METHODS AND COMPOSITIONS FOR PRIME EDITING RNA

Organization Name

President and Fellows of Harvard College

Inventor(s)

David R. Liu of Cambridge MA (US)

Andrew Vito Anzalone of Cambridge MA (US)

James William Nelson of Cambridge MA (US)

Peter J. Chen of Cambridge MA (US)

METHODS AND COMPOSITIONS FOR PRIME EDITING RNA

This abstract first appeared for US patent application 17767777 titled 'METHODS AND COMPOSITIONS FOR PRIME EDITING RNA

Original Abstract Submitted

The present disclosure provides compositions and methods for the targeted modification of RNA molecules by RNA prime editing. The compositions and methods may be conducted invitro or in vivo within cells (e.g., human cells) for the therapeutic correction of disease-causing mutations and/or installation of motifs or mutations in RNA molecules of interest as a tool for scientific research. The disclosure provides compositions and methods for conducting RNA prime editing of a target RNA molecule (e.g., an RNA transcript) that enables the incorporation of one or more nucleotide changes and/or targeted mutagenesis of a target RNA molecule. The nucleotide change can include a single-nucleotide change, an insertion of one or more nucleotides, or a deletion of one or more nucleotides. More in particular, the disclosure provides a variety of configurations of the RNA prime editors each comprising a nucleic acid programmable RNA binding proteins (napRNAbp), such as Cas13, and an RNA-dependent RNA polymerase (RDRP), which are provided as fusion proteins or which can be separately provided in trans. The RNA prime editors are guided to a target RNA site by a guide RNA, which can be a rpegRNA that includes a template region for the synthesis of an RNA sequence to be installed on the RNA molecule attached to an available 3′ terminus. In others embodiments, the RNA template can be provided in trans.