Abstract: Disclosed herein are compositions and methods for increasing the immunocompatibility of donor cells (e.g., HSCs or T-cells) for transplantation to a recipient subject, as well as database schemes for use in the methods. The methods and compositions described herein result in the allele-specific modification of one or more immunogenicity genes (e.g., an HLA gene) of a cell, resulting in cells that are suitable for transplantation into a recipient subject.

Abstract: Polynucleotides are engineered to hybridize to one another to form a functional guide nucleic acid having an editing template. The hybridized guide nucleic acids may be used with template-based gene editors to write an edit into a target genomic location using the editing template as a template for the edit.

Abstract: Engineered nucleic acids encoding genome editing system components are provided, as are engineered RNA-guided nucleases that include inserts encoded in part by cellular genomic or other sequences recognized by guide RNAs.

Abstract: Engineered nucleic acids encoding genome editing system components are provided, as are engineered RNA-guided nucleases that include inserts encoded in part by cellular genomic or other sequences recognized by guide RNAs.

Abstract: Chemical syntheses of guide molecules are disclosed, along with compositions and methods relating thereto.

Abstract: Disclosed herein are methods for evaluation, selection, optimization, and design of Cas9 molecule/gRNA molecule complexes.

Abstract: Disclosed herein are enzymatically active Cas9 (eaCas9) fusion molecules, comprising an eaCas9 molecule linked, e.g., covalently or non-covalently, to a template nucleic acid; gene editing systems comprising the eaCas9 fusion molecules, and methods of use thereof.

Abstract: Methods and compositions related to a nucleic acid-guided nuclease cell targeting screen are provided. The invention relates to compositions and methods for identifying cell targeting proteins that, when associated with a nucleic acid-guided nuclease (such as Cas9), enables at least the nucleic acid-guided nuclease to be targeted to the surface of a target cell or internalized by a target cell, i.e., a cell targeted by the cell targeting agent.

Abstract: Disclosed herein are enzymatically active Cas9 (eaCas9) fusion molecules, comprising an eaCas9 molecule linked, e.g., covalently or non-covalently, to a template nucleic acid; gene editing systems comprising the eaCas9 fusion molecules, and methods of use thereof.

Abstract: Engineered nucleic acids encoding genome editing system components are provided, as are engineered RNA-guided nucleases that include inserts encoded in part by cellular genomic or other sequences recognized by guide RNAs.

Abstract: Methods and compositions related to intracellular delivery of gene editing proteins are provided. The invention relates to compositions and methods for transporting gene editing polypeptides, such as Cas9 or Cas12, into a cell ex vivo or in vivo. The invention includes a targeted active gene editing (TAGE) agent that includes an extracellular cell membrane binding moiety, e.g., an antigen binding polypeptide, a cell penetrating peptide (CPP), a ligand, or combinations thereof, that specifically binds to an extracellular cell membrane-bound molecule (e.g., a cell surface molecule), and a site-directed modifying polypeptide that recognizes a nucleic acid sequence. The extracellular cell membrane binding moiety (e.g.

Abstract: Methods and compositions related to intracellular delivery of gene editing proteins are provided. The invention relates to compositions and methods for transporting gene editing polypeptides, such as Cas9 or Cas12, into a cell ex vivo or in vivo. The invention includes a targeted active gene editing (TAGE) agent that includes an antigen binding polypeptide that specifically binds to an extracellular cell membrane-bound molecule, and a site-directed modifying polypeptide that recognizes a nucleic acid sequence. The antigen binding polypeptide and the site-directed modifying polypeptide are stably associated such that the site-directed modifying polypeptide can be internalized into a cell displaying the extracellular cell membrane-bound molecule.

Abstract: Disclosed herein are methods for evaluation, selection, optimization, and design of Cas9 molecule/gRNA molecule complexes.

Abstract: Engineered nucleic acids encoding genome editing system components are provided, as are engineered RNA-guided nucleases that include inserts encoded in part by cellular genomic or other sequences recognized by guide RNAs.

Abstract: The present disclosure relates to CRISPR/Cpf1-related methods and components for editing a target nucleic acid sequence and/or modulating expression of a target nucleic acid sequence, as well as methods and compositions for evaluating such editing and/or modulation of expression.

Abstract: The present disclosure relates to systems and methods of analyzing cleavage profiles of nucleases.

Abstract: Engineered nucleic acids encoding genome editing system components are provided, as are engineered RNA-guided nucleases that include inserts encoded in part by cellular genomic or other sequences recognized by guide RNAs.

Abstract: Engineered nucleic acids encoding genome editing system components are provided, as are engineered RNA-guided nucleases that include inserts encoded in part by cellular genomic or other sequences recognized by guide RNAs.

Abstract: Disclosed herein are enzymatically active Cas9 (eaCas9) fusion molecules, comprising an eaCas9 molecule linked, e.g., covalently or non-covalently, to a template nucleic acid; gene editing systems comprising the eaCas9 fusion molecules, and methods of use thereof.

Abstract: CRISPR/Cpf1-related compositions and methods for treatment of cancer.