The present disclosure relates to the field of biotechnology, in particular, to a combination product for detecting DNA. The product includes ribonuclease H II and a probe; the probe is a single-stranded probe and has a sequence which can be partially or entirely complementary to a target DNA molecule to be detected, and one or more RNA bases are embedded in the complementary region of the probe and divide the complementary region of the probe into at least two segments, each of which independently has DNA bases and base substitutions of less than or equal to 13 in total.

The present disclosure relates to the field of biotechnology, in particular, to a combination product for detecting DNA. The product includes ribonuclease H II and a probe; the probe is a single-stranded probe and has a sequence which can be partially or entirely complementary to a target DNA molecule to be detected, and one or more RNA bases are embedded in the complementary region of the probe and divide the complementary region of the probe into at least two segments, each of which independently has DNA bases and base substitutions of less than or equal to 13 in total.

The invention provides methods for accelerated synthesis of nucleic acids, and related compositions which involve the use of organic amines in the nucleic acid synthesis reaction mixture. The invention also provides methods for reducing processing steps associated with nucleic acid synthesis. The invention further provides methods for screening compounds that have positive benefits on the synthesis of nucleic acids.

The invention provides methods for accelerated synthesis of nucleic acids, and related compositions which involve the use of organic amines in the nucleic acid synthesis reaction mixture. The invention also provides methods for reducing processing steps associated with nucleic acid synthesis. The invention further provides methods for screening compounds that have positive benefits on the synthesis of nucleic acids.

The present disclosure provides, inter alia, methods and compositions (e.g., conjugates) for imaging, at high spatial resolution, targets of interest.

The present disclosure provides, inter alia, methods and compositions (e.g., conjugates) for imaging, at high spatial resolution, targets of interest.

The present invention relates to a method for enrichment of target DNA with high GC content based on target sequence capture and multiple displacement amplification, as well as a kit suitable for this method. The present invention also relates to a method for constructing a sequencing library of target DNA with high GC content based on the enrichment method of the present invention.

The present invention relates to a method for enrichment of target DNA with high GC content based on target sequence capture and multiple displacement amplification, as well as a kit suitable for this method. The present invention also relates to a method for constructing a sequencing library of target DNA with high GC content based on the enrichment method of the present invention.

Embodiments disclosed herein provide methods for constructing a DNA profile comprising: providing a nucleic acid sample, amplifying the nucleic acid sample with a plurality of primers that specifically hybridize to at least one target sequence comprising a SNP and at least one target sequence comprising a tandem repeat, and determining the genotypes of the at least one SNP and at least one tandem repeat in the amplification products, thereby constructing the DNA profile of the nucleic acid sample. Embodiments disclosed herein further provide a plurality of primers that specifically hybridize to at least one short target sequence and at least one long target sequence in a nucleic acid sample, wherein amplifying the nucleic acid sample using the plurality of primers in a single reaction results in a short amplification product and a long amplification product, wherein each of the plurality of primers comprises one or more tag sequences.

The invention provides methods for simultaneously amplifying multiple nucleic acid regions of interest in one reaction volume as well as methods for selecting a library of primers for use in such amplification methods. The invention also provides library of primers with desirable characteristics, such as minimal formation of amplified primer dimers or other non-target amplicons.