Described herein are methods of modifying or editing a target nucleic acid such as methods that edit cytosine to thymine and adenine to guanine and/or methods that edit cytosine to thymine, adenine, or guanine. Compositions and systems for modifying or editing a target nucleic acid are also described. Methods, compositions and systems described herein may be used for generating allelic diversity.

Provided herein are systems, reagents, methods, and kits that are useful for the targeted editing of nucleic acids, including editing a single site within the genome of a cell or subject, e.g., within the human genome. In some embodiments, fusion proteins of Cas9 and cytosine deaminase domains, are provided. In some embodiments, methods for targeted nucleic acid editing are provided.

Provided herein are systems, compositions, kits, and methods for the suppression of pain (e.g., chronic pain). Genes encoding ion channels (e.g., SCN9A) responsible for the propagation pain signals in neurons (e.g., DRG neurons) may be edited using a genome editing agent (e.g., a nucleobase editor). In some embodiments, loss-of-function ion channel mutants are generated, leading to pain suppression. In some embodiments, the genome editing agent is administered locally to the site of pain or to the nerves responsible for propagation of the pain signal.

The present disclosure provides for systems, methods, and compositions for targeting and editing nucleic acids. In particular, the present disclosure provides non-naturally occurring or engineered RNA-targeting systems comprising a RNA-targeting Cas13 protein, at least one guide molecule, and at least one adenosine deaminase protein or catalytic domain thereof.

The invention relates to peptide linkers and fusion proteins comprising linkers designed for optimizing the activity of the proteins comprised therein, and methods for using the same. The invention further relates to newly designed Cas12a-based cytosine base editors.

Provided herein are systems, compositions, and methods of introducing protective and/or loss-of-function variants of CCR5 and CCR2. Variants may be introduced using a CRISPR/Cas9-based nucleobase editor or other guide nucleotide sequence-programmable DNA binding protein domain-based fusion protein described herein. Further provided herein are compositions and methods of preventing and treating conditions related to HIV infection and progression as well as to AIDS.

Provided are two split single-base gene editing systems. Intein-mediated split BE3, saKKH-BE3 and ABE7.10 are separately developed by using the existing protein structure information of spCas9 and saCas9 and splitting methods thereof, and have targeted gene mutation efficiency equivalent to that of unsplit BE3, saKKH-BE3 and ABE7.10 working system, thereby making possible package into an AAV for delivery.

The disclosure provides an extended release formulation of 5-fluorocytosine. In another aspect, a method of treating a fungal disease is provided. The method comprises administering to a subject in need thereof a fungus-treating effective amount of a composition comprising 5-fluorocytosine. In yet another aspect, a method of treating a cancer is provided. The method comprises administering to a subject in need thereof a sufficient amount of an expression vector to induce expression of cytosine deaminase which is capable of converting 5-fluorocytosine to 5-fluorourcail in cells of the cancer and a cancer-treating effective amount of a composition comprising 5-fluorocytosine.

Some aspects of this disclosure provide strategies, systems, reagents, methods, and kits that are useful for the targeted editing of nucleic acids, including editing a single site within the genome of a cell or subject, e.g., within the human genome. In some embodiments, fusion proteins comprise a Gam protein, a napDNAbp, and a cytidine deaminase. In some embodiments, the fusion proteins further comprise a UGI domain. In some embodiments, methods for targeted nucleic acid editing are provided. In some embodiments, reagents and kits for the generation of targeted nucleic acid editing proteins, e.g., fusion proteins of a Gam protein, a cytidine deaminase and nucleic acid editing proteins or domains, are provided.

Methods and compositions for improving the genome-wide specificities of targeted base editing technologies.