Frontiers in Genetics (Aug 2018)

Construction and Characterization of Synthetic Bacterial Community for Experimental Ecology and Evolution

  • Johannes Cairns,
  • Roosa Jokela,
  • Jenni Hultman,
  • Manu Tamminen,
  • Marko Virta,
  • Teppo Hiltunen,
  • Teppo Hiltunen

DOI
https://doi.org/10.3389/fgene.2018.00312
Journal volume & issue
Vol. 9

Abstract

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Experimental microbial ecology and evolution have yielded foundational insights into ecological and evolutionary processes using simple microcosm setups and phenotypic assays with one- or two-species model systems. The fields are now increasingly incorporating more complex systems and exploration of the molecular basis of observations. For this purpose, simplified, manageable and well-defined multispecies model systems are required that can be easily investigated using culturing and high-throughput sequencing approaches, bridging the gap between simpler and more complex synthetic or natural systems. Here we address this need by constructing a completely synthetic 33 bacterial strain community that can be cultured in simple laboratory conditions. We provide whole-genome data for all the strains as well as metadata about genomic features and phenotypic traits that allow resolving individual strains by amplicon sequencing and facilitate a variety of envisioned mechanistic studies. We further show that a large proportion of the strains exhibit coexistence in co-culture over serial transfer for 48 days in the absence of any experimental manipulation to maintain diversity. The constructed bacterial community can be a valuable resource in future experimental work.

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