Improved solid supports and methods for analyzing target nucleotide sequences are provided herein. Certain improvements are directed to efficiently preparing nucleic acids that comprise nucleotide sequences identical to or substantially identical to one or more target nucleotide sequences, or complement thereof. The prepared nucleic acids include a reference sequence that facilitates sequence analysis. The solid supports and methods provided herein minimize the number of steps required by published sequence analysis methodologies, and thereby offer improved sequence analysis efficiency.

Improved solid supports and methods for analyzing target nucleotide sequences are provided herein. Certain improvements are directed to efficiently preparing nucleic acids that comprise nucleotide sequences identical to or substantially identical to one or more target nucleotide sequences, or complement thereof. The prepared nucleic acids include a reference sequence that facilitates sequence analysis. The solid supports and methods provided herein minimize the number of steps required by published sequence analysis methodologies, and thereby offer improved sequence analysis efficiency.

Kits and methods of using the kits for analyzing macromolecules, including peptides, polypeptides, and proteins, employing nucleic acid encoding are disclosed. The sample analysis kits employ nucleic acid encoding and/or nucleic acid recording of a molecular interaction and/or reaction, such as recognition events (e.g., between an antigen and an antibody, between a modified terminal amino acid residue, or between a small molecule or peptide therapeutic and a target, etc.). Additional barcoding reagents, such as those for cycle-specific barcoding (e.g., “clocking”), compartment barcoding, combinatorial barcoding, spatial barcoding, or any combination thereof, may be included in the kits. The sample may comprise macromolecules, including peptides, polypeptides, and proteins, and the recording may generate molecular interaction and/or reaction information, and/or polypeptide sequence information. The kits may be used in high-throughput, multiplexed, and/or automated analysis, and are suitable for analysis of a proteome or subset thereof.

Kits and methods of using the kits for analyzing macromolecules, including peptides, polypeptides, and proteins, employing nucleic acid encoding are disclosed. The sample analysis kits employ nucleic acid encoding and/or nucleic acid recording of a molecular interaction and/or reaction, such as recognition events (e.g., between an antigen and an antibody, between a modified terminal amino acid residue, or between a small molecule or peptide therapeutic and a target, etc.). Additional barcoding reagents, such as those for cycle-specific barcoding (e.g., “clocking”), compartment barcoding, combinatorial barcoding, spatial barcoding, or any combination thereof, may be included in the kits. The sample may comprise macromolecules, including peptides, polypeptides, and proteins, and the recording may generate molecular interaction and/or reaction information, and/or polypeptide sequence information. The kits may be used in high-throughput, multiplexed, and/or automated analysis, and are suitable for analysis of a proteome or subset thereof.

The present invention relates to a method of detecting specific nucleic acid sequences and a device for performing the method therein. The specific nucleic acid may be prepared from a subject-specimen or from an environmental specimen and the method is performed in isothermal conditions.

The present invention relates to a method of detecting specific nucleic acid sequences and a device for performing the method therein. The specific nucleic acid may be prepared from a subject-specimen or from an environmental specimen and the method is performed in isothermal conditions.

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.

Polynucleotide sequencing methods for sequencing one or more polynucleotide templates use primers bound to a surface as sequencing primers. The surface primers may include at least a portion of a surface oligonucleotide used during cluster formation. The sequencing methods may be used for single stranded sequencing or double stranded sequencing. Double stranded sequencing methods may employ an enzyme that has nick-translation activity. A kit includes all the reagents needed for sequencing does not include sequencing primers. The kit may be used to accomplish the sequencing methods of the present disclosure.

Polynucleotide sequencing methods for sequencing one or more polynucleotide templates use primers bound to a surface as sequencing primers. The surface primers may include at least a portion of a surface oligonucleotide used during cluster formation. The sequencing methods may be used for single stranded sequencing or double stranded sequencing. Double stranded sequencing methods may employ an enzyme that has nick-translation activity. A kit includes all the reagents needed for sequencing does not include sequencing primers. The kit may be used to accomplish the sequencing methods of the present disclosure.