Patent application number | Description | Published |
20080199916 | Multiplex targeted amplification using flap nuclease - 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. | 08-21-2008 |
20090004701 | Multiplex oligonucleotide addition and target amplification - 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. | 01-01-2009 |
20100151471 | METHODS OF MONITORING CONDITIONS BY SEQUENCE ANALYSIS - There is a need for improved methods for determining the diagnosis and prognosis of patients with conditions, including autoimmune disease and cancer. Provided herein are methods for using DNA sequencing to identify personalized biomarkers in patients with autoimmune disease and other conditions. Identified biomarkers can be used to determine the disease state for a subject with an autoimmune disease or other condition. | 06-17-2010 |
20110124052 | Multiplex Targeted Amplification Using Flap Nuclease - 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. | 05-26-2011 |
20110151438 | Methods of Analysis of Methylation - Methods for determining the methylation status of a plurality of cytosines are disclosed. In some aspects genomic DNA target sequences containing CpGs are targeted for analysis by multiplex amplification using target specific probes that can be specifically degraded prior to amplification. The targets may be modified with bisulfite prior to amplification. In another aspect targets are cut with methylation sensitive or insensitive restriction enzymes and marked with a tag using the target specific probes. The presence or absence of methylation may be determined using methylation sensitive restriction enzyme or bisulfite treatment. Detection in many embodiments employs hybridization to tag arrays, genotyping arrays or resequencing arrays. | 06-23-2011 |
20110207134 | MONITORING HEALTH AND DISEASE STATUS USING CLONOTYPE PROFILES - There is a need for improved methods for determining the diagnosis and prognosis of patients with conditions, including autoimmune disease and cancer, especially lymphoid neoplasms, such as lymphomas and leukemias. Provided herein are methods for using DNA sequencing to identify personalized, or patient-specific biomarkers in patients with lymphoid neoplasms, autoimmune disease and other conditions. Identified biomarkers can be used to determine and/or monitor the disease state for a subject with an associated lymphoid disorder or autoimmune disease or other condition. In particular, the invention provides a sensitive method for monitoring lymphoid neoplasms that undergo clonal evolutions without the need to development alternative assays for the evolved or mutated clones serving as patient-specific biomarkers. | 08-25-2011 |
20110207135 | METHODS OF MONITORING CONDITIONS BY SEQUENCE ANALYSIS - The invention is directed to methods of generating sequence profiles of populations of nucleic acids, whose member nucleic acids contain regions of high variability, such as populations of nucleic acids encoding T cell receptors or B cell receptors. In one aspect, the invention provides pluralities of sets of primers for generating nested sets of templates from nucleic acids in such populations, thereby insuring the production of at least one template from which sequence reads are generated, despite such variability, or dispite limited lenghs or quality of sequence reads. In another aspect, members of such populations are bidirectionally sequenced so that further sequence information is obtained by analyzing overlapping sequence reads in the zones of highest variability. | 08-25-2011 |
20110207617 | SINGLE CELL ANALYSIS BY POLYMERASE CYCLING ASSEMBLY - The invention provides a method of making measurements on individual cells of a population, particularly cells that have identifying nucleic acid sequences, such as lymphoid cells. 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 to other cellular nucleic acids of interest. The fusion products of such PCA reaction are then sequenced and tabulated to generate multiparameter data for cells of the population. | 08-25-2011 |
20120135409 | METHODS OF MONITORING CONDITIONS BY SEQUENCE ANALYSIS - There is a need for improved methods for determining the diagnosis and prognosis of patients with conditions, including autoimmune disease and cancer. Provided herein are methods for using DNA sequencing to identify personalized biomarkers in patients with autoimmune disease and other conditions. Identified biomarkers can be used to determine the disease state for a subject with an autoimmune disease or other condition. | 05-31-2012 |
20130005584 | METHODS OF MONITORING CONDITIONS BY SEQUENCE ANALYSIS - There is a need for improved methods for determining the diagnosis and prognosis of patients with conditions, including autoimmune disease and cancer. Provided herein are methods for using DNA sequencing to identify personalized biomarkers in patients with autoimmune disease and other conditions. Identified biomarkers can be used to determine the disease state for a subject with an autoimmune disease or other condition. | 01-03-2013 |
