The physical basis and practical consequences of biological promiscuity

Proteins interact with metabolites, nucleic acids, and other proteins to orchestrate the myriad catalytic, structural and regulatory functions that support life, from the simplest microbes to the most complex multicellular organisms. These molecular interactions are often exquisitely specific, but n...

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Veröffentlicht in:	Physical biology 2020-04, Vol.17 (5), p.51001
1. Verfasser:	Copley, Shelley D
Format:	Artikel
Sprache:	eng
Schlagworte:	enzyme evolution evolution moonlighting promiscuity protein dynamics protein-protein interaction
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description	Proteins interact with metabolites, nucleic acids, and other proteins to orchestrate the myriad catalytic, structural and regulatory functions that support life, from the simplest microbes to the most complex multicellular organisms. These molecular interactions are often exquisitely specific, but never perfectly so. Adventitious 'promiscuous' interactions are ubiquitous due to the thousands of macromolecules and small molecules crowded together in cells. Such interactions may perturb protein function at the molecular level, but as long as they do not compromise organismal fitness, they will not be removed by natural selection. Although promiscuous interactions are physiologically irrelevant, they are important because they provide a vast pool of potential functions that can act as the starting point for the evolution of new functions, both in nature and in the laboratory.
doi_str_mv	10.1088/1478-3975/ab8697
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subjects	enzyme evolution evolution moonlighting promiscuity protein dynamics protein-protein interaction
title	The physical basis and practical consequences of biological promiscuity
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