Abstract: The present disclosure provides polypeptides that inhibit activity of a CRISPR/Cas effector polypeptide, nucleic acids encoding the polypeptides, and systems comprising the polypeptides and/or nucleic acids encoding the polypeptides. The present disclosure provides methods of inhibiting activity of a CRISRP/Cas effector polypeptide.

Abstract: Described herein are compositions, kits and methods for shredding the genomes of selected cell types, for example, the genomes of selected cancer cell types.

Abstract: The present disclosure provides a method for chemoselective modification of a target molecule. A subject method includes contacting a target molecule comprising a thiol moiety with a biomolecule comprising a reactive moiety, wherein the reactive moiety is generated by reaction of a biomolecule comprising a phenol moiety or a catechol with an enzyme capable of oxidizing the phenol or the catechol moiety. The contacting is carried out under conditions sufficient for conjugation of the target molecule to the biomolecule, thereby producing a modified target molecule. The present disclosure provides compositions comprising a subject target molecule comprising a thiol moiety, and a biomolecule comprising a phenol moiety or a catechol moiety. The present disclosure provides kits for carrying out a subject method. The present disclosure also provides modified target molecules and methods for using same.

Abstract: The present disclosure provides AcrIIA7 polypeptides, nucleic acids encoding the AcrIIA7 polypeptides, and kits comprising the AcrIIA7 polypeptides and/or nucleic acids encoding the ACRIIA7 polypeptides. The present disclosure provides methods of inhibiting an activity of a Cas9 polypeptide.

Abstract: The present disclosure provides polypeptides that inhibit activity of a CRISPR/Cas effector polypeptide, nucleic acids encoding the polypeptides, and systems comprising the polypeptides and/or nucleic acids encoding the polypeptides. The present disclosure provides methods of inhibiting activity of a CRISRP/Cas effector polypeptide.

Abstract: Provided is a single construct combining a sequence encoding an RNAi molecule, a sequence encoding a reporter, and a target sequence specific for the RNAi molecule. The construct can be used to determine the potency of the encoded RNAi molecule in a direct and unbiased way. These results can be used to inform the design of potent RNAi molecules of various types and can be extended to several other applications, including: (1) generation of tiled libraries comprising every possible RNAi molecule-encoding sequence for a given gene target; (2) large-scale parallel validation of RNAi molecules targeting many genes to generate validated RNAi molecule-encoding libraries; (3) experimental comparison of design algorithms and strategies; and (4) investigation of RNAi biology in target site mutagenesis assays by screening pools containing single nucleotide changes in target sites and/or in the RNAi molecule to identify the most relevant sequence characteristics of potent RNAi-target site predictions.

Abstract: What is described is a modified miRNA molecule for producing an artificial siRNA/mature small RNA molecule that inhibits the expression of a target transcript of a host cell, comprising a stem region modified to comprise a sequence encoding the artificial siRNA molecule, consisting of a guide and a passenger strand; a conserved region having specific sequences; and a nonconserved region modified to include a recognition site for a restriction enzyme while preserving the native secondary structure of the miRNA. The modified miRNA molecule produced with these elements substantially inhibits the expression of the target transcript when expressed from an endogenous or exogenous promoter in the host cell.

Abstract: Provided is a single construct combining a sequence encoding an RNAi molecule, a sequence encoding a reporter, and a target sequence specific for the RNAi molecule. The construct can be used to determine the potency of the encoded RNAi molecule in a direct and unbiased way. These results can be used to inform the design of potent RNAi molecules of various types and can be extended to several other applications, including: (1) generation of tiled libraries comprising every possible RNAi molecule-encoding sequence for a given gene target; (2) large-scale parallel validation of RNAi molecules targeting many genes to generate validated RNAi molecule-encoding libraries; (3) experimental comparison of design algorithms and strategies; and (4) investigation of RNAi biology in target site mutagenesis assays by screening pools containing single nucleotide changes in target sites and/or in the RNAi molecule to identify the most relevant sequence characteristics of potent RNAi-target site predictions.

Abstract: Provided is a single construct combining a sequence encoding an RNAi molecule, a sequence encoding a reporter, and a target sequence specific for the RNAi molecule. The construct can be used to determine the potency of the encoded RNAi molecule in a direct and unbiased way. These results can be used to inform the design of potent RNAi molecules of various types and can be extended to several other applications, including: (1) generation of tiled libraries comprising every possible RNAi molecule-encoding sequence for a given gene target; (2) large-scale parallel validation of RNAi molecules targeting many genes to generate validated RNAi molecule-encoding libraries; (3) experimental comparison of design algorithms and strategies; and (4) investigation of RNAi biology in target site mutagenesis assays by screening pools containing single nucleotide changes in target sites and/or in the RNAi molecule to identify the most relevant sequence characteristics of potent RNAi-target site predictions.