Abstract
Conserved homology-1 (C1) domains are peripheral membrane domains that target their host proteins to diacylglycerol (DAG)-containing membranes. It has been previously shown that a conservative aromatic mutation of a single residue in the C1 domain has a profound effect on DAG affinity. We report that the "DAG-toggling" mutation changes the conformational dynamics of the loop region that forms the binding site for the C1 activators. Moreover, there is a correlation among the residue identity at the mutation site, DAG affinity, and loop dynamics in four C1 variants. We propose that "toggling" of DAG affinity may occur through modulation of both protein-membrane interactions and the geometry of the activator-binding cleft, with the loop dynamics being responsible for the latter.
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