In a method for immunologically quantifying a steroid, it is possible to exclude a steroid from cyclodextrin when a standard solution containing the steroid included in cyclodextrin is treated with a surfactant, which thereby suppresses the deviation in behavior of the antigen-antibody reaction between the specimen (test sample) and the standard solution, and then significantly improves the accuracy of steroid quantification.

Compositions comprising multiple hydrogel particles having substantially the same diameter, but with each subgrouping of particles from the multiple hydrogel particles having different associated values for one or more passive optical properties that can be deconvoluted using cytometric instrumentation. Each hydrogel particle from the multiple hydrogel particles can be functionalized with a different biochemical or chemical target from a set of targets. A method of preparing hydrogel particles includes forming droplets and polymerizing the droplets, with optional functionalization.

The present disclosure provides methods, systems, and kits for processing nucleic acid molecules. A method may comprise providing a template nucleic acid fragment (e.g., within a cell, cell bead, or cell nucleus) within a partition (e.g., a droplet or well) and subjecting the template nucleic acid fragment to one or more processes including a barcoding process and a single primer extension or amplification process. The processed template nucleic acid fragment may then be recovered from the partition and subjected to further amplification to provide material for subsequent sequencing analysis. The methods provided herein may permit simultaneous processing and analysis of both DNA and RNA molecules originating from the same cell, cell bead, or cell nucleus.

The present disclosure provides methods, systems, and kits for processing nucleic acid molecules. A method may comprise providing a template nucleic acid fragment (e.g., within a cell, cell bead, or cell nucleus) within a partition (e.g., a droplet or well) and subjecting the template nucleic acid fragment to one or more processes including a barcoding process and a single primer extension or amplification process. The processed template nucleic acid fragment may then be recovered from the partition and subjected to further amplification to provide material for subsequent sequencing analysis. The methods provided herein may permit simultaneous processing and analysis of both DNA and RNA molecules originating from the same cell, cell bead, or cell nucleus.

The present disclosure provides methods of processing or analyzing a sample. A method for processing a sample may comprise hybridizing a probe molecule to a target region of a nucleic acid molecule (e.g., a ribonucleic acid (RNA) molecule), barcoding the probe-nucleic acid molecule complex, and performing extension, denaturation, and amplification processes. A method for processing a sample may comprise hybridizing first and second probes to adjacent or non-adjacent target regions of a nucleic acid molecule (e.g., an RNA molecule), linking the first and second probes to provide a probe-linked nucleic acid molecule, and barcoding the probe-linked nucleic acid molecule. One or more processes of the methods described herein may be performed within a partition, such as a droplet or well. One or more processes of the methods described herein may be performed on a cell, such as a permeabilized cell.

The present disclosure provides methods of processing or analyzing a sample. A method for processing a sample may comprise hybridizing a probe molecule to a target region of a nucleic acid molecule (e.g., a ribonucleic acid (RNA) molecule), barcoding the probe-nucleic acid molecule complex, and performing extension, denaturation, and amplification processes. A method for processing a sample may comprise hybridizing first and second probes to adjacent or non-adjacent target regions of a nucleic acid molecule (e.g., an RNA molecule), linking the first and second probes to provide a probe-linked nucleic acid molecule, and barcoding the probe-linked nucleic acid molecule. One or more processes of the methods described herein may be performed within a partition, such as a droplet or well. One or more processes of the methods described herein may be performed on a cell, such as a permeabilized cell.

Provided are affinity-based methods of isolating biological entities via a surface antigen from a sample with non-chromatographic and chromatographic methods being provided. Also provided is a dextran polymer, kits for use in the method of isolating a biological entity and an apparatus for performing the methods.

Provided are affinity-based methods of isolating biological entities via a surface antigen from a sample with non-chromatographic and chromatographic methods being provided. Also provided is a dextran polymer, kits for use in the method of isolating a biological entity and an apparatus for performing the methods.

The invention is directed to a conjugate characterized by high brightness to enable detection of rarely expressed epitopes and release of the label from the epitope to enable downstream applications such as sequential imaging or cell sorting and with the general formula (I) Yn−P1(P2−X.sub.m).sub.o, with X: detection moiety; P1: first enzymatically degradable spacer; P2: second enzymatically degradable spacer; Y: antigen recognizing moiety and n, m, o integers between 1 and 100 with the provision that first spacer P1 and second spacer P2 are not degradable by the same enzyme.

The invention is directed to a conjugate characterized by high brightness to enable detection of rarely expressed epitopes and release of the label from the epitope to enable downstream applications such as sequential imaging or cell sorting and with the general formula (I) Yn−P1(P2−X.sub.m).sub.o, with X: detection moiety; P1: first enzymatically degradable spacer; P2: second enzymatically degradable spacer; Y: antigen recognizing moiety and n, m, o integers between 1 and 100 with the provision that first spacer P1 and second spacer P2 are not degradable by the same enzyme.