Abstract: The present disclosure provides methods for forming emulsions. A method for forming an emulsion comprises: bringing a first fluid phase in contact with a second fluid phase that is immiscible with the first fluid phase to generate the emulsion comprising the plurality of droplets. The plurality of droplets may comprise (i) the first fluid phase or the second fluid phase, (ii) a first surfactant at an interface between the first fluid phase and the second fluid phase, and (iii) a second surfactant that is different than the first surfactant. Subsequent to generating the emulsion, collect or direct the plurality of droplets along a channel. Subsequent to collecting or directing the plurality of droplets along the channel, at most 5% of the plurality of droplets coalesce.

Abstract: Methods and systems are provided for sample preparation techniques and sequencing of macromolecular constituents of cells and other biological materials.

Abstract: Systems and methods for inferring a status of a cell population are provided. Described techniques allow deconvolving a first clonal population comprising a first plurality of cells of a species, wherein nucleic acid sequence reads from each cell in the first plurality of cells are obtained. The nucleic acid sequence reads are mapped into bins representing portions of a reference genome, and a pattern of sequence read counts for each cell across the multiple bins is used to assign a cell to a group, thereby inferring a mitotic status of the cell. The assignment of nucleic acid sequence reads into bins is also be used for segregating cells into classes based on a status of a certain biological marker in each cell. Comparison of sequence read counts for a subset of bins across the cell classes allows evaluating effect of a compound on a cell status.

Abstract: The present disclosure provides compositions, methods, systems, and devices for polynucleotide processing and analyte characterization. Such polynucleotide processing may be useful for a variety of applications, including analyte characterization by polynucleotide sequencing. 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), genomic DNA, and RNA (e.g., mRNA or CRISPR guide RNAs). Also described herein, are barcoded labelling agents and oligonucleotide molecules useful for “tagging” analytes for characterization.

Abstract: The present disclosure provides systems and methods for making a hydrogel comprising a cell, cell nucleus, or one or more components derived from a cell or cell nucleus. A method for making a hydrogel may comprise providing a cell or cell nucleus, a first polymer, wherein the first polymer comprises a plurality of first crosslink precursors, each of the plurality of first crosslink precursors comprising an azide group; providing a second polymer, wherein the second polymer comprises a plurality of second crosslink precursors, each of the plurality of second crosslink precursors comprising an alkyne group; and crosslinking the first polymer and the second polymer via a reaction between a first section of the first crosslink precursors and a second section of the second crosslink precursors, thereby providing the hydrogel comprising the cell or cell nucleus.

Abstract: The present disclosure provides methods and systems for cell and bead processing or analysis. A method for processing a cell or bead may comprise subjecting a bead to conditions sufficient to change a first characteristic or set of characteristics (e.g., cell or bead size). Such a method may further comprise subjecting the cell or bead to conditions sufficient to change a second characteristic or set of characteristics. In some cases, crosslinks may be formed within the cell or bead.

Abstract: Methods and systems are provided for sample preparation techniques and sequencing of macromolecular constituents of cells and other biological materials.

Abstract: The present disclosure provides compositions, methods, systems, and devices for polynucleotide processing and analyte characterization. Such polynucleotide processing may be useful for a variety of applications, including analyte characterization by polynucleotide sequencing. 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), genomic DNA, and RNA (e.g., mRNA or CRISPR guide RNAs). Also described herein, are barcoded labelling agents and oligonucleotide molecules useful for “tagging” analytes for characterization.

Abstract: The present disclosure provides compositions, methods, systems, and devices for polynucleotide processing and analyte characterization. Such polynucleotide processing may be useful for a variety of applications, including analyte characterization by polynucleotide sequencing. 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), genomic DNA, and RNA (e.g., mRNA or CRISPR guide RNAs). Also described herein, are barcoded labelling agents and oligonucleotide molecules useful for “tagging” analytes for characterization.

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: 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), genomic DNA, epigenetic information (e.g., accessible chromatin, DNA methylation), and RNA molecules (e.g., mRNA or CRISPR guide RNAs). In some cases, the disclosed methods comprise analysis of analytes from a cell using a cell bead.

Abstract: Provided herein are methods and systems for characterizing a nucleic acid molecule from a single cell. A method for characterizing a nucleic acid molecule from a single cell may comprise providing a partition (e.g., droplets or wells) comprising a single cell and a single bead. The single bead may comprise a nucleic acid barcode molecule. A nucleic acid molecule from the single cell and the nucleic acid barcode molecule may be used to generate a barcoded nucleic acid molecule for sequencing, which may be used to determine an epigenetic state or characteristic of the nucleic acid molecule as being associated with the single cell.

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 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, including cell lineage analysis. Cell lineage analysis may comprise the use of one or more lineage tracing nucleic acid molecules. The disclosed methods may comprise using a lineage tracing nucleic acid molecule to identify a biological particle with one or more progenitor cells.

Abstract: The present disclosure provides compositions, methods, systems, and devices for polynucleotide processing and analyte characterization from one or more cells. Such polynucleotide processing may be useful for a variety of applications, including characterization of major histocompatibility complex (MHC) molecules. The compositions, methods, systems, and devices disclosed herein generally describe peptides and barcoded oligonucleotides, which can be bound to a bead, such as a gel bead, useful for characterizing MHC molecules from one or more cells.

Abstract: The present disclosure provides compositions, methods, systems, and devices for polynucleotide processing and analyte characterization from one or more cells. Such polynucleotide processing may be useful for a variety of applications, including generation of labeled macromolecules, including major mistocompatability complex (MHC) molecules, dextramers, etc. Labeled macromolecules may be generated using an in vitro transcription reaction. Labeled macromolecules may be generated in one or more partitions.

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 compositions, methods, systems, and devices for polynucleotide processing and analyte characterization. Such polynucleotide processing may be useful for a variety of applications, including analyte characterization by polynucleotide sequencing. 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), genomic DNA, and RNA (e.g., mRNA or CRISPR guide RNAs). Also described herein, are barcoded labelling agents and oligonucleotide molecules useful for “tagging” analytes for characterization.

Abstract: Methods and systems are provided for sample preparation techniques and sequencing of macromolecular constituents of cells and other biological materials.

Abstract: The present disclosure provides systems and methods for making a hydrogel comprising a cell, cell nucleus, or one or more components derived from a cell or cell nucleus. A method for making a hydrogel may comprise providing a cell or cell nucleus, a first polymer, wherein the first polymer comprises a plurality of first crosslink precursors, each of the plurality of first crosslink precursors comprising an azide group; providing a second polymer, wherein the second polymer comprises a plurality of second crosslink precursors, each of the plurality of second crosslink precursors comprising an alkyne group; and crosslinking the first polymer and the second polymer via a reaction between a first section of the first crosslink precursors and a second section of the second crosslink precursors, thereby providing the hydrogel comprising the cell or cell nucleus.