Single cell genome analysis of an uncultured heterotrophic stramenopile

Rajat S. Roy; Dana C. Price; Alexander Schliep; Guohong Cai; Anton Korobeynikov; Hwan Su Yoon; Eun Chan Yang; Debashish Bhattacharya

doi:10.1038/srep04780

Single cell genome analysis of an uncultured heterotrophic stramenopile

Rajat S. Roy
, Dana C. Price
, Alexander Schliep
, Guohong Cai
, Anton Korobeynikov
, Hwan Su Yoon
, Eun Chan Yang
, Debashish Bhattacharya

Department of Biological Sciences

Rutgers - The State University of New Jersey, New Brunswick
St. Petersburg State University
Saint Petersburg Academic University
Korea Institute of Ocean Science & Technology

Research output: Contribution to journal › Article › peer-review

43 Scopus citations

Abstract

A broad swath of eukaryotic microbial biodiversity cannot be cultivated in the lab and is therefore inaccessible to conventional genome-wide comparative methods. One promising approach to study these lineages is single cell genomics (SCG), whereby an individual cell is captured from nature and genome data are produced from the amplified total DNA. Here we tested the efficacy of SCG to generate a draft genome assembly from a single sample, in this case a cell belonging to the broadly distributed MAST-4 uncultured marine stramenopiles. Using de novo gene prediction, we identified 6,996 protein-encoding genes in the MAST-4 genome. This genetic inventory was sufficient to place the cell within the ToL using multigene phylogenetics and provided preliminary insights into the complex evolutionary history of horizontal gene transfer (HGT) in the MAST-4 lineage.

Original language	English
Article number	4780
Journal	Scientific Reports
Volume	4
DOIs	https://doi.org/10.1038/srep04780
State	Published - 24 Apr 2014

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abstract = "A broad swath of eukaryotic microbial biodiversity cannot be cultivated in the lab and is therefore inaccessible to conventional genome-wide comparative methods. One promising approach to study these lineages is single cell genomics (SCG), whereby an individual cell is captured from nature and genome data are produced from the amplified total DNA. Here we tested the efficacy of SCG to generate a draft genome assembly from a single sample, in this case a cell belonging to the broadly distributed MAST-4 uncultured marine stramenopiles. Using de novo gene prediction, we identified 6,996 protein-encoding genes in the MAST-4 genome. This genetic inventory was sufficient to place the cell within the ToL using multigene phylogenetics and provided preliminary insights into the complex evolutionary history of horizontal gene transfer (HGT) in the MAST-4 lineage.",

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AU - Roy, Rajat S.

AU - Price, Dana C.

AU - Schliep, Alexander

AU - Cai, Guohong

AU - Korobeynikov, Anton

AU - Yoon, Hwan Su

AU - Yang, Eun Chan

AU - Bhattacharya, Debashish

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AB - A broad swath of eukaryotic microbial biodiversity cannot be cultivated in the lab and is therefore inaccessible to conventional genome-wide comparative methods. One promising approach to study these lineages is single cell genomics (SCG), whereby an individual cell is captured from nature and genome data are produced from the amplified total DNA. Here we tested the efficacy of SCG to generate a draft genome assembly from a single sample, in this case a cell belonging to the broadly distributed MAST-4 uncultured marine stramenopiles. Using de novo gene prediction, we identified 6,996 protein-encoding genes in the MAST-4 genome. This genetic inventory was sufficient to place the cell within the ToL using multigene phylogenetics and provided preliminary insights into the complex evolutionary history of horizontal gene transfer (HGT) in the MAST-4 lineage.

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Single cell genome analysis of an uncultured heterotrophic stramenopile

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