Abstract: The invention is directed to sequence-based profiling of populations of nucleic acids by multiplex amplification and attachment of one or more sequence tags to target nucleic acids anchor copies thereof followed by high-throughput sequencing of the amplification product. In some embodiments, the invention includes successive steps of primer extension, removal of unextended primers and addition of new primers either for amplification (for example by PRC) or for additional primer extension. Some embodiments of the invention are directed to minimal residual disease (MRD) analysis of patients being treated for cancer. Sequence tags incorporated into sequence reads provide an efficient means for determining clonotypes and at the same time provide a convenient means for detecting carry-over contamination from other samples of the same patient or from samples of a different patient which were tested in the same laboratory.

Abstract: Methods for multiplex amplification of a plurality of targets of distinct sequence from a complex mixture are disclosed. In one aspect targets are circularized using a single circularization probe that is complementary to two regions in the target that flank a region to be amplified. The targets may hybridize to the circularization probe so that 5? or 3? flaps are generated and methods for removing flaps and circularizing the resulting product are disclosed. In another aspect targets are hybridized to dU probes so that 5? and 3? flaps are generated. The flaps are cleaved using 5? or 3? flap endonucleases or 3? to 5? exonucleases. The target sequences are then ligated to common primers, the dU probes digested and the ligated targets amplified.

Abstract: The invention includes a method for determining the disease status of an individual suffering from ankylosing spondylitis by monitoring the individual's T-cell repertoire for the presence and/or level of clonotypes encoding T-cell receptor chains with segments identical to and/or related to the peptide LCASSLEASGSSYNEQFFGPGTRLTV (SEQ ID NO: 1) or the peptide VYFCASSDSSGSTDTQYFGPGTRLTV (SEQ ID NO: 2). The invention also includes therapeutic antibodies specific for these peptides for ameliorating the effects of ankylosing spondylitis.

Abstract: The invention provides a method of making measurements on individual cells of a population by forming reactors containing single cells and a predetermined number, usually one, homogeneous sequence tag. In one aspect, the invention provides a method of making multiparameter measurements on individual cells of such a population by carrying out a polymerase cycling assembly (PCA) reaction to link their identifying nucleic acid sequences, such as sequence tag copies derived from a homogeneous sequence tag, to other cellular nucleic acids of interest, thereby forming fusion products. The fusion products of such PCA reactions are then sequenced and tabulated to generate multiparameter data for cells of the population.

Abstract: Methods for multiplex amplification of a plurality of targets of distinct sequence from a complex mixture are disclosed. In one aspect targets are circularized using a single circularization probe that is complementary to two regions in the target that flank a region to be amplified. The targets may hybridize to the circularization probe so that 5? or 3? flaps are generated and methods for removing flaps and circularizing the resulting product are disclosed. In another aspect targets are hybridized to dU probes so that 5? and 3? flaps are generated. The flaps are cleaved using 5? or 3? flap endonucleases or 3? to 5? exonucleases. The target sequences are then ligated to common primers, the dU probes digested and the ligated targets amplified.

Abstract: Methods for multiplex amplification of a plurality of targets of distinct sequence from a complex mixture are disclosed. In one aspect targets are circularized using a single circularization probe that is complementary to two regions in the target that flank a region to be amplified. The targets may hybridize to the circularization probe so that 5? or 3? flaps are generated and methods for removing flaps and circularizing the resulting product are disclosed. In another aspect targets are hybridized to dU probes so that 5? and 3? flaps are generated. The flaps are cleaved using 5? or 3? flap endonucleases or 3? to 5? exonucleases. The target sequences are then ligated to common primers, the dU probes digested and the ligated targets amplified.

Abstract: The invention relates to methods of labeling nucleic acids, such as fragments of genomic DNA, with unique sequence it referred to herein as “mosaic tag,” prior to amplification and/or sequencing. Such sequence tags are useful for identifying amplification and sequencing errors. Mosaic tags minimize sequencing and amplification artifacts due to inappropriate annealing priming, hairpin formation, or the like, that may occur with completely random sequence tags of the prior art. In one aspect, mosaic tags are sequence tags that comprise alternating constant regions and variable regions, wherein each constant region has it position in the mosaic tag and comprises a predetermined sequence of nucleotides and each variable region has a position in the mosaic tag and comprises a predetermined number of randomly selected nucleotides.