20130017957 | METHODS OF MONITORING CONDITIONS BY SEQUENCE ANALYSIS - There is a need for improved methods for determining the diagnosis and prognosis of patients with conditions, including autoimmune disease and cancer. Provided herein are methods for using DNA sequencing to identify personalized biomarkers in patients with autoimmune disease and other conditions. Identified biomarkers can be used to determine the disease state for a subject with an autoimmune disease or other condition. | 01-17-2013 |
20130065768 | RANDOM ARRAY SEQUENCING OF LOW-COMPLEXITY LIBRARIES - 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. | 03-14-2013 |
20130136799 | MONITORING HEALTH AND DISEASE STATUS USING CLONOTYPE PROFILES - There is a need for improved methods for determining the diagnosis and prognosis of patients with conditions, including autoimmune disease and cancer, especially lymphoid neoplasms, such as lymphomas and leukemias. Provided herein are methods for using DNA sequencing to identify personalized, or patient-specific biomarkers in patients with lymphoid neoplasms, autoimmune disease and other conditions. Identified biomarkers can be used to determine and/or monitor the disease state for a subject with an associated lymphoid disorder or autoimmune disease or other condition. In particular, the invention provides a sensitive method for monitoring lymphoid neoplasms that undergo clonal evolutions without the need to development alternative assays for the evolved or mutated clones serving as patient-specific biomarkers. | 05-30-2013 |
20130150252 | DETECTION AND MEASUREMENT OF TISSUE-INFILTRATING LYMPHOCYTES - The present invention is drawn to methods for measuring numbers, levels, and/or ratios of cells, such as lymphocytes, infiltrated into a solid tissue, such as a tumor or a tissue affected by an autoimmune disease, and to methods for making patient prognoses based on such measurements. In one aspect, methods of the invention comprise sorting lymphocytes from an accessible tissue, such as peripheral blood, into functional subsets, such as cytotoxic T cells and regulatory T cells, and generating clonotype profiles of each subset. An inaccessible disease-affected tissue is sampled and one or more clonotype profiles are generated. From the latter clonotype profiles, levels lymphocytes in each of the functional subsets are determined in the disease-affected tissue by their clonotypes, which are identified from lymphocytes sorted into subsets from the accessible tissue. | 06-13-2013 |
20130196328 | RARE CLONOTYPES AND USES THEREOF - The invention is directed to a method of selecting disease-correlated clonotypes that have a reduced likelihood of producing a false positive signal of relapse when, used to monitor minimal residual disease. In accordance with the invention, candidate correlating clonotype are obtained from a patient, the rarity of each is determined either by comparison with a clonotype database or a clonotype model, and one or more of the rarest of such clonotypes are used to monitor the minimal residual disease. | 08-01-2013 |
20130202718 | MONITORING IMMUNOGLOBULIN HEAVY CHAIN EVOLUTION IN B-CELL ACUTE LYMPHOBLASTIC LEUKEMIA - The invention is directed to methods of monitoring B-cell lymphoid proliferative disorders, such as B-cell acute lymphoblastic leukemias, by measuring the presence, absence and/or levels of correlating, or index, clonotypes and related clonotypes that have evolved therefrom, for example, as part of the disease condition. In one aspect, such methods are implemented by generating sequencing-based clonotype profiles and determining frequencies of correlating, or index, clonotypes present, including new clonotypes that have evolved therefrom, particularly, in the case of B-cell ALL, by VH substitution. The invention also includes use of such monitoring information to modify treatment status of a patient. | 08-08-2013 |
20130236895 | METHOD OF SEQUENCE DETERMINATION USING SEQUENCE TAGS - The invention is directed to the use of sequence tags to improve sequence determination of amplicons of related sequences, particularly large and complex amplicons, such as those comprising recombined nucleic acids encoding immune receptor molecules. In one aspect, sequence reads having the same sequence tags are aligned after which final base calls are determined from a (possibly weighted) average base call from sequence read base calls at each position. Similarly, in another aspect, sequence reads comprising series of incorporation signals are aligned by common sequence tags and base calls in homopolymer regions are made as a function incorporation signal values at each “flow” position. | 09-12-2013 |
