Abstract: The present invention is directed to methods, compositions and systems for capturing and analyzing sequence information contained in targeted regions of a genome. Such targeted regions may include exomes, partial exomes, introns, combinations of exonic and intronic regions, genes, panels of genes, and any other subsets of a whole genome that may be of interest.

Abstract: The present disclosure provides compositions, methods, systems, and devices for polynucleotide processing and analyte characterization from a single cell. Such polynucleotide processing may be useful for a variety of applications. The compositions, methods, systems, and devices disclosed herein generally describe barcoded oligonucleotides, which can be bound to a bead, such as a gel bead, useful for characterizing one or more analytes including, for example, protein (e.g., cell surface or intracellular proteins) and chromatin (e.g., accessible chromatin).

Abstract: The present invention is directed to methods, compositions and systems for analyzing sequence information while retaining structural and molecular context of that sequence information.

Abstract: The present disclosure provides compositions, methods, systems, and devices for polynucleotide processing. Such polynucleotide processing may be useful for a variety of applications, including polynucleotide sequencing.

Abstract: The present invention is directed to methods, compositions and systems for analyzing sequence information while retaining structural and molecular context of that sequence information.

Abstract: The present disclosure provides methods, compositions and systems for analyzing individual cells or cell populations through a partitioned analysis of contents of individual cells or cell populations, such as cancer cells and cells of the immune system. Individual cells or cell populations may be co-partitioned with processing reagents for accessing cellular contents, and for uniquely identifying the content of a given cell or cell population, and subsequently analyzing the content of the cell and characterizing it as having derived from an individual cell or cell population, including analysis and characterization of nucleic acid(s) from the cell through sequencing.

Abstract: The present disclosure provides compositions, methods, systems, and devices for polynucleotide processing. Such polynucleotide processing may be useful for a variety of applications, including polynucleotide sequencing.

Abstract: The present disclosure provides methods, compositions and systems for analyzing individual cells or cell populations through a partitioned analysis of contents of individual cells or cell populations, such as cancer cells and cells of the immune system. Individual cells or cell populations may be co-partitioned with processing reagents for accessing cellular contents, and for uniquely identifying the content of a given cell or cell population, and subsequently analyzing the content of the cell and characterizing it as having derived from an individual cell or cell population, including analysis and characterization of nucleic acid(s) from the cell through sequencing.

Abstract: The present invention is directed to methods, compositions and systems for analyzing sequence information while retaining structural and molecular context of that sequence information.

Abstract: Provided herein are safe harbor loci and methods for identifying and using safe harbor loci to engineer cells to express transgenes. The safe harbor loci exhibit increased transgene knock-in efficiency and allow for increased, stable expression of transgenes in engineered cells. Guide ribonucleic acids (gRNAs) may be used for insertion of transgenes in the safe harbor loci.

Abstract: Methods and systems for sample preparation techniques that allow amplification (e.g., whole genome amplification) and sequencing of chromatin accessible regions of single cells are provided. The methods and systems generally operate by forming or providing partitions (e.g., droplets) including a single biological particle and a single bead comprising a barcoded oligonucleotide. The preparation of barcoded next-generation sequencing libraries prepared from a single cell is facilitated by the transposon-mediated transposition and fragmentation of a target nucleic acid sequence. The methods and systems may be configured to allow the implementation of single-operation or multi-operation chemical and/or biochemical processing within the partitions.

Abstract: Provided herein are safe harbor loci and methods for identifying and using safe harbor loci to engineer cells to express transgenes. The safe harbor loci exhibit increased transgene knock-in efficiency and allow for increased, stable expression of transgenes in engineered cells. Guide ribonucleic acids (gRNAs) may be used for insertion of transgenes in the safe harbor loci.

Abstract: Provided herein are safe harbor loci and methods for identifying and using safe harbor loci to engineer cells to express transgenes. The safe harbor loci exhibit increased transgene knock-in efficiency and allow for increased, stable expression of transgenes in engineered cells. Guide ribonucleic acids (gRNAs) may be used for insertion of transgenes in the safe harbor loci.

Abstract: Methods and systems for sample preparation techniques that allow amplification (e.g., whole genome amplification) and sequencing of chromatin accessible regions of single cells are provided. The methods and systems generally operate by forming or providing partitions (e.g., droplets) including a single biological particle and a single bead comprising a barcoded oligonucleotide. The preparation of barcoded next-generation sequencing libraries prepared from a single cell is facilitated by the transposon-mediated transposition and fragmentation of a target nucleic acid sequence. The methods and systems may be configured to allow the implementation of single-operation or multi-operation chemical and/or biochemical processing within the partitions.

Abstract: The present disclosure provides compositions, methods, systems, and devices for polynucleotide processing and antigen screening. Polynucleotide processing may be useful for a variety of applications. Antigen screening may comprise the use of one or more engineered cells. Engineered cells may be useful for characterizing one or more analytes including, for example, a polypeptide antigen.

Abstract: Methods and systems for sample preparation techniques that allow amplification (e.g., whole genome amplification) and sequencing of chromatin accessible regions of single cells are provided. The methods and systems generally operate by forming or providing partitions (e.g., droplets) including a single biological particle and a single bead comprising a barcoded oligonucleotide. The preparation of barcoded next-generation sequencing libraries prepared from a single cell is facilitated by the transposon-mediated transposition and fragmentation of a target nucleic acid sequence. The methods and systems may be configured to allow the implementation of single-operation or multi-operation chemical and/or biochemical processing within the partitions.

Abstract: Systems and methods for determining structural variation and phasing using variant call data obtained from nucleic acid of a biological sample are provided. Sequence reads are obtained, each comprising a portion corresponding to a subset of the test nucleic acid and a portion encoding a barcode independent of the sequencing data. Bin information is obtained. Each bin represents a different portion of the sample nucleic acid. Each bin corresponds to a set of sequence reads in a plurality of sets of sequence reads formed from the sequence reads such that each sequence read in a respective set of sequence reads corresponds to a subset of the nucleic acid represented by the bin corresponding to the respective set. Binomial tests identify bin pairs having more sequence reads with the same barcode in common than expected by chance. Probabilistic models determine structural variation likelihood from the sequence reads of these bin pairs.

Abstract: The disclosure provides methods and systems for producing single cell RNA sequencing data. Single nucleotide polymorphisms (SNPs) identified in such data can be used to distinguish subpopulations of cells within a mixed population.

Abstract: The present disclosure provides compositions, methods, systems, and devices for polynucleotide processing and analyte characterization from a single cell. Such polynucleotide processing may be useful for a variety of applications. The compositions, methods, systems, and devices disclosed herein generally describe barcoded oligonucleotides, which can be bound to a bead, such as a gel bead, useful for characterizing one or more analytes including, for example, protein (e.g., cell surface or intracellular proteins) and chromatin (e.g., accessible chromatin).

Abstract: The present invention is directed to methods, compositions and systems for capturing and analyzing sequence information contained in targeted regions of a genome. Such targeted regions may include exomes, partial exomes, introns, combinations of exonic and intronic regions, genes, panels of genes, and any other subsets of a whole genome that may be of interest.