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Cas12c/C2C3 Compositions and Methods of Use

Technology Benefits

Adds additional versatility Variant PAM

Technology Application

Genome editing Genetic engineering Gene therapy Research tools (e.g., high-throughput screening of gene functions in cell lines and in vivo) Creation of transgenic animal models

Detailed Technology Description

None

Others

Additional Technologies by these Inventors

• Compositions and Methods of Use for Variant Csy4 Endoribonucleases
• Methods and Compositions for Controlling Gene Expression by RNA Processing
• Structure-Guided Methods Of Cas9-Mediated Genome Engineering
• Methods and Compositions for Using Argonaute to Modify a Single-Stranded Target Nucleic Acid
• Efficient Site-Specific Integration Of New Genetic Information Into Human Cells
• Cas9 Variants With Altered DNA Cleaving Activity
• Split-Cas9 For Regulatable Genome Engineering
• Single-Stranded Nucleic Acid Detection And Imaging System Using Cas9
• Methods For High Signal-To-Noise Imaging Of Chromosomal Loci In Cells Using Fluorescent Cas9
• Identification Of Sites For Internal Insertions Into Cas9
• Cas13a/C2c2 - A Dual Function Programmable RNA Endoribonuclease
• Small Molecule Assisted Cell Penetrating Cas9 RNP Delivery
• THERMOSTABLE RNA-GUIDED ENDONUCLEASES AND METHODS OF USE THEREOF (GeoCas9)
• A Dual-RNA Guided CasZ Gene Editing Technology
• Endoribonucleases For Rna Detection And Analysis

Tech ID/UC Case

28893/2018-040-0

Related Cases

2018-040-0

*Abstract

The CRISPR-Cas system is now understood to confer bacteria and archaea with acquired immunity against phage and viruses. CRISPR-Cas systems consist of Cas proteins, which are involved in acquisition, targeting and cleavage of foreign DNA or RNA, and a CRISPR array, which includes direct repeats flanking short spacer sequences that guide Cas proteins to their targets.  Class 2 CRISPR-Cas systems are streamlined versions in which a single Cas protein bound to RNA is responsible for binding to and cleavage of a targeted sequence. The programmable nature of these minimal systems has facilitated their use as a versatile technology that is revolutionizing the field of genome manipulation, so there is a need in the art for additional Class 2 CRISPR/Cas systems (e.g., Cas protein plus guide RNA combinations).

 

Researchers have shown that a Cas12c protein (also referred to as a Cas12c polypeptide or a C2c3 polypeptide) complex as well as Cas12c variants can be used for specific binding and cleavage of DNA. The Cas12c complex utilizes a novel RNA and a guide RNA to perform double stranded cleavage of DNA. Similar to CRISPR Cas9, Cas12c enzymes are expected to have a wide variety of applications in genome editing and nucleic acid manipulation. 

 

*Principal Investigator

Name: Jillian Banfield

Department:

Name: David Burstein

Department:

Name: Janice Sha Chen

Department:

Name: Jennifer Doudna

Department:

Name: Lucas Benjamin Harrington

Department:

Name: David Paez-Espino

Department:

Country/Region

USA