TM INTERACTIONS IN MEMBRANE PROTEIN FOLDING AND FUNCTION
Yale University, New Haven CT
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Abstract
DESCRIPTION (provided by applicant): Interactions between transmembrane helices are a major feature of the architecture of membrane proteins. Understanding the principles that guide such interactions will illuminate membrane protein folding, stability, and oligomer formation. Since membrane proteins are coded by more than 20% of all genes and are the targets of more than half of all drugs, such an understanding will be both enlightening and useful. We will work towards understanding the motifs and interactions that give rise to transmembrane helix (TM) interactions that stabilize protein structures in biological membranes, and to begin to connect our understanding to biological functions. We have developed a diverse toolkit for the study of TM interactions, including: (a) genetic and biochemical assays in micelles, bilayers and membranes, (b) computational approaches, and (c) structural studies using optical spectroscopy and NMR. Our approach will have several major divisions: a study of TM trimers in HIV gp41 TMs and MHC li;an effort to find the link between helix dimerization and signaling;a study of interaction motifs;an improvement of TM-TM computational methods;and tests of the principles and motifs that can be identified in helix associations.
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