Provided herein are methods of releasing an extended capture probe from a substrate and uses of the same.

Provided herein are methods of releasing an extended capture probe from a substrate and uses of the same.

Disclosed herein are compositions and methods for determining a presence or abundance of an analyte in a biological sample. The methods disclosed herein include: (a) providing a biological sample on a substrate comprising a plurality of capture probes, wherein a capture probe of the plurality of capture probes comprises a capture domain; (b) releasing the analyte from the biological sample; (c) affixing a stretching moiety to the analyte; (d) hybridizing the analyte to the capture domain of the capture probe; (e) applying a stretching force to the stretching moiety, thereby elongating the analyte hybridized to the capture domain; and (f) generating an extended capture probe using the analyte as a template.

Disclosed herein are compositions and methods for determining a presence or abundance of an analyte in a biological sample. The methods disclosed herein include: (a) providing a biological sample on a substrate comprising a plurality of capture probes, wherein a capture probe of the plurality of capture probes comprises a capture domain; (b) releasing the analyte from the biological sample; (c) affixing a stretching moiety to the analyte; (d) hybridizing the analyte to the capture domain of the capture probe; (e) applying a stretching force to the stretching moiety, thereby elongating the analyte hybridized to the capture domain; and (f) generating an extended capture probe using the analyte as a template.

This disclosure provides a powerful screening platform that combines pre-templated instant partitions with DNA-encoded library (DEL) technologies to identify target small molecule interactions and analyze their intracellular effects in single cell resolution using methods that require minimal sample preparation and affordable sequencing costs.

This disclosure provides a powerful screening platform that combines pre-templated instant partitions with DNA-encoded library (DEL) technologies to identify target small molecule interactions and analyze their intracellular effects in single cell resolution using methods that require minimal sample preparation and affordable sequencing costs.

A method for matching a three-dimensional first image of at least one discrete entity with a three-dimensional second image of the at least one discrete entity is provided. The at least one discrete entity includes a biological sample and a plurality of constituent parts of a marker. The method includes: generating a first representation of the marker from the first image; generating a second representation of the marker from the second image; and based upon the representations matching, matching the first image with the second image; or based upon the representations not matching, rejecting the match. Generating the representations includes determining vectors from at least one reference item to at least some of the constituent parts of the marker, determining for the vectors at least one value of a property, and generating the representations of the marker based on a frequency of the at least one value of the property.

A method for matching a three-dimensional first image of at least one discrete entity with a three-dimensional second image of the at least one discrete entity is provided. The at least one discrete entity includes a biological sample and a plurality of constituent parts of a marker. The method includes: generating a first representation of the marker from the first image; generating a second representation of the marker from the second image; and based upon the representations matching, matching the first image with the second image; or based upon the representations not matching, rejecting the match. Generating the representations includes determining vectors from at least one reference item to at least some of the constituent parts of the marker, determining for the vectors at least one value of a property, and generating the representations of the marker based on a frequency of the at least one value of the property.

The present invention is directed to improved methods for conducting immunoassays. The methods are designed to amplify signals in immunoassays and anchor immunoassay complexes employed therein.

The present invention is directed to improved methods for conducting immunoassays. The methods are designed to amplify signals in immunoassays and anchor immunoassay complexes employed therein.