Kombucha: a novel model system for cooperation and conflict in a complex multi-species microbial ecosystem

Kombucha, a fermented tea beverage with an acidic and effervescent taste, is composed of a multispecies microbial ecosystem with complex interactions that are characterized by both cooperation and conflict. In kombucha, a complex community of bacteria and yeast initiates the fermentation of a starte...

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Vydané v:	PeerJ (San Francisco, CA) Ročník 7; s. e7565
Hlavní autori:	May, Alexander, Narayanan, Shrinath, Alcock, Joe, Varsani, Arvind, Maley, Carlo, Aktipis, Athena
Médium:	Journal Article
Jazyk:	English
Vydavateľské údaje:	United States PeerJ. Ltd 03.09.2019 PeerJ, Inc PeerJ Inc
Predmet:	Analysis Bacteria Behavioral evolution Beverages Biofilms Carbohydrate metabolism Cellulose Community Competition Conflict Cooperation Domestication Ecosystems Environmental aspects Ethanol Evolution Evolutionary Studies Fermentation Food Food Science and Technology Green tea Microbiology Microorganisms Novels Public good Researchers Sucrose Symbiosis Tea Tea (Beverage) Competition Symbiosis Conflict Cooperation Artificial selection Biofilm Evolution Fermentation Community Microbiome
ISSN:	2167-8359, 2167-8359
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Abstract	Kombucha, a fermented tea beverage with an acidic and effervescent taste, is composed of a multispecies microbial ecosystem with complex interactions that are characterized by both cooperation and conflict. In kombucha, a complex community of bacteria and yeast initiates the fermentation of a starter tea (usually black or green tea with sugar), producing a biofilm that covers the liquid over several weeks. This happens through several fermentative phases that are characterized by cooperation and competition among the microbes within the kombucha solution. Yeast produce invertase as a public good that enables both yeast and bacteria to metabolize sugars. Bacteria produce a surface biofilm which may act as a public good providing protection from invaders, storage for resources, and greater access to oxygen for microbes embedded within it. The ethanol and acid produced during the fermentative process (by yeast and bacteria, respectively) may also help to protect the system from invasion by microbial competitors from the environment. Thus, kombucha can serve as a model system for addressing important questions about the evolution of cooperation and conflict in diverse multispecies systems. Further, it has the potential to be artificially selected to specialize it for particular human uses, including the development of antimicrobial ecosystems and novel materials. Finally, kombucha is easily-propagated, non-toxic, and inexpensive, making it an excellent system for scientific inquiry and citizen science.
AbstractList	Kombucha, a fermented tea beverage with an acidic and effervescent taste, is composed of a multispecies microbial ecosystem with complex interactions that are characterized by both cooperation and conflict. In kombucha, a complex community of bacteria and yeast initiates the fermentation of a starter tea (usually black or green tea with sugar), producing a biofilm that covers the liquid over several weeks. This happens through several fermentative phases that are characterized by cooperation and competition among the microbes within the kombucha solution. Yeast produce invertase as a public good that enables both yeast and bacteria to metabolize sugars. Bacteria produce a surface biofilm which may act as a public good providing protection from invaders, storage for resources, and greater access to oxygen for microbes embedded within it. The ethanol and acid produced during the fermentative process (by yeast and bacteria, respectively) may also help to protect the system from invasion by microbial competitors from the environment. Thus, kombucha can serve as a model system for addressing important questions about the evolution of cooperation and conflict in diverse multispecies systems. Further, it has the potential to be artificially selected to specialize it for particular human uses, including the development of antimicrobial ecosystems and novel materials. Finally, kombucha is easily-propagated, non-toxic, and inexpensive, making it an excellent system for scientific inquiry and citizen science. Kombucha, a fermented tea beverage with an acidic and effervescent taste, is composed of a multispecies microbial ecosystem with complex interactions that are characterized by both cooperation and conflict. In kombucha, a complex community of bacteria and yeast initiates the fermentation of a starter tea (usually black or green tea with sugar), producing a biofilm that covers the liquid over several weeks. This happens through several fermentative phases that are characterized by cooperation and competition among the microbes within the kombucha solution. Yeast produce invertase as a public good that enables both yeast and bacteria to metabolize sugars. Bacteria produce a surface biofilm which may act as a public good providing protection from invaders, storage