Targeted Access to the Genomes of Low-Abundance Organisms in Complex Microbial Communities

Author:

Podar Mircea12,Abulencia Carl B.1,Walcher Marion1,Hutchison Don1,Zengler Karsten1,Garcia Joseph A.1,Holland Trevin1,Cotton David1,Hauser Loren2,Keller Martin12

Affiliation:

1. Diversa Corporation, 4955 Directors Place, San Diego, California 92121

2. Oak Ridge National Laboratory, Biosciences Division, Oak Ridge, Tennessee 37831

Abstract

ABSTRACT Current metagenomic approaches to the study of complex microbial consortia provide a glimpse into the community metabolism and occasionally allow genomic assemblies for the most abundant organisms. However, little information is gained for the members of the community present at low frequencies, especially those representing yet-uncultured taxa, which include the bulk of the diversity present in most environments. Here we used phylogenetically directed cell separation by fluorescence in situ hybridization and flow cytometry, followed by amplification and sequencing of a fraction of the genomic DNA of several bacterial cells that belong to the TM7 phylum. Partial genomic assembly allowed, for the first time, a look into the evolution and potential metabolism of a soil representative from this group of organisms for which there are no species in stable laboratory cultures. Genomic reconstruction from targeted cells of uncultured organisms isolated directly from the environment represents a powerful approach to access any specific members of a community and an alternative way to assess the community's metabolic potential.

Publisher

American Society for Microbiology

Subject

Ecology,Applied Microbiology and Biotechnology,Food Science,Biotechnology

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