Abstract: The invention is directed to a method of sequencing low-complexity amplicons randomly arrayed at high density on a surface. Methods of the invention include preparing amplicons for sequencing by a sets of primers that ensure initial signals front different amplicons on the surface will be evenly distributed among the different nucleotides being added in a sequencing by synthesis operation.

Abstract: Methods for multiplex amplification of a plurality of targets of distinct sequence from a complex mixture are disclosed. In one aspect targets are circularized using a single circularization probe that is complementary to two regions in the target that flank a region to be amplified. The targets may hybridize to the circularization probe so that 5? or 3? flaps are generated and methods for removing flaps and circularizing the resulting product are disclosed. In another aspect targets are hybridized to dU probes so that 5? and 3? flaps are generated. The flaps are cleaved using 5? or 3? flap endonucleases or 3? to 5? exonucleases. The target sequences are then ligated to common primers, the dU probes digested and the ligated targets amplified.

Abstract: Methods for multiplex amplification of a plurality of targets of distinct sequence from a complex mixture are disclosed. In one aspect targets are circularized using a single circularization probe that is complementary to two regions in the target that flank a region to be amplified. The targets may hybridize to the circularization probe so that 5? or 3? flaps are generated and methods for removing flaps and circularizing the resulting product are disclosed. In another aspect targets are hybridized to dU probes so that 5? and 3? flaps are generated. The flaps are cleaved using 5? or 3? flap endonucleases or 3? to 5? exonucleases. The target sequences are then ligated to common primers, the dU probes digested and the ligated targets amplified.

Abstract: Methods for appending oligonucleotides directly to nucleic acid templates, particularly to defined sites internal to single-stranded templates, are described. Appending first and second common priming sites to each of a plurality of templates of distinct sequence allows the subsequent stoichiometric amplification of a plurality of templates of distinct sequence.

Abstract: Methods for detection of variant alleles are disclosed. In preferred aspects variants are detected by hybridization patterns to arrays of probes that are contain a single mismatch to a reference sequence, thus reducing the number of probes needed for resequencing by hybridization. The target capture method used is Target Amplification by Capture and Ligation (TACL), and is capable of amplifying many thousands of loci together. Mismatch Repair Detection (MRD) is used as an allele enrichment method to efficiently sort variant and non-variant alleles in thousands of loci simultaneously.

Abstract: Methods for appending oligonucleotides directly to nucleic acid templates, particularly to defined sites internal to single-stranded templates, are described. Appending first and second common priming sites to each of a plurality of templates of distinct sequence allows the subsequent stoichiometric amplification of a plurality of templates of distinct sequence.

Abstract: Methods for multiplex amplification of a plurality of targets of distinct sequence from a complex mixture are disclosed. In one aspect targets are circularized using a single circularization probe that is complementary to two regions in the target that flank a region to be amplified. The targets may hybridize to the circularization probe so that 5? or 3? flaps are generated and methods for removing flaps and circularizing the resulting product are disclosed. In another aspect targets are hybridized to dU probes so that 5? and 3? flaps are generated. The flaps are cleaved using 5? or 3? flap endonucleases or 3? to 5? exonucleases. The target sequences are then ligated to common primers, the dU probes digested and the ligated targets amplified.

Abstract: Methods for appending oligonucleotides directly to nucleic acid templates, particularly to defined sites internal to single-stranded templates, are described. Appending first and second common priming sites to each of a plurality of templates of distinct sequence allows the subsequent stoichiometric amplification of a plurality of templates of distinct sequence.

Abstract: In one aspect, the invention provides a method of enriching a pool of nucleic acid duplexes for heteroduplexes containing sequences that vary from those of a reference DNA population. A mixture of test sequences, that is, nucleic acids suspected of containing one or more mutations or rare alleles, and corresponding reference sequences are denatured and reassociated so that duplexes form comprising heteroduplexes and homoduplexes. In accordance with one aspect of the invention, whenever a subset of heteroduplexes contains mismatched sequences, the mismatches are corrected so that the sequences of strands from the test population are preserved, or selected. The preserved or selected sequences may then be denatured and reassociated with additional sequences from the reference population to once again form duplexes comprising homoduplexes and heteroduplexes, thereby generating an enriched population of variant sequences.

Abstract: Methods for appending oligonucleotides directly to nucleic acid templates, particularly to defined sites internal to single-stranded templates, are described. Appending first and second common priming sites to each of a plurality of templates of distinct sequence allows the subsequent stoichiometric amplification of a plurality of templates of distinct sequence.