for resources, and greater access to oxygen for microbes embedded within it. The ethanol and acid produced during the fermentative process (by yeast and bacteria, respectively) may also help to protect the system from invasion by microbial competitors from the environment. Thus, kombucha can serve as a model system for addressing important questions about the evolution of cooperation and conflict in diverse multispecies systems. Further, it has the potential to be artificially selected to specialize it for particular human uses, including the development of antimicrobial ecosystems and novel materials. Finally, kombucha is easily-propagated, non-toxic, and inexpensive, making it an excellent system for scientific inquiry and citizen science.Kombucha, a fermented tea beverage with an acidic and effervescent taste, is composed of a multispecies microbial ecosystem with complex interactions that are characterized by both cooperation and conflict. In kombucha, a complex community of bacteria and yeast initiates the fermentation of a starter tea (usually black or green tea with sugar), producing a biofilm that covers the liquid over several weeks. This happens through several fermentative phases that are characterized by cooperation and competition among the microbes within the kombucha solution. Yeast produce invertase as a public good that enables both yeast and bacteria to metabolize sugars. Bacteria produce a surface biofilm which may act as a public good providing protection from invaders, storage for resources, and greater access to oxygen for microbes embedded within it. The ethanol and acid produced during the fermentative process (by yeast and bacteria, respectively) may also help to protect the system from invasion by microbial competitors from the environment. Thus, kombucha can serve as a model system for addressing important questions about the evolution of cooperation and conflict in diverse multispecies systems. Further, it has the potential to be artificially selected to specialize it for particular human uses, including the development of antimicrobial ecosystems and novel materials. Finally, kombucha is easily-propagated, non-toxic, and inexpensive, making it an excellent system for scientific inquiry and citizen science.
ArticleNumber	e7565
Audience	Academic
Author	Aktipis, Athena Narayanan, Shrinath Alcock, Joe Maley, Carlo May, Alexander Varsani, Arvind
Author_xml	– sequence: 1 givenname: Alexander surname: May fullname: May, Alexander organization: School of Life Sciences, Arizona State University, Tempe, AZ, USA, Department of Psychology, Arizona State University, Tempe, AZ, USA – sequence: 2 givenname: Shrinath surname: Narayanan fullname: Narayanan, Shrinath organization: The Biodesign Center for Biocomputing, Security and Society, Arizona State University, Tempe, AZ, USA – sequence: 3 givenname: Joe orcidid: 0000-0003-0807-164X surname: Alcock fullname: Alcock, Joe organization: University of New Mexico, Albuquerque, NM, USA – sequence: 4 givenname: Arvind orcidid: 0000-0003-4111-2415 surname: Varsani fullname: Varsani, Arvind organization: School of Life Sciences, Arizona State University, Tempe, AZ, USA, The Biodesign Center for Fundamental and Applied Microbiomics, Center for Evolution and Medicine, School of Life Sciences, Arizona State University, Tempe, AZ, USA, Structural Biology Research Unit, Department of Clinical Laboratory Sciences, University of Cape Town, Cape Town, South Africa, Center for Evolution and Medicine, Arizona State University, Tempe, AZ, USA – sequence: 5 givenname: Carlo surname: Maley fullname: Maley, Carlo organization: School of Life Sciences, Arizona State University, Tempe, AZ, USA, The Biodesign Center for Biocomputing, Security and Society, Arizona State University, Tempe, AZ, USA – sequence: 6 givenname: Athena orcidid: 0000-0002-7128-670X surname: Aktipis fullname: Aktipis, Athena organization: Department of Psychology, Arizona State University, Tempe, AZ, USA, The Biodesign Center for Biocomputing, Security and Society, Arizona State University, Tempe, AZ, USA, The Biodesign Center for Fundamental and Applied Microbiomics, Center for Evolution and Medicine, School of Life Sciences, Arizona State University, Tempe, AZ, USA, Center for Evolution and Medicine, Arizona State University, Tempe, AZ, USA
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Keywords	Competition Symbiosis Conflict Cooperation Artificial selection Biofilm Evolution Fermentation Community Microbiome
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SubjectTerms	Analysis Bacteria Behavioral evolution Beverages Biofilms Carbohydrate metabolism Cellulose Community Competition Conflict Cooperation Domestication Ecosystems Environmental aspects Ethanol Evolution Evolutionary Studies Fermentation Food Food Science and Technology Green tea Microbiology Microorganisms Novels Public good Researchers Sucrose Symbiosis Tea Tea (Beverage)
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Title	Kombucha: a novel model system for cooperation and conflict in a complex multi-species microbial ecosystem
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