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Edited by Peter G. Wolynes, University of California at San Diego, La Jolla, CA, and approved January 9, 2009 (received for review November 27, 2008)
Abstract
How do proteins accomplish folding during early evolution? Theoretically the mechanism involves the selective stabilization of the native structure against all other competing compact conformations in a process that involves cumulative changes in the amino acid sequence along geological timescales. Thus, an evolved protein folds into a single structure at physiological temperature, but the conformational competition remains latent. For natural proteins such competition should emerge only near cryogenic temperatures, which places it beyond experimental testing. Here, we introduce a designed monomeric miniprotein (FSD-1ss) that within biological temperatures (330–280 K) switches between simple fast folding and highly complex conformational dynamics in a structurally degenerate compact ensemble. Our findings demonstrate the physical basis for protein folding evolution in a designed protein, which exhibits poorly evolved or primordial folding. Furthermore, these results open the door to the experimental exploration of primitive folding and the switching between alternative protein structures that takes place in evolutionary branching points and prion diseases, as well as the benchmarking of de novo design methods.
Footnotes
- 2To whom correspondence should be addressed. E-mail: vmunoz{at}cib.csic.es
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Author contributions: V.M. designed research; M.S., E.d.A., and R.P.-J. performed research; J.M.S.-R. and V.M. analyzed data; and V.M. wrote the paper.
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↵1Present address: Department of Biological Sciences, Columbia University, 1003 Fairchild Center, 1212 Amsterdam Avenue, New York, NY 10027.
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The authors declare no conflict of interest.
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This article is a PNAS Direct Submission.
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Data deposition: The atomic coordinates and structure factors have been deposited in the Protein Data Bank, www.pdb.org (PDB ID code 2K6R).
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This article contains supporting information online at www.pnas.org/cgi/content/full/0812108106/DCSupplemental.
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Freely available online through the PNAS open access option.
A designed protein as experimental model of primordial folding
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