Novel methods for identification and analysis of mRNA are provided herein. The methods may involve digestion and fingerprinting analysis.

Methods for human identification using polymorphisms in the Penta E short tandem repeat locus are significant in preventing allelic drop out. An exemplary method encompasses (a) contacting a first primer to a nucleic acid sample to be analyzed, (b) contacting a second primer to the nucleic acid sample, and (c) subjecting the nucleic acid sample, the first primer, and the second primer to an amplification reaction, and thereby forming an amplification product. The first primer, the second primer, or both the first and second primers can be labeled with a non-nucleic-acid label. Additionally, or alternatively, the amplification product can include an adenosine at position 14 from the 5′ end of SEQ ID NO:1, a thymidine at position 21 from the 5′ end of SEQ ID NO:2, or both an adenine at position 14 and a thymidine at position 21 from the 5′ end of SEQ ID NO:3.

Methods for human identification using polymorphisms in the Penta E short tandem repeat locus are significant in preventing allelic drop out. An exemplary method encompasses (a) contacting a first primer to a nucleic acid sample to be analyzed, (b) contacting a second primer to the nucleic acid sample, and (c) subjecting the nucleic acid sample, the first primer, and the second primer to an amplification reaction, and thereby forming an amplification product. The first primer, the second primer, or both the first and second primers can be labeled with a non-nucleic-acid label. Additionally, or alternatively, the amplification product can include an adenosine at position 14 from the 5′ end of SEQ ID NO:1, a thymidine at position 21 from the 5′ end of SEQ ID NO:2, or both an adenine at position 14 and a thymidine at position 21 from the 5′ end of SEQ ID NO:3.

The present disclosure relates, in some embodiments, to isolated nucleic acids (also referred to as cap guides) and methods of use thereof for RNA mapping. The disclosure is based, in part, on guide RNAs that bind to a position that is at least 7 nucleotides downstream of the first nucleotide of an mRNA molecule.

The present disclosure relates, in some embodiments, to isolated nucleic acids (also referred to as cap guides) and methods of use thereof for RNA mapping. The disclosure is based, in part, on guide RNAs that bind to a position that is at least 7 nucleotides downstream of the first nucleotide of an mRNA molecule.

Disclosed herein are mechanically-strained oligonucleotide constructs comprising two oligonucleotides that when hybridized results in a bent double-stranded oligonucleotide. The constructs may be used to probe oligonucleotide interactions with an analyte to detect interactions with metal ions or compounds.

Disclosed herein are mechanically-strained oligonucleotide constructs comprising two oligonucleotides that when hybridized results in a bent double-stranded oligonucleotide. The constructs may be used to probe oligonucleotide interactions with an analyte to detect interactions with metal ions or compounds.

The development of a simple sequence repeat (SSR) core primer group based on the whole genome sequence of pomegranate and the applications thereof are disclosed. The primer group includes 11 primer pairs: PG080, PG130, PG139, PG152, PG153, PG140, PG098, PG070, PG077, PG090, and PG093. The SSR core primer group of the present disclosure has the advantages such as high polymorphism, good repeatability, stable amplification, and clear and easy to score bands, and is applicable to the fields of pomegranate variety identification, DNA fingerprinting construction, genetic diversity assessment and phylogenetic study, and the like, providing a new tool for pomegranate molecular marker-assisted selection and having an excellent application prospect.

Provided herein are methods for simultaneous spatio-temporal measurement of gene expression and cellular activity.

Provided herein are methods for simultaneous spatio-temporal measurement of gene expression and cellular activity.