Differential effects of a mutation on the normal and promiscuous activities of orthologs: implications for natural and directed evolution

Neutral drift occurring over millions or billions of years results in substantial sequence divergence among enzymes that catalyze the same reaction. Although natural selection maintains the primary activity of orthologous enzymes, there is, by definition, no selective pressure to maintain physiologi...

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Veröffentlicht in:	Molecular biology and evolution 2015-01, Vol.32 (1), p.100-108
Hauptverfasser:	Khanal, Akhil, Yu McLoughlin, Sean, Kershner, Jamie P, Copley, Shelley D
Format:	Artikel
Sprache:	eng
Schlagworte:	Amino acids Bacteria - enzymology Bacteria - genetics Bacterial Proteins - chemistry Bacterial Proteins - genetics Bacterial Proteins - metabolism Biocatalysts Catalytic Domain Directed Molecular Evolution Discoveries Enzymatic activity Enzymes Evolution, Molecular Evolutionary biology Genetic Drift Genetics Glutamine - analogs & derivatives Glutamine - metabolism Models, Molecular Mutation Oxidoreductases - chemistry Oxidoreductases - genetics Oxidoreductases - metabolism Phylogeny Physiology
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creator	Khanal, Akhil Yu McLoughlin, Sean Kershner, Jamie P Copley, Shelley D
description	Neutral drift occurring over millions or billions of years results in substantial sequence divergence among enzymes that catalyze the same reaction. Although natural selection maintains the primary activity of orthologous enzymes, there is, by definition, no selective pressure to maintain physiologically irrelevant promiscuous activities. Thus, the levels and the evolvabilities of promiscuous activities may vary among orthologous enzymes. Consistent with this expectation, we have found that the levels of a promiscuous activity in nine gamma-glutamyl phosphate reductase (ProA) orthologs vary by about 50-fold. Remarkably, a single amino acid change from Glu to Ala near the active site appeared to be critical for improvement of the promiscuous activity in every ortholog. The effects of this change varied dramatically. The improvement in the promiscuous activity varied from 50- to 770-fold, and, importantly, was not correlated with the initial level of the promiscuous activity. The decrease in the original activity varied from 190- to 2,100-fold. These results suggest that evolution of a novel enzyme may be possible in some microbes, but not in others. Further, these results underscore the importance of using multiple orthologs as starting points for directed evolution of novel enzyme activities.
doi_str_mv	10.1093/molbev/msu271
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Although natural selection maintains the primary activity of orthologous enzymes, there is, by definition, no selective pressure to maintain physiologically irrelevant promiscuous activities. Thus, the levels and the evolvabilities of promiscuous activities may vary among orthologous enzymes. Consistent with this expectation, we have found that the levels of a promiscuous activity in nine gamma-glutamyl phosphate reductase (ProA) orthologs vary by about 50-fold. Remarkably, a single amino acid change from Glu to Ala near the active site appeared to be critical for improvement of the promiscuous activity in every ortholog. The effects of this change varied dramatically. The improvement in the promiscuous activity varied from 50- to 770-fold, and, importantly, was not correlated with the initial level of the promiscuous activity. The decrease in the original activity varied from 190- to 2,100-fold. 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subjects	Amino acids Bacteria - enzymology Bacteria - genetics Bacterial Proteins - chemistry Bacterial Proteins - genetics Bacterial Proteins - metabolism Biocatalysts Catalytic Domain Directed Molecular Evolution Discoveries Enzymatic activity Enzymes Evolution, Molecular Evolutionary biology Genetic Drift Genetics Glutamine - analogs & derivatives Glutamine - metabolism Models, Molecular Mutation Oxidoreductases - chemistry Oxidoreductases - genetics Oxidoreductases - metabolism Phylogeny Physiology
title	Differential effects of a mutation on the normal and promiscuous activities of orthologs: implications for natural and directed evolution
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