GGrantIndex
← Search

Engineering the binding specificity of modular domains

$312,672R01FY2017GMNIH

University Of California, San Diego, La Jolla CA

Investigators

Linked publications & trials

Abstract

? DESCRIPTION (provided by applicant): Post translational modifications (PTMs) play critical roles in regulating protein functions and mediating protein-protein interaction. Deterioration of PTMs is known to cause many diseases. PTMs on histone tail peptides dictate chromatin structure remodeling and orchestrate gene expression, which is at the heart of epigenetics. These histone modifications are recognized by reader proteins that often contain particular modular domains binding to specific PTMs such as chromodomains recognizing methylated Lysine. Understanding the mechanisms of how these PTMs are recognized and developing tools to manipulate such recognition are critical for developing new therapeutics. In the proposed research, we will develop and test an integrated approach that combines computational simulation and experimental validation to design the binding specificity between the modified peptides and their recognition domains. In Aim 1, we will engineer the binding interface residues of chromodomains to achieve the desired binding specificity. In Aim 2, we aim to engineer chromodomains' recognition of multiply-modified peptides. In Aim 3, we will test the generality of the proposed engineering strategy on another modular domain, PHD domain. Once the proposed research is completed, it will illustrate the recognition principles of modified peptides and demonstrates the possibility of manipulating such recognition, which opens a new avenue of rewiring signal transduction in epigenetics.

View original record on NIH RePORTER →