Abstract: 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.

Abstract: 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.

Abstract: 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.

Abstract: 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.

Abstract: 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.

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: 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.

Abstract: 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.

Abstract: 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.

Abstract: 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.

Abstract: 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.

Abstract: 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.

Abstract: 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.