Abstract: The invention is directed to novel methods of multiplexing nucleic acid reactions, including amplification, detection and genotyping. The invention relies on the use of precircle probes that are circularized in the presence of the corresponding target nucleic acids, cleaved, and then amplified.

Abstract: The invention is directed to novel methods of multiplexing nucleic acid reactions, including amplification, detection and genotyping. The invention relies on the use of precircle probes that are circularized in the presence of the corresponding target nucleic acids, cleaved, and then amplified.

Abstract: The invention is directed to novel methods of multiplexing nucleic acid reactions, including amplification, detection and genotyping. The invention relies on the use of precircle probes that are circularized in the presence of the corresponding target nucleic acids, cleaved, and then amplified.

Abstract: Systems and methods of enhancing fluorescent labeling strategies as well as systems and methods of using non-fluorescent and/or non-optic labeling strategies, e.g., as with single molecule sequencing using ZMWs, are described.

Abstract: The invention provides method for genotyping specific sets of polymorphisms in a single multiplex reaction. The polymorphisms are selected to be of interest in detecting genetic variation that alters individuals' metabolism, distribution, extretion and transport of pharmacological compounds. In preferred aspects the genotyping employs a multiplex hybridization-based assay. In some aspects combinations of methods are employed to allow the combination of polymorphisms to be interrogated. The invention also provides nucleic acid standards for validating the performance of such hybridization-based assays.

Abstract: The invention provides a method for genotyping interfering polymorphic loci in a target polynucleotide, such as a strand of genomic DNA, in a multiplex hybridization-based assay. The invention also provides nucleic acid standards for validating the performance of such hybridization-based assays. In one aspect, the method of the invention is carried out by providing for each interfering polymorphic locus one or more probes so that at least one probe is capable of forming a perfectly match duplex at the locus regardless of the characteristic sequence of an adjacent polymorphism.

Abstract: The invention provides a method for genotyping interfering polymorphic loci in a target polynucleotide, such as a strand of genomic DNA, in a multiplex hybridization-based assay. The invention also provides nucleic acid standards for validating the performance of such hybridization-based assays. In one aspect, the method of the invention is carried out by providing for each interfering polymorphic locus one or more probes so that at least one probe is capable of forming a perfectly match duplex at the locus regardless of the characteristic sequence of an adjacent polymorphism.

Abstract: The invention is directed to novel methods of multiplexing nucleic acid reactions, including amplification, detection and genotyping. The invention relies on the use of precircle probes that are circularized in the presence of the corresponding target nucleic acids, cleaved, and then amplified.

Abstract: The invention is directed to novel methods of multiplexing nucleic acid reactions, including amplification, detection and genotyping. The invention relies on the use of precircle probes that are circularized in the presence of the corresponding target nucleic acids, cleaved, and then amplified.

Abstract: The invention provides a method for genotyping interfering polymorphic loci in a target polynucleotide, such as a strand of genomic DNA, in a multiplex hybridization-based assay. The invention also provides nucleic acid standards for validating the performance of such hybridization-based assays. In one aspect, the method of the invention is carried out by providing for each interfering polymorphic locus one or more probes so that at least one probe is capable of forming a perfectly match duplex at the locus regardless of the characteristic sequence of an adjacent polymorphism.

Abstract: The invention is directed to novel methods of multiplexing nucleic acid reactions, including amplification, detection and genotyping. The invention relies on the use of precircle probes that are circularized in the presence of the corresponding target nucleic acids, cleaved, and then amplified.

Abstract: The invention is directed to novel methods of multiplexing nucleic acid reactions, including amplification, detection and genotyping. The invention relies on the use of precircle probes that are circularized in the presence of the corresponding target nucleic acids, cleaved, and then amplified.

Abstract: The invention provides a method of synthesizing complex mixtures of long polynucleotides by separately synthesizing and assembling shorter component oligonucleotides. In one aspect, pairs of oligonucleotides that form components of such polynucleotides are synthesized on one or more microarrays, or other large-scale parallel solid phase synthesis platforms, after which they are released. Members of each pair contain unique complementary barcode sequences that are used match-up pairs in a hybridization reaction to form duplexes. Such duplexes are then extended with a DNA polymerase and the resulting extension product is amplified to form an amplicon. The amplicon may be either used directly as the desired polynucleotide, or it may undergo further processing, such as capture on solid phase supports and/or additional enzymatic or chemical processing, to produce a desired polynucleotide product, such as a circularizing probe for multiplex analysis of genomic DNA, or the like.

Abstract: The invention provides methods for multiplexing readouts from multiple hybridization-based assays that each comprise one or more hybridization or annealing steps and one or more enzymatic processing steps. In one aspect, the invention permits simultaneously analysis of a plurality of genomes by separately hybridizing a set of probes with the different genomes to form sets of probe-genome complexes in separate reaction mixtures that are combined and enzymatically treated to form amplifiable probes. From such amplifiable probes, labeled probes are produced so that for each different locus of each different genome there is a unique labeled probe, which are then specifically hybridized to their respective complements on a microarray. In another aspect, labeled oligonucleotide tags are produced from amplifiable probes. The invention is useful in applications of multiplexed hybridization-based assays for measuring characteristics of genomic samples taken from many different individuals.

Abstract: The present invention provides systems and methods for large-scale genetic measurements by generating from a sample labeled target sequences whose length, orientation, label, and degree of overlap and complementarity are tailored to corresponding end-attached probes of a solid support so that signal-to-noise ratios of measurement from specifically hybridized labeled target sequences are maximized. Systems for implementing methods of the invention include a set of sample-interacting probes to produce amplicons that either each contain a segment of a target polynucleotide or an oligonucleotide tag that corresponds to a segment of a target polynucleotide, one or more solid phase supports that contain a plurality of end-attached probes, and methods of generating from sample-interacting probe amplicons from which labeled target sequences are tailored for hybridization to the solid phase supports, such as microarrays.

Abstract: The invention is directed to novel methods of multiplexing nucleic acid reactions, including amplification, detection and genotyping. The invention relies on the use of precircle probes that are circularized in the presence of the corresponding target nucleic acids, cleaved, and then amplified.

Abstract: The invention is directed to novel methods of multiplexing nucleic acid reactions, including amplification, detection and genotyping. The invention relies on the use of precircle probes that are circularized in the presence of the corresponding target nucleic acids, cleaved, and then amplified.

Abstract: The invention is directed to novel methods of multiplexing nucleic acid reactions, including amplification, detection and genotyping. The invention relies on the use of precircle probes that are circularized in the presence of the corresponding target nucleic acids, cleaved, and then amplified.