Abstract: Specifically, disclosed herein is a tertiary cooperative nucleic acid sequence.

Abstract: Devices, containers, and methods are provided for performing biological analysis in a closed environment. Illustrative biological analyses include high density nucleic acid amplification and detection and immuno-PCR.

Abstract: Systems, methods, and apparatus are provided for external control testing of an assay system.

Abstract: Systems, apparatus, and methods for conducting amplification-based analyses, including PCR testing. In one illustrative embodiment, a system may include a testing container assembly and a testing unit. The testing container assembly may include a sample collection port, a sample preparation chamber, and a reaction chamber. The sample collection port may include a bottom opening sealed by a plug member. In use, the testing container assembly may be placed in a seat of the testing unit with a sample in the sample collection port, closed by a lid. A plunger may dislodge the plug member and the sample drawn into the sample preparation chamber. Once sample preparation is complete, a channel may be opened, and the prepared sample flows into the reaction chamber which is then sealed. Testing including amplification reactions, may then be performed, followed by detection, as by detecting fluorescent emissions in the reaction chamber.

Abstract: Methods, sample vessels, and instruments are provided for quantitative and semi-quantitative amplification.

Abstract: Devices, containers, and methods are provided for performing biological analysis in a closed environment. Illustrative biological analyses include high density nucleic acid amplification and detection and immuno-PCR.

Abstract: Devices, containers, and methods are provided for performing biological analysis in a closed environment. Illustrative biological analyses include high density nucleic acid amplification and detection and immune-PCR.

Abstract: Method and sample vessels are provided for amplification and sequencing of nucleic acids in a sample.

Abstract: Methods and containers are provided for identifying a species, illustratively a bacterial species. Illustrative methods comprise amplifying various genes in the nucleic acid from the bacterial species in a single reaction mixture using pairs of outer first-stage primers designed to hybridize to generally conserved regions of the respective genes to generate a plurality of first-stage amplicons, dividing the reaction mixture into a plurality of second-stage reactions, each using a unique pair of second-stage primers, each pair of second-stage primers specific for a target bacterial species or subset of bacterial species, detecting which of the second-stage reactions amplified, and identifying the bacterial species based on second-stage amplification.

Abstract: Method and sample vessels are provided for amplification and sequencing of nucleic acids in a sample.

Abstract: Methods, containers, and mixtures are provided for performing PCR using molecular crowders.

Abstract: Methods for typing a strain of an organism are provided, the methods comprising the steps of amplifying, in a single reaction mixture containing nucleic acid from the organism, dividing the reaction mixture into a plurality of sets of second-stage reaction wells, each set of second-stage reaction wells containing a different pair of second-stage primers, subjecting each of the second-stage reaction wells to amplification conditions to generate a plurality of second-stage amplicons, melting the second-stage amplicons to generate a melting curve for each second-stage amplicon, and identifying the strain of the organism from the melting curves.

Abstract: Methods, sample vessels, and instruments are provided for quantitative and semi-quantitative amplification.

Abstract: Devices, containers, and methods are provided for performing biological analysis in a closed environment. Illustrative biological analyses include nucleic acid amplification and detection and immuno-PCR.

Abstract: Devices, containers, and methods are provided for performing biological analysis in a closed environment. Illustrative biological analyzes include high density nucleic acid amplification and detection and immune-PCR.

Abstract: Devices, containers, and methods are provided for performing biological analysis in a closed environment. Illustrative biological analyses include high density nucleic acid amplification and detection and immune-PCR.

Abstract: Methods and containers are provided for identifying a species, illustratively a bacterial species. Illustrative methods comprise amplifying various genes in the nucleic acid from the bacterial species in a single reaction mixture using pairs of outer first-stage primers designed to hybridize to generally conserved regions of the respective genes to generate a plurality of first-stage amplicons, dividing the reaction mixture into a plurality of second-stage reactions, each using a unique pair of second-stage primers, each pair of second-stage primers specific for a target bacterial species or subset of bacterial species, detecting which of the second-stage reactions amplified, and identifying the bacterial species based on second-stage amplification.

Abstract: Methods and kits are provided for nucleic acid analysis. In an illustrative method a target nucleic acid is amplified using a first primer and a second primer, wherein the first primer comprises a probe element specific for a locus of the target nucleic acid and a template-specific primer region, and the probe element is 5? of the template-specific primer region, subsequently allowing the probe element to hybridize to the locus to form a hairpin, generating a melting curve for the probe element by measuring fluorescence from a dsDNA binding dye as the mixture is heated, wherein the dye is not covalently bound to the first primer, and analyzing the shape of the melting curve. Kits may include one or more of the first and second primers, the dsDNA binding dye, a polymerase, and dNTPs.

Abstract: Methods and containers are provided for identifying a species, illustratively a bacterial species. Illustrative methods comprise amplifying various genes in the nucleic acid from the bacterial species in a single reaction mixture using pairs of outer first-stage primers designed to hybridize to generally conserved regions of the respective genes to generate a plurality of first-stage amplicons, dividing the reaction mixture into a plurality of second-stage reactions, each using a unique pair of second-stage primers, each pair of second-stage primers specific for a target bacterial species or subset of bacterial species, detecting which of the second-stage reactions amplified, and identifying the bacterial species based on second-stage amplification.

Abstract: Methods for typing a strain of an organism are provided, the methods comprising the steps of amplifying, in a single reaction mixture containing nucleic acid from the organism, dividing the reaction mixture into a plurality of sets of second-stage reaction wells, each set of second-stage reaction wells containing a different pair of second-stage primers, subjecting each of the second-stage reaction wells to amplification conditions to generate a plurality of second-stage amplicons, melting the second-stage amplicons to generate a melting curve for each second-stage amplicon, and identifying the strain of the organism from the melting curves.