20130267427 | SINGLE CELL ANALYSIS BY POLYMERASE CYCLING ASSEMBLY - The invention provides a method of making measurements on individual cells of a population, particularly cells that have identifying nucleic acid sequences, such as lymphoid cells, 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 to other cellular nucleic acids of interest. The fusion products of such PCA reaction are then sequenced and tabulated to generate multiparameter data for cells of the population. | 10-10-2013 |
20130302801 | DETECTION AND QUANTIFICATION OF SAMPLE CONTAMINATION IN IMMUNE REPERTOIRE ANALYSIS - The invention is directed to methods for detecting and quantifying nucleic acid contamination in a tissue sample of an individual containing T cells and/or B cells, which is used for generating a sequence-based clonotype profile. In one aspect, the invention is implemented by measuring the presence and/or level of an endogenous or exogenous nucleic acid tag by which nucleic acid from an intended individual can be distinguished from that of unintended individuals. Endogenous tags include genetic identity markers, such as short tandem repeats, rare clonotypes or the like, and exogenous tags include sequence tags employed to determine clonotype sequences from sequence reads. | 11-14-2013 |
20130324422 | DETECTING DISEASE-CORRELATED CLONOTYPES FROM FIXED SAMPLES - The invention is directed to a method for determining immunophenotypes of tissue-infiltrating lymphocytes in a solid tissue of a patient by (a) generating clonotype profiles from a sample of nucleic acid extracted from a fixed tissue sample from a solid tissue of the patient, where such tissue contains tissue-infiltrating lymphocytes; and (b) determining immunophenotypes of the tissue-infiltrating lymphocytes by (i) obtaining a sample of lymphocytes from peripheral blood of the patient; (ii) sorting the lymphocytes from peripheral blood into at least one subset based on different immunophenotypes of the lymphocytes; (iii) generating a clonotype profile for each of the at least one subset of lymphocytes; and (iv) determining immunophenotypes of lymphocytes in the fixed tissue sample by a correspondence between clonotypes of the fixed tissue sample and clonotypes of the at least one subset. | 12-05-2013 |
20130344066 | METHODS OF MONITORING CONDITIONS BY SEQUENCE ANALYSIS - There is a need for improved methods for determining the diagnosis and prognosis of patients with conditions, including autoimmune disease and cancer. Provided herein are methods for using DNA sequencing to identify personalized biomarkers in patients with autoimmune disease and other conditions. Identified biomarkers can be used to determine the disease state for a subject with an autoimmune disease or other condition. | 12-26-2013 |
20140235454 | MONITORING HEALTH AND DISEASE STATUS USING CLONOTYPE PROFILES - There is a need or improved methods for determining the diagnosis and prognosis of patients with conditions, including autoimmune disease and cancer, especially lymphoid neoplasms, such as lymphomas and leukemias. Provided herein are methods for using DNA sequencing to identify personalized, or patient-specific biomarkers in patients with lymphoid neoplasms, autoimmune disease and other conditions. Identified biomarkers can be used to determine and/or monitor the disease state for a subject with an associated lymphoid disorder or autoimmune disease or other condition. In particular, the invention provides a sensitive method for monitoring lymphoid neoplasms that undergo clonal evolutions without the need to development alternative assays for the evolved or mutated clones serving as patient-specific biomarkers. | 08-21-2014 |
20140255944 | MONITORING TREATMENT-RESISTANT CLONES IN LYMPHOID AND MYELOID NEOPLASMS BY RELATIVE LEVELS OF EVOLVED CLONOTYPES - The invention is directed to a method of monitoring or detecting treatment-resistant clones in a patient being treated for a lymphoid or myeloid neoplasm from which patient-specific correlating clonotypes have been identified. In some embodiments, such method includes the steps of obtaining a sample from the patient comprising T-cells and/or B-cells; amplifying molecules of nucleic acid from the T-cells and/or B-cells of the sample, the molecules of nucleic acid comprising recombined DNA sequences from T-cell receptor genes or immunoglobulin genes; sequencing the amplified molecules of nucleic acid to form a clonotype profile; determining from the clonotype profile a level of each correlating clonotype and clonotypes clonally evolved therefrom; and correlating a presence of a treatment-resistant clone of the neoplasm with a change in relative levels of the correlating clonotypes and clonotypes clonally evolved therefrom. In part, the invention permits one to distinguish between cases where treatment is effective but insufficiently intense and cases where a cancer clone arises that is resistant to a current treatment approach. | 09-11-2014 |
