The present invention relates to a CRISPR-Cas based system for targeting nucleic acid sequences. In part, the invention relates to synthetic guiding components for targeting single-stranded sequences, as well as design principles for constructing such components. Also described herein are methods of employing such components, e.g., to repress or activate a desired target within the subject.

The invention describes a novel system for identifying optimized gRNAs for use in CRISPR/Cas9 genome editing platforms. The invention allows for the determination of specific gene alterations rendered by a particular gRNA, thereby permitting the generation of optimized gRNA libraries.

The present invention relates functional ligands to target molecules, particularly to functional nucleic acids and modifications thereof, and to methods for simultaneously generating, for example, numerous different functional biomolecules, particularly to methods for generating numerous different functional nucleic acids against multiple target molecules simultaneously. The present invention further relates to functional ligands which bind with affinity to target molecules, such as opioids and opioid derivatives.

A method of reducing the abundance of a non-target micro-RNA (miRNA) that is part of a group of miRNAs is provided, including: (a) annealing a complementary region of a blocking nucleic acid to a binding site at a first end of the unwanted miRNA, ligating an adenylated nucleic acid adapter to the group of miRNAs, and performing RT-PCR on group of miRNAs. Kits and compounds for use with the method are also provided.

Polynucleotides, such as aptamers, comprising at least first one 5-position modified pyrimidine and at least one second 5-position modified pyrimidine are provided, wherein the first and second 5-position modified pyrimidines are different. Methods of selecting and using such polynucleotides, such as aptamers, are also provided.

The subject matter disclosed herein is generally directed to inhibition of XPR1 :KIDINS220-mediated phosphate export to treat cancer, in particular, ovarian and uterine cancers. The subject matter disclosed herein is also generally directed to determining cancer dependency on phosphate export by detecting the expression of SLC34A2. Compositions for inhibiting XPR1 :KIDINS220-mediated phosphate export are also described.

Described herein are molecules for editing a cell. The molecules described herein generally comprise the following covalently-linked components and a nucleic acid encoding a guide RNA (gRNA) sequence targeting a target region in a cell and a region homologous to the target region comprising a change in sequence relative to the target region.

The present disclosure relates to methods and compositions for reprogramming cells to a pluripotent state. In particular, it relates to an integration- and feeder cell-free method for reprogramming primary human fibroblast cells to induced pluripotent stem cells (iPSCs).

The present disclosure relates to methods and compositions for reprogramming cells to a pluripotent state. In particular, it relates to an integration- and feeder cell-free method for reprogramming primary human fibroblast cells to induced pluripotent stem cells (iPSCs).

Described herein are method for generating a vector for editing a cell. The method comprises ligating into a vector that encodes a portion of a gRNA a cassette comprising at least one editing cassette, a promoter, and a gene encoding another portion of the gRNA. Upon ligation, the portion of the gRNA from the editing cassette and the other portion of the gRNA are ligated and form a functional gRNA.