Metabolic adaptations underlying genome flexibility in prokaryotes

Even across genomes of the same species, prokaryotes exhibit remarkable flexibility in gene content. We do not know whether this flexible or "accessory" content is mostly neutral or adaptive, largely due to the lack of explicit analyses of accessory gene function. Here, across 96 diverse p...

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Veröffentlicht in:	PLoS genetics 2018-10, Vol.14 (10), p.e1007763-e1007763
1. Verfasser:	Goyal, Akshit
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Sprache:	eng
Schlagworte:	Adaptation Biology Biology and Life Sciences Carbon Computer and Information Sciences Evolution & development Genes Genomes Metabolism Metabolites Physical Sciences Population Prokaryotes Research and Analysis Methods Species
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creator	Goyal, Akshit
description	Even across genomes of the same species, prokaryotes exhibit remarkable flexibility in gene content. We do not know whether this flexible or "accessory" content is mostly neutral or adaptive, largely due to the lack of explicit analyses of accessory gene function. Here, across 96 diverse prokaryotic species, I show that a considerable fraction (~40%) of accessory genomes harbours beneficial metabolic functions. These functions take two forms: (1) they significantly expand the biosynthetic potential of individual strains, and (2) they help reduce strain-specific metabolic auxotrophies via intra-species metabolic exchanges. I find that the potential of both these functions increases with increasing genome flexibility. Together, these results are consistent with a significant adaptive role for prokaryotic pangenomes.
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subjects	Adaptation Biology Biology and Life Sciences Carbon Computer and Information Sciences Evolution & development Genes Genomes Metabolism Metabolites Physical Sciences Population Prokaryotes Research and Analysis Methods Species
title	Metabolic adaptations underlying genome flexibility in prokaryotes
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