The present disclosure is related to methods and materials for depleting unwanted RNA species from a nucleic acid sample. In particular, the present disclosure describes how to remove unwanted rRNA, tRNA, mRNA or other RNA species that could interfere with the analysis, manipulation and study of target RNA molecules in a sample.

The present application provides methods for detecting a target nucleic acid molecule in a sample comprising contacting said sample with a ligatable probe comprising one or more parts and allowing said probe to hybridise to the target nucleic acid molecule, ligating any probe which has hybridised to the target nucleic acid molecule, amplifying the ligated probe, and detecting the amplification product, thereby to detect the target nucleic acid molecule, wherein said probes comprise at least one ribonucleotide at or near to a ligation site and/or wherein the probe or a probe part comprises an additional sequence 5′ to a target-specific binding site which is not hybridised to the target nucleic acid molecule upon hybridisation of the probe to the target nucleic acid molecule and forms a 5′ flap containing one or more nucleotides at its 3′ end that is cleaved prior to ligation, and methods of synthesising a DNA molecule with Phi29 DNA polymerase using a template nucleic acid molecule comprising at least one ribonucleotide. Probes for use in the detection methods are provided.

The present application provides methods for detecting a target nucleic acid molecule in a sample comprising contacting said sample with a ligatable probe comprising one or more parts and allowing said probe to hybridise to the target nucleic acid molecule, ligating any probe which has hybridised to the target nucleic acid molecule, amplifying the ligated probe, and detecting the amplification product, thereby to detect the target nucleic acid molecule, wherein said probes comprise at least one ribonucleotide at or near to a ligation site and/or wherein the probe or a probe part comprises an additional sequence 5′ to a target-specific binding site which is not hybridised to the target nucleic acid molecule upon hybridisation of the probe to the target nucleic acid molecule and forms a 5′ flap containing one or more nucleotides at its 3′ end that is cleaved prior to ligation, and methods of synthesising a DNA molecule with Phi29 DNA polymerase using a template nucleic acid molecule comprising at least one ribonucleotide. Probes for use in the detection methods are provided.

The invention provides sets of RNA depletion probes, short DNA oligos that hybridize along the length of a target RNA and mediate digestion of the target RNA by RNase H to remove super-abundant RNA molecules from a sample. Depletion probes according to the invention are designed foremost based on biochemistry and the biophysical properties of the probes so that all of the depletion probes of a set exhibit substantially uniform, consistent behavior in binding to a target RNA in a sample. Probes are principally designed to specific performance targets and biophysical properties, yielding probe sets with irregular, even apparently random, spacing along a target RNA molecule.

The invention provides sets of RNA depletion probes, short DNA oligos that hybridize along the length of a target RNA and mediate digestion of the target RNA by RNase H to remove super-abundant RNA molecules from a sample. Depletion probes according to the invention are designed foremost based on biochemistry and the biophysical properties of the probes so that all of the depletion probes of a set exhibit substantially uniform, consistent behavior in binding to a target RNA in a sample. Probes are principally designed to specific performance targets and biophysical properties, yielding probe sets with irregular, even apparently random, spacing along a target RNA molecule.

The present disclosure provides methods for detecting a single-stranded target RNA. The present disclosure provides methods of cleaving a precursor C2c2 guide RNA array into two or more C2c2 guide RNAs. The present disclosure provides a kit for detecting a target RNA in a sample.

The present disclosure provides methods for detecting a single-stranded target RNA. The present disclosure provides methods of cleaving a precursor C2c2 guide RNA array into two or more C2c2 guide RNAs. The present disclosure provides a kit for detecting a target RNA in a sample.

Provided herein are methods for spatial analysis using targeted RNA depletion.

Provided herein are methods for spatial analysis using targeted RNA depletion.

The present disclosure relates to methods for increasing telomere length in one or more human cells and/or increasing genome stability of one or more human cells, for example by contacting one or more human cells with an agent that increases expression of Zscan4 in the one or more human cells. Methods of treating a subject in need of telomere lengthening, treating a disease or condition associated with a genomic and/or chromosome abnormality, of rejuvenating one or more human cells, of rejuvenating tissues or organs, and of rejuvenating a subject in need thereof, for example by contacting one or more human cells in the subject with an agent that increases expression of Zscan4, or by administering to a subject in need thereof, an agent that increases expression of Zscan4 are also provided.