The present invention is related to a ribonucleic acid comprising a double stranded structure whereby the double-stranded structure comprises a first strand and a second strand, whereby the first strand comprises a first stretch of contiguous nucleotides and whereby said first stretch is at least partially complementary to a target nucleic acid, and the second strand comprises a second stretch of contiguous nucleotides whereby said second stretch is at least partially identical to a target nucleic acid, and whereby the double stranded structure is blunt ended.

A pH-switchable carrier composition includes a plurality of bioactive glass particles, wherein each of the bioactive glass particle is optionally at least a partially coated with a surface modifier; wherein the bioactive glass particles, with or without, the surface modifier can bind to a nucleic acid compound upon contact at pH in the range of about 7 to about 11, and exhibit controlled release of the nucleic acid compound at pH in the range of about 5 to 6.

The present disclosure describes a CRISPR nuclease cascade assay that can detect one or more target nucleic acids of interest of interest at attamolar (aM) (or lower) limits in about 10 minutes or less without the need for amplifying the target nucleic acids of interest. The CRISPR cascade assays utilize signal amplification mechanisms comprising various components including CRISPR nucleases, guide RNAs (gRNAs), blocked nucleic acid molecules, blocked primer molecules, and reporter moieties.

A modified antisense oligonucleotide of about 10 to about 40 nucleobases is disclosed. The oligonucleotide comprises a targeting sequence having a region complementary to at least one string of three or more identical contiguous nucleobases in a target sequence, wherein the target sequence comprises at least one additional nucleobase compared to the region of the targeting sequence and the at least one additional nucleobase has no complementary nucleobase in the region of the targeting sequence, and wherein the targeting region complementary to the at least one string of three or more identical contiguous nucleobases is internal to the targeting sequence.

The present invention provides method of increasing the efficacy and potency of antisense compounds. In certain embodiments, the invention provides methods for improved cellular uptake.

Compositions and methods for down-regulating genes through oral administration of RNAi molecule encapsulated in plant cells are provided.

Compounds, compositions and methods are provided for modulating the expression and function of small non-coding RNAs. The compositions comprise oligomeric compounds, targeted to small non-coding RNAs. Methods of using these compounds for modulation of small non-coding RNAs as well as downstream targets of these RNAs and for diagnosis and treatment of disease associated with small non-coding RNAs are also provided.

ABSTRACT

Provided herein are nucleic acids useful as guide nucleic acids (gNAs), e.g., guide ribonucleic acids (gRNAs), in a CRISPR system wherein the guide nucleic acids contain one or more modifications to one or more nucleotides, use of such guide nucleic acids in modifying cells, and other uses wherein CRISPR Cas proteins are utilized.

The present disclosure describes compositions of matter comprising a ribonucleoprotein complex comprising a nucleic acid-guided nuclease and a guide RNA, and further comprising and a blocking nucleic acid molecule represented by Formula I, wherein Formula I in the 5′-to-3′ direction comprises: A-(B-L).sub.J-C-M-T-D; wherein A is 0-15 nucleotides in length; B is 4-12 nucleotides in length; L is 3-25 nucleotides in length; J is an integer between 1 and 10; C is 4-15 nucleotides in length; M is 1-25 nucleotides in length or is absent, wherein if M is absent then A-(B-L).sub.J-C and T-D are separate nucleic acid strands; T is 17-135 nucleotides in length and comprises at least 50% sequence complementarity to B and C; D is 0-10 nucleotides in length and comprises at least 50% sequence complementarity to A; and wherein the blocking nucleic acid molecule comprises a sequence complementary to a gRNA.