part of an extension product.

Abstract: Fluorescent polymeric materials are disclosed comprising a polymer and one or more lipid soluble rhodamine dyes. The materials are especially useful in the preparation of multicolored microparticles, especially multicolored polystyrene microparticle, for use in the multiplexed analysis of a plurality of analytes in a single sample. When excited by a light source, the materials give off a unique emission based on the nature, concentration and ratio of the dyes therein. Methods of preparing and using said materials are also disclosed.

Abstract: The present teachings relate to methods, compositions, and kits for detecting one or more target polynucleotide sequences in a sample, and methods compositions and kits for forming concatameric ligation products. In some embodiments of the present teachings, oligonucleotides are hybridized to complementary target polynucleotides and are ligated together to form a concatameric ligation product. In some embodiments of the present teachings, the concatameric ligation product can be amplified, and the identity and quantity of the target polynucleotides determined based on sequence introduced in the ligation reaction. Some embodiments of the present teachings provide methods for removing unligated probes from the reaction mixture. Some embodiments of the present teachings provide for highly multiplexed detection, identification, and quantification of a plurality of target polynucleotides using a variety of analytical procedures.

Abstract: The invention provides compositions, methods and kits for high speed, high resolution of analytes by capillary electrophoresis starting with uncoated capillaries. The compositions comprise a sieving component, comprising a non-crosslinked acrylamide polymer, and a surface interaction component, comprising at least one uncharged and non-crosslinked water-soluble silica-adsorbing polymer. Methods for employing the novel compositions in capillary electrophoresis are provided. Kits comprising the novel compositions for use in the novel methods are also provided.

Abstract: A microfluidic device may include a sample distribution network including a plurality of sample chambers configured to be loaded with biological sample for biological testing of the biological sample while in the sample chambers, the biological sample having a meniscus that moves within the sample chambers during loading. The sample distribution network may further include a plurality of inlet channels, each inlet channel being in flow communication with and configured to flow biological sample to a respective sample chamber, and a plurality of outlet channels, each outlet channel being in flow communication and configured to flow biological sample from a respective sample chamber. At least some of the sample chambers may include a physical modification configured to control the movement of the meniscus so as to control bubble formation within the at least some sample chambers.

Abstract: The present teachings generally relate to fluorescent dyes, linkable forms of fluorescent dyes, energy transfer dyes, reagents labeled with fluorescent dyes and uses thereof.

Abstract: The present teachings provide a detection cell for a biological material and methods for detecting biological material including a photosensitive material optically coupled to an interior volume containing the biological material so to avoid optical components or an external light source.

Abstract: The invention relates to a device for performing biological reactions in a nucleic acid sample. The device can comprise a reaction vessel receiving element that includes a plurality of reaction vessel holders and a gastight jacket or equalization plate containing a fluid changeable between liquid and gaseous states. The gastight jacket or equalization plate can be configured to provide temperature equalization among the reaction vessel holders. The reaction vessel receiving element can also include at least one Peltier element, a cooling element, and a controller configured to cycle the device through a predetermined time-temperature profile via heating and cooling.

Abstract: Sample preparation processes for in situ RNA or DNA analysis, methods and compositions therefor are provided. Processes provided herein allow DNA or RNA analysis to be carried out in the same tube or on an aliquot of the prepared sample without centrifugation or extraction. The preparation process can be carried out at room temperature in as little as seven minutes and is amenable to high throughput processing using manual or robotic platforms.