20140315725 | SEQUENCE ANALYSIS OF COMPLEX AMPLICONS - The invention is directed to methods of generating sequence profiles of populations of nucleic acids, whose member nucleic acids contain regions of high variability, such as populations of nucleic acids encoding T cell receptors or B cell receptors. In one aspect, the invention provides pluralities of sets of primers for generating nested sets of templates from nucleic acids in such populations, thereby insuring the production of at least one template from which sequence reads are generated, despite such variability, or despite limited lengths or quality of sequence reads. In another aspect, members of such populations are bidirectionally sequenced so that further sequence information is obtained by analyzing overlapping sequence reads in the zones of highest variability. | 10-23-2014 |
20140342367 | METHODS OF MONITORING CONDITIONS BY SEQUENCE ANALYSIS - There is a need for improved methods for determining the diagnosis and prognosis of patients with conditions, including autoimmune disease and cancer. Provided herein are methods for using DNA sequencing to identify personalized biomarkers in patients with autoimmune disease and other conditions. Identified biomarkers can be used to determine the disease state for a subject with an autoimmune disease or other condition. | 11-20-2014 |
20140356339 | SEQUENCE-BASED MEASURES OF IMMUNE RESPONSE - The invention is directed to methods of measuring an immune response by comparing sequence-based clonotype frequency data from successively measured clonotype profiles. In particular, the invention includes immunotherapies of cancers, such as lymphomas, that include sensitive pre- and post-vaccination sequence-based measurements of changes in a patient's immune repertoire, thereby providing a sensitive measure of the likelihood of treatment success. | 12-04-2014 |
20150065352 | MONITORING HEALTH AND DISEASE STATUS USING CLONOTYPE PROFILES - There is a need for improved methods for determining the diagnosis and prognosis of patients with conditions, including autoimmune disease and cancer, especially lymphoid neoplasms, such as lymphomas and leukemias. Provided herein are methods for using DNA sequencing to identify personalized, or patient-specific biomarkers in patients with lymphoid neoplasms, autoimmune disease and other conditions. Identified biomarkers can be used to determine and/or monitor the disease state for a subject with an associated lymphoid disorder or autoimmune disease or other condition. In particular, the invention provides a sensitive method for monitoring lymphoid neoplasms that undergo clonal evolutions without the need to development alternative assays for the evolved or mutated clones serving as patient-specific biomarkers. | 03-05-2015 |
20150152482 | Multiplex Targeted Amplification Using Flap Nuclease - 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. | 06-04-2015 |
Patent application number | Description | Published |
20140234835 | RARE CLONOTYPES AND USES THEREOF - The invention is directed to a method of selecting disease-correlated clonotypes that have a reduced likelihood of producing a false positive signal of relapse when used to monitor minimal residual disease. In accordance with the invention, candidate correlating clonotypes are obtained from a patient, the rarity of each is determined either by comparison with a clonotype database or a clonotype model, and one or more of the rarest of such clonotypes are used to monitor the minimal residual disease. | 08-21-2014 |
20140336059 | CLONOTYPES AS BIOMETRIC SPECIMEN TAGS - The invention is directed to methods for biometrically identifying or distinguishing biological specimens, such as patient specimens, as being from the same or different individuals by analysis of specimen clonotypes. The invention provides a direct or backup method for determining or confirming specimen identities. In one aspect, a method of the invention includes generating a first clonotype profile from a first specimen and forming therefrom an identifier set of clonotypes, which serves as a molecular fingerprint of the first specimen. Other specimens are determined to be from the same source individual or from a different source individual by generating clonotype profiles from such specimens and determining the presence or absence in such profiles of clonotypes of the identifier set of the first specimen. | 11-13-2014 |
20140342360 | METHOD OF MEASURING IMMUNE ACTIVATION - The invention is directed to methods for measuring immune activation by the level of clonotypes having the same unique regions and different isotype-determining regions. In one aspect, the method of the invention comprises forming a sequence-based clonotype profile from a sample containing B lymphocytes, wherein each clonotype of such profile comprises a unique region, such as a portion of a VDJ segment, and an isotype determining region, such as a portion of a C gene segment. Immune activation is indicated whenever the level of such clonotypes exceeds an upper bound of a reference range determined from multiple individual measurements or population measurements. | 11-20-2014 |
