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Structural principles that enable oligomeric small heat-shock protein paralogs to evolve distinct functions.

Author
Abstract
:

Oligomeric proteins assemble with exceptional selectivity, even in the presence of closely related proteins, to perform their cellular roles. We show that most proteins related by gene duplication of an oligomeric ancestor have evolved to avoid hetero-oligomerization and that this correlates with their acquisition of distinct functions. We report how coassembly is avoided by two oligomeric small heat-shock protein paralogs. A hierarchy of assembly, involving intermediates that are populated only fleetingly at equilibrium, ensures selective oligomerization. Conformational flexibility at noninterfacial regions in the monomers prevents coassembly, allowing interfaces to remain largely conserved. Homomeric oligomers must overcome the entropic benefit of coassembly and, accordingly, homomeric paralogs comprise fewer subunits than homomers that have no paralogs.

Year of Publication
:
2018
Journal
:
Science (New York, N.Y.)
Volume
:
359
Issue
:
6378
Number of Pages
:
930-935
Date Published
:
2018
ISSN Number
:
0036-8075
URL
:
http://www.sciencemag.org/cgi/pmidlookup?view=long&pmid=29472485
DOI
:
10.1126/science.aam7229
Short Title
:
Science
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