Abstract: An apparatus for detecting labeled beads is provided. The apparatus can include: one or more irradiation sources disposed for irradiating the one or more detection zones with radiation; at least one detector disposed for collecting charges corresponding to light signals emitted from labeled beads in the one or more detection zones, which have been excited by the radiation; and a system coupled to the at least one detector for effecting time delay integration of the charges by accumulating the charges before reading the charges at the output of the at least one detector.

Abstract: A miniaturized assembly is provided whereby a fluid sample can be divided into a plurality of sample portions in retaining wells and the sample fluid can be displaced from open ends of the wells while simultaneously being sealed in the wells. A method of dividing a fluid sample using the assembly is also provided.

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.

Abstract: Ligation-based methods and kits are disclosed for determining the degree of methylation of one or more target nucleotides. In certain embodiments, the methylation status of one or more target nucleotides is determined by generating misligation products. In certain embodiments, at least one target nucleotide is amplified prior to the ligation reaction. In certain embodiments, at least one ligation product, at least one ligation product surrogate, at least one misligation product, at least one misligation product surrogate, or combinations thereof are amplified. In certain embodiments, one or more ligation probes comprise at least one nucleotide analog, at least one Modification, at least one mismatched nucleotide, or combinations thereof.

Abstract: Microfluidic devices for manipulating relatively dense materials, such as colloidal rod particles, are provided. Microfluidic devices for separating a denser first material from a less-dense second material are provided. Methods of manipulating a relatively dense first material, for example, colloidal rod particles, and separating the first material from a less-dense second material, are provided. Methods of marking samples or sample components with relatively dense materials, are also provided.

Abstract: Compositions and methods of use are disclosed for clonally amplifying target polynucleotide sequences in solution and attaching the amplicons to a surface by activation of a masked binding moiety. In an embodiment, the amplicons comprise the masked binding moiety and the surface comprises a binding partner of the binding moiety. Upon activation of the binding moiety, the amplicons bind to the binding partner on the surface. In a non-limiting example, the masked binding moiety is caged biotin or caged fluorescein, while the corresponding binding partner is avidin or an anti-fluorescein antibody.

Abstract: Disclosed, among other things, are primers containing certain modified nucleobases in the 3? terminal region of the primers that provide reduced formation of primer-dimers during amplification reactions, and various methods of use thereof.

Abstract: An apparatus and method for thermal cycling including a pasting edge heater. The pasting edge heater can provide substantial temperature uniformity throughout the retaining elements during thermal cycling by a thermoelectric module.

Abstract: Intermediates and methods for forming passivated surfaces on oxide layers and articles produced thereby are described. Hydroxyl or hydroxide groups on the oxide surfaces are reacted with a metal reagent of the formula Y(L-Pol)m, where Y is a transition metal, magnesium or aluminum, L is oxygen, sulfur, selenium or an amine, and “Pol” represents a passivating agent such as a polyethylene glycol, a hydrocarbon, or a fluorocarbon. The resulting modified surface can be further reacted with a passivating agent having a phosphate functional group or a polyvalent reagent comprising a passivating moiety and a plurality of functional groups that are reactive with or that form complexes with Y. The passivating agent can also include a functional group such as biotin to provide surfaces with a desired functionality. The passivated surfaces exhibit minimal binding to bio-molecules and can be used in single-molecule detection schemes.

Abstract: The present teachings disclose methods for evaluation of sequence information to characterize putative heterozygous indel mutations. The mutation analysis methods utilize sequence and trace information to identify mixed-base presence resulting from allelic differences. These methods may be applied to identify and resolve single nucleotide polymorphisms, insertions, deletions, and other mutational events.

