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Autoinhibitory interactions between the PDZ2 and C-terminal domains in the scaffolding protein NHERF1.


ABSTRACT: Na(+)/H(+) exchanger regulatory factor (NHERF1) is a signaling adaptor protein comprising two PDZ domains and a C-terminal ezrin-binding (EB) motif. To understand the role of intramolecular interactions in regulating its binding properties, we characterized the complex between the second PDZ domain PDZ2 and the C-terminal 242-358 fragment of NHERF1 using NMR and fluorescence methods. NMR chemical shift and relaxation data implicate 11 C-terminal residues in binding and, together with a thermodynamic analysis of mutant proteins, indicate that the EB region becomes helical when bound to PDZ2. Both specific contacts between PDZ2 and EB as well as nonspecific interactions involving a 100-residue flexible linker contribute to stabilizing two structurally distinct closed conformations of NHERF1. The affinity of mutant proteins for an extrinsic ligand is inversely related to the helix-forming propensity of the EB motif. The findings provide a structural framework for understanding how autoinhibitory interactions modulated the binding properties of NHERF1.

SUBMITTER: Cheng H 

PROVIDER: S-EPMC2688836 | biostudies-literature | 2009 May

REPOSITORIES: biostudies-literature

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Autoinhibitory interactions between the PDZ2 and C-terminal domains in the scaffolding protein NHERF1.

Cheng Hong H   Li Jianquan J   Fazlieva Ruzaliya R   Dai Zhongping Z   Bu Zimei Z   Roder Heinrich H  

Structure (London, England : 1993) 20090501 5


Na(+)/H(+) exchanger regulatory factor (NHERF1) is a signaling adaptor protein comprising two PDZ domains and a C-terminal ezrin-binding (EB) motif. To understand the role of intramolecular interactions in regulating its binding properties, we characterized the complex between the second PDZ domain PDZ2 and the C-terminal 242-358 fragment of NHERF1 using NMR and fluorescence methods. NMR chemical shift and relaxation data implicate 11 C-terminal residues in binding and, together with a thermodyn  ...[more]

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