20140349883 | MONITORING TRANSFORMATION OF FOLLICULAR LYMPHOMA TO DIFFUSE LARGE B-CELL LYMPHOMA BY IMMUNE REPERTOIRE ANALYSIS - The invention is directed to a method of prognosing in an individual a transformation from follicular lymphoma to diffuse large B-cell lymphoma (DLBCL) by measuring changes and/or lack of changes in certain groups of related clonotypes, referred to herein as “clans,” in successive clonotype profiles of the individual. A clan may arise from a single lymphocyte progenitor that gives rise to many related lymphocyte progeny, each possessing and/or expressing a slightly different immunoglobulin receptor due to somatic mutation(s), such as base substitutions, inversions, related rearrangements resulting in common V(D)J gene segment usage, or the like. A higher likelihood of transformation from follicular lymphoma to DLBCL is correlated with the persistence of clans in successive clonotype profiles whose clonotype membership fails to undergo diversification over time. | 11-27-2014 |
20150031043 | DETERMINING PAIRED IMMUNE RECEPTOR CHAINS FROM FREQUENCY MATCHED SUBUNITS - The invention is directed to methods for determining nucleic acids that encode immune receptor chains originating from the same cell, that is, paired immune receptor chains. Methods of the invention comprise high-throughput sequencing of rearranged nucleic acids encoding immune receptors from one or more samples of lymphocytes. In one aspect, from a plurality of subsets of a sample, nucleic acids encoding separate chains of a pair are separately sequenced, wherein the size of the sample and the number of subsets are selected so that the distribution of lymphocytes approximates a binomial model. Paired chains are determined by identifying pairs that appear together or that are entirely absent in the subsets. | 01-29-2015 |
20150031553 | METHOD OF MEASURING IMMUNE ACTIVATION - The invention is directed to a method of detecting immune activation in an individual by measuring frequencies and sizes of certain groups of related clonotypes, referred to herein as “clans,” in a clonotype profile of the individual. A clan may arise from a single lymphocyte progenitor that gives rise to many related lymphocyte progeny, each possessing and/or expressing a slightly different immunoglobulin receptor due to somatic mutation(s), such as base substitutions, inversions, related rearrangements resulting in common V(D)J gene segment usage, or the like. Immune activation is correlated to frequencies and sizes of clans in a clonotype profile exceeding reference values for those features. | 01-29-2015 |
20150038346 | MONITORING IMMUNE RESPONSIVENESS TO CANCER VACCINATION - The invention is direct to a method for determining a cancer patient's immune responsiveness to anti-cancer vaccination. In one aspect, for each of a plurality of vaccinations, pairs of clonotype profiles are obtained, one immediately prior to vaccination and one during the period of peak immune response, usually within two to twenty days after the vaccination. Responsiveness is correlated to successive increases in identical clonotypes within each pair of clonotype profiles in at least two successive vaccinations. | 02-05-2015 |
20150247198 | MONITORING CLONOTYPES OF PLASMA CELL PROLIFERATIVE DISORDERS IN PERIPHERAL BLOOD - The invention is directed to sequencing-based methods for monitoring a minimal residual disease of a plasma cell proliferative disorder, such as multiple myeloma and/or MGUS, by one or more clonotypes correlated with the disorder. In some embodiments, such methods comprise the following steps: (a) obtaining a sample of peripheral blood from the patient; (b) amplifying molecules of nucleic acid from the sample, the molecules of nucleic acid comprising recombined DNA sequences from immunoglobulin genes; (c) sequencing the amplified molecules of nucleic acid to form a clonotype profile; and (d) determining from the clonotype profile a presence, absence and/or level of one or more patient-specific clonotypes correlated with the plasma cell proliferative disorder and phylogenic clonotypes thereof. | 09-03-2015 |
20150247201 | PREDICTING RELAPSE OF CHRONIC LYMPHOCYTIC LEUKEMIA PATIENTS TREATED BY ALLOGENEIC STEM CELL TRANSPLANTATION - The invention is directed to a prognostic indicator for CLL patients who have undergone an allogeneic stem cell transplant (SCT). The indicator is based on a method of monitoring levels and changes in levels of correlating clonotypes of the CLLs at successive time points. The prognostic indicator applies to patients who have survived for at least one year from an allogeneic SCT and includes criteria based on the following two measurements: (a) frequency of CLL correlating clonotypes (e.g. in terms of number per 10 | 09-03-2015 |