The methods, compositions, and kits of the disclosure provide a novel approach for a whole genome, unbiased DNA analysis method that can be performed on limited amounts of DNA. can be used to analyze DNA to determine its modification status. Aspects of the disclosure relate to a method for amplifying bisulfite-treated deoxyribonucleic acid (DNA) molecules comprising: (a) ligating an adaptor to the DNA molecules, wherein the adaptor comprises a RNA polymerase promoter comprising bisulfite-protected cytosines; (b) treating the ligated DNA molecules with bisulfite; (c) hybridizing the bisulfite-treated DNA molecules with a primer; (d) extending the hybridized primer to make double stranded DNA; and (e) in vitro transcribing the double-stranded DNA to make RNA.

The present invention is concerned with linear double stranded DNA, which is coupled to a single support or a tag at the 3′ end of its non-coding strand and methods for producing said linear double stranded DNA. The present invention further relates to the use of said linear double stranded DNA in an RNA in vitro transcription reaction and also to a method for producing RNA in vitro. The present invention also relates to a bioreactor for RNA in vitro transcription.

The present invention is concerned with linear double stranded DNA, which is coupled to a single support or a tag at the 3′ end of its non-coding strand and methods for producing said linear double stranded DNA. The present invention further relates to the use of said linear double stranded DNA in an RNA in vitro transcription reaction and also to a method for producing RNA in vitro. The present invention also relates to a bioreactor for RNA in vitro transcription.

Described herein is a coated building panel comprising: a substrate comprising a first major surface opposite a second major surface; a coating atop at least one of the first major surface or the second major surface, the coating comprising: a binder composition; an antimicrobial composition comprising a cationic compound; a stabilization composition comprising: a silicate compound; and a surfactant having an HLB value between about 10 and about 14.

Described herein is a coated building panel comprising: a substrate comprising a first major surface opposite a second major surface; a coating atop at least one of the first major surface or the second major surface, the coating comprising: a binder composition; an antimicrobial composition comprising a cationic compound; a stabilization composition comprising: a silicate compound; and a surfactant having an HLB value between about 10 and about 14.

Disclosed are formulations, including both liquid and lyophilized formulations, comprising a far-red dye probe and a non-linear surfactant or foamban. Also disclosed are related methods for preparing a lyophilized far-red dye probe formulation as well as related kits and diagnostic products.

Disclosed are formulations, including both liquid and lyophilized formulations, comprising a far-red dye probe and a non-linear surfactant or foamban. Also disclosed are related methods for preparing a lyophilized far-red dye probe formulation as well as related kits and diagnostic products.

A manufacturing method of an operation pipe, which use a gel to perform operations such as separation, extraction, purification, elution, recovery, analysis and the like of target components that are biological components such as nucleic acids. More specifically, a manufacturing method of an operation pipe, with which it is possible to perform operations such as separation, extraction, purification, elution, recovery, analysis and the like of target components in a sealable pipe by operating magnetic particles in the pipe under a magnetic field from outside of the pipe.

A manufacturing method of an operation pipe, which use a gel to perform operations such as separation, extraction, purification, elution, recovery, analysis and the like of target components that are biological components such as nucleic acids. More specifically, a manufacturing method of an operation pipe, with which it is possible to perform operations such as separation, extraction, purification, elution, recovery, analysis and the like of target components in a sealable pipe by operating magnetic particles in the pipe under a magnetic field from outside of the pipe.

The disclosure provides methods for amplification of paired transcript sequences from a single cell, such as, but not limited to alpha and beta T cell receptor (TCR) sequences from a single T cell. The method can include: placing a single T cell into a cell lysis solution to provide a T cell lysate comprising RNA; generating first strand cDNA from the RNA; amplifying the first strand cDNA to provide amplified cDNA; and amplifying the alpha and beta TCR sequences from the amplified cDNA in a single reaction, wherein the alpha and beta TCR sequences are amplified using three sets of TCR amplification primers. In some instances, the methods can be performed using no more than six sets of primers.