Abstract: The present teachings relate to DNA polymerases that have an F667Y mutation as defined with respect to Taq DNA polymerase and exhibit reduced discrimination against labeled nucleotides into polynucleotides. The teachings also include kits comprising the subject DNA polymerases and numerous methods of using the subject DNA polymerases, including uses for chain termination sequencing and PCR. The present teachings relate to DNA polymerases that have an F667Y mutation as defined with respect to Taq DNA polymerase and exhibit reduced discrimination against labeled nucleotides into polynucleotides. The teachings also include kits comprising the subject DNA polymerases and numerous methods of using the subject DNA polymerases, including uses for chain termination sequencing and PCR.

Abstract: The present invention relates generally to nucleobase polymer functionalizing reagents, to mobility-modified sequence-specific nucleobase polymers, to compositions comprising a plurality of mobility-modified sequence-specific nucleobase polymers, and to the use of such polymers and compositions in a variety of assays, such as, for example, for the detection of a plurality of selected nucleotide sequences within one or more target nucleic acids. The mobility-modifying polymers of the present invention include phosphoramidite reagents which can be joined to other mobility-modifying monomers and to sequence-specific oligonucleobase polymers via uncharged phosphate triester linkages. Addition of the mobility-modifying phosphoramidite reagents of the present invention to oligonucleobase polymers results in unexpectedly large effects the mobility of those modified oligonucleobase polymers, especially upon capillary electrophoresis in non-sieving media.

Abstract: The invention is directed to a method and device for simultaneously testing a sample for the presence, presence, and/or amounts of one or more of a plurality of selected analytes. The invention includes, in one aspect, device for detecting or quantitating a plurality of different analytes in a liquid sample. Each chamber may include analyte-specific reagent effective to react with a selected analyte that may be present in the sample, and detection means for detecting the signal. Also disclosed are methods utilizing the device.

Abstract: A vortex mixer and method for forming an emulsion wherein the mixer is adapted to form an emulsion with a desired droplet size and having a desired volume. The vortex mixer provides improved uniformity in emulsion preparation and may be used to create multiple emulsions simultaneously.

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

Abstract: A method for calibrating temperature can include cycling temperatures of a set of wells, wherein each well of the set comprises a sample with a spectrally distinguishable species. The method can further include measuring a signal from the spectrally distinguishable species for each well at a temperature during a first temperature cycle, and calibrating the temperatures for measuring the signal from each well during subsequent temperature cycles.

Abstract: Assemblies comprising nanoparticles and chemiluminescent substrates such as dioxetanes are provided. The assemblies can be used in assays to detect the presence and/or amount of a single analyte or multiple analytes in a sample. Methods of making the assemblies are also described.

Abstract: A thermal cycling device for thermally cycling samples of biological material contained in a microcard having a top and bottom surface. The thermal cycling device can include a sample block having an upper surface configured for engaging the bottom surface of a microcard, a vacuum device, and a temperature control system operatively connected with the sample block. The upper surface of the sample block may include a plurality of channels, the channels defining spaces between the sample block and the bottom surface of a microcard that may be positioned thereon. The vacuum device may be in fluid communication with the sample block for drawing gas out of the spaces defined by the channels in the sample block. The vacuum device may be configured for substantially maintaining a vacuum between the sample block and microcard so that a retention force is imparted on the microcard to urge the microcard toward the sample block.

Abstract: Disclosed are systems and methods for identifying and quantitating the presence of one or more DNA species in a sample population through PCR amplification. DNA species quantitation includes a determination of a threshold fluorescence value used in the assessment of the PCR amplification reaction. Various embodiments of the present invention incorporate an enhancement function useful in selecting appropriate threshold fluorescence values and facilitate the determination of DNA concentrations by quantitative PCR based methodologies.

Abstract: Disclosed are systems and methods for identifying and quantitating the presence of one or more DNA species in a sample population through PCR amplification. DNA species quantitation includes a determination of a threshold fluorescence value used in the assessment of the PCR amplification reaction. Various embodiments of the present invention incorporate an enhancement function useful in selecting appropriate threshold fluorescence values and facilitate the determination of DNA concentrations by quantitative PCR based methodologies.