Cooperative adaptation to establishment of a synthetic bacterial mutualism

To understand how two organisms that have not previously been in contact can establish mutualism, it is first necessary to examine temporal changes in their phenotypes during the establishment of mutualism. Instead of tracing back the history of known, well-established, natural mutualisms, we experi...

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Veröffentlicht in:	PloS one 2011-02, Vol.6 (2), p.e17105-e17105
Hauptverfasser:	Hosoda, Kazufumi, Suzuki, Shingo, Yamauchi, Yoshinori, Shiroguchi, Yasunori, Kashiwagi, Akiko, Ono, Naoaki, Mori, Kotaro, Yomo, Tetsuya
Format:	Artikel
Sprache:	eng
Schlagworte:	Activation Adaptation Adaptation, Physiological - genetics Adaptation, Physiological - physiology Amino acids Bacteria Bacteria - genetics Bacteria - growth & development Bacterial Physiological Phenomena - genetics Biodiversity Bioinformatics Biology Biosynthesis Cell growth Coculture Techniques - methods Cooperation Discosoma E coli Ecosystems Engineering Escherichia coli Escherichia coli - genetics Escherichia coli - growth & development Escherichia coli - physiology Extinction (Biology) Gene expression Genetic engineering Information science Isoleucine - genetics Isoleucine - metabolism Leucine - genetics Leucine - metabolism Metabolism Metabolites Microbial Interactions - genetics Microbiological Techniques Microorganisms Models, Biological Mutualism Organisms Organisms, Genetically Modified - physiology Physiological aspects Proteins Science Strains (organisms) Studies Symbiosis - genetics Symbiosis - physiology
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creator	Hosoda, Kazufumi Suzuki, Shingo Yamauchi, Yoshinori Shiroguchi, Yasunori Kashiwagi, Akiko Ono, Naoaki Mori, Kotaro Yomo, Tetsuya
description	To understand how two organisms that have not previously been in contact can establish mutualism, it is first necessary to examine temporal changes in their phenotypes during the establishment of mutualism. Instead of tracing back the history of known, well-established, natural mutualisms, we experimentally simulated the development of mutualism using two genetically-engineered auxotrophic strains of Escherichia coli, which mimic two organisms that have never met before but later establish mutualism. In the development of this synthetic mutualism, one strain, approximately 10 hours after meeting the partner strain, started oversupplying a metabolite essential for the partner's growth, eventually leading to the successive growth of both strains. This cooperative phenotype adaptively appeared only after encountering the partner strain but before the growth of the strain itself. By transcriptome analysis, we found that the cooperative phenotype of the strain was not accompanied by the local activation of the biosynthesis and transport of the oversupplied metabolite but rather by the global activation of anabolic metabolism. This study demonstrates that an organism has the potential to adapt its phenotype after the first encounter with another organism to establish mutualism before its extinction. As diverse organisms inevitably encounter each other in nature, this potential would play an important role in the establishment of a nascent mutualism in nature.
doi_str_mv	10.1371/journal.pone.0017105
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subjects	Activation Adaptation Adaptation, Physiological - genetics Adaptation, Physiological - physiology Amino acids Bacteria Bacteria - genetics Bacteria - growth & development Bacterial Physiological Phenomena - genetics Biodiversity Bioinformatics Biology Biosynthesis Cell growth Coculture Techniques - methods Cooperation Discosoma E coli Ecosystems Engineering Escherichia coli Escherichia coli - genetics Escherichia coli - growth & development Escherichia coli - physiology Extinction (Biology) Gene expression Genetic engineering Information science Isoleucine - genetics Isoleucine - metabolism Leucine - genetics Leucine - metabolism Metabolism Metabolites Microbial Interactions - genetics Microbiological Techniques Microorganisms Models, Biological Mutualism Organisms Organisms, Genetically Modified - physiology Physiological aspects Proteins Science Strains (organisms) Studies Symbiosis - genetics Symbiosis - physiology
title	Cooperative adaptation to establishment of a synthetic bacterial mutualism
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