Ecological effects of cellular computing in microbial populations

Ecological effects of cellular computing in microbial populations

Gene regulatory networks allow single cells to adopt a wide range of different phenotypes in response to changes in environmental conditions. The ecological implications of these cellular computations are poorly understood, and they are largely absent from models of microbial community assembly. Her...

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Veröffentlicht in:Natural computing 2018-12, Vol.17 (4), p.811-822
Hauptverfasser: Baskerville, Maia, Biro, Arielle, Blazanin, Mike, Chang, Chang-Yu, Hallworth, Amelia, Sonnert, Nicole, Vila, Jean C. C., Sanchez, Alvaro
Format: Artikel
Sprache:eng
Schlagworte:
Artificial Intelligence
Assembly
Cellular communication
Communities
Complex Systems
Computer Science
Decision making
Ecological effects
Evolutionary Biology
Microorganisms
Processor Architectures
Theory of Computation
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Zusammenfassung:Gene regulatory networks allow single cells to adopt a wide range of different phenotypes in response to changes in environmental conditions. The ecological implications of these cellular computations are poorly understood, and they are largely absent from models of microbial community assembly. Here, we highlight a number of examples where ecological interactions are or may be affected by cellular computations. Our review identifies specific opportunities for integrating cellular decision-making into mathematical models of microbe-microbe interactions and community assembly. We argue that incorporating cellular decision-making into microbial ecology will be critical in order to gain a quantitative understanding of microbial biogeography.
ISSN:1567-7818
1572-9796
DOI:10.1007/s11047-018-9708-8