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Evidence of independent acquisition and adaption of ultra-small bacteria to human hosts across the highly diverse yet reduced genomes of the phylum Saccharibacteria

View ORCID ProfileJeffrey S. McLean, Batbileg Bor, Thao T. To, Quanhui Liu, Kristopher A. Kerns, Lindsey Solden, Kelly Wrighton, Xuesong He, Wenyuan Shi
doi: https://doi.org/10.1101/258137
Jeffrey S. McLean
aDepartment of Periodontics, University of Washington, Seattle, WA, 98195, USA
bDepartment of Microbiology, University of Washington, Seattle, WA, 98195, USA
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  • ORCID record for Jeffrey S. McLean
  • For correspondence: jsmclean@uw.edu
Batbileg Bor
cDepartment of Microbiology, The Forsyth Institute, Cambridge, Massachusetts 02142
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Thao T. To
aDepartment of Periodontics, University of Washington, Seattle, WA, 98195, USA
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Quanhui Liu
aDepartment of Periodontics, University of Washington, Seattle, WA, 98195, USA
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Kristopher A. Kerns
aDepartment of Periodontics, University of Washington, Seattle, WA, 98195, USA
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Lindsey Solden
dDepartment of Microbiology, The Ohio State University, Columbus, OH, USA
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Kelly Wrighton
dDepartment of Microbiology, The Ohio State University, Columbus, OH, USA
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Xuesong He
cDepartment of Microbiology, The Forsyth Institute, Cambridge, Massachusetts 02142
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Wenyuan Shi
cDepartment of Microbiology, The Forsyth Institute, Cambridge, Massachusetts 02142
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ABSTRACT

Recently, we discovered that a member of the Saccharibacteria/TM7 phylum (strain TM7x) isolated from the human oral cavity, has an ultra-small cell size (200-300nm), a highly reduced genome (705 Kbp) with limited de novo biosynthetic capabilities, and a very novel lifestyle as an obligate epibiont on the surface of another bacterium 1. There has been considerable interest in uncultivated phyla, particularly those that are now classified as the proposed candidate phyla radiation (CPR) reported to include 35 or more phyla and are estimated to make up nearly 15% of the domain Bacteria. Most members of the larger CPR group share genomic properties with Saccharibacteria including reduced genomes (<1Mbp) and lack of biosynthetic capabilities, yet to date, strain TM7x represents the only member of the CPR that has been cultivated and is one of only three CPR routinely detected in the human body. Through small subunit ribosomal RNA (SSU rRNA) gene surveys, members of the Saccharibacteria phylum are reported in many environments as well as within a diversity of host species and have been shown to increase dramatically in human oral and gut diseases. With a single copy of the 16S rRNA gene resolved on a few limited genomes, their absolute abundance is most often underestimated and their potential role in disease pathogenesis is therefore underappreciated. Despite being an obligate parasite dependent on other bacteria, six groups (G1-G6) are recognized using SSU rRNA gene phylogeny in the oral cavity alone. At present, only genomes from the G1 group, which includes related and remarkably syntenic environmental and human oral associated representatives1, have been uncovered to date. In this study we systematically captured the spectrum of known diversity in this phylum by reconstructing completely novel Class level genomes belonging to groups G3, G6 and G5 through cultivation enrichment and/or metagenomic binning from humans and mammalian rumen. Additional genomes for representatives of G1 were also obtained from modern oral plaque and ancient dental calculus. Comparative analysis revealed remarkable divergence in the host-associated members across this phylum. Within the human oral cavity alone, variation in as much as 70% of the genes from nearest oral clade (AAI 50%) as well as wide GC content variation is evident in these newly captured divergent members (G3, G5 and G6) with no environmental relatives. Comparative analyses suggest independent episodes of transmission of these TM7 groups into humans and convergent evolution of several key functions during adaptation within hosts. In addition, we provide evidence from in vivo collected samples that each of these major groups are ultra-small in size and are found attached to larger cells.

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Posted February 02, 2018.
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Evidence of independent acquisition and adaption of ultra-small bacteria to human hosts across the highly diverse yet reduced genomes of the phylum Saccharibacteria
Jeffrey S. McLean, Batbileg Bor, Thao T. To, Quanhui Liu, Kristopher A. Kerns, Lindsey Solden, Kelly Wrighton, Xuesong He, Wenyuan Shi
bioRxiv 258137; doi: https://doi.org/10.1101/258137
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Evidence of independent acquisition and adaption of ultra-small bacteria to human hosts across the highly diverse yet reduced genomes of the phylum Saccharibacteria
Jeffrey S. McLean, Batbileg Bor, Thao T. To, Quanhui Liu, Kristopher A. Kerns, Lindsey Solden, Kelly Wrighton, Xuesong He, Wenyuan Shi
bioRxiv 258137; doi: https://doi.org/10.1101/258137

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