How similar are protein folding and protein binding nuclei? Examination of fluctuations of energy hot spots and conserved residues

doi:10.1529/biophysj.104.051342

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Biophys. J. BioFAST: First Published December 13, 2004. doi:10.1529/biophysj.104.051342
© 2004 by the Biophysical Society.

A more recent version of this article appeared on March 1, 2005.

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BIOPHYSICAL THEORY AND MODELING

How similar are protein folding and protein binding nuclei? Examination of fluctuations of energy hot spots and conserved residues

Turkan Haliloglu ¹, Ozlem Keskin ², Buyong Ma ³ and Ruth Nussinov ⁴^*

¹ bogazici university
² koc university and NCI at Frederick
³ NCI-Frederick
⁴ Tel-Aviv University and NCI-Frederick

^* To whom correspondence should be addressed. E-mail: ruthn{at}nciiris.ncifcrf.gov.

Submitted on August 13, 2004
Revised on September 14, 2004
Accepted on 24 November 2004

Abstract
The underlying physico-chemical principles of the interactionsbetween domains in protein folding are similar to those betweenprotein molecules in binding. Here we show that conserved residuesand experimental hot spots at inter-molecular binding interfacesoverlap residues that vibrate with high frequencies. Similarly,conserved residues and hot spots are found in protein coresand are also observed to vibrate with high frequencies. In bothcases, these residues contribute significantly to the stability.Hence, these observations validate the proposition that bindingand folding are similar processes. In both packing plays a criticalrole, rationalizing the residue conservation and the experimentalalanine scanning hot spots. We further show that high frequencyvibrating residues distinguish between protein binding sitesand the remainder of the protein surface.

Key Words: Gaussian Network Model (GNM), binding site prediction, fluctuations, hot spots, protein binding and folding, protein-protein interactions

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