Literature DB >> 27819664

Measurement of bacterial replication rates in microbial communities.

Christopher T Brown1, Matthew R Olm1, Brian C Thomas2, Jillian F Banfield2,3,4.   

Abstract

Culture-independent microbiome studies have increased our understanding of the complexity and metabolic potential of microbial communities. However, to understand the contribution of individual microbiome members to community functions, it is important to determine which bacteria are actively replicating. We developed an algorithm, iRep, that uses draft-quality genome sequences and single time-point metagenome sequencing to infer microbial population replication rates. The algorithm calculates an index of replication (iRep) based on the sequencing coverage trend that results from bi-directional genome replication from a single origin of replication. We apply this method to show that microbial replication rates increase after antibiotic administration in human infants. We also show that uncultivated, groundwater-associated, Candidate Phyla Radiation bacteria only rarely replicate quickly in subsurface communities undergoing substantial changes in geochemistry. Our method can be applied to any genome-resolved microbiome study to track organism responses to varying conditions, identify actively growing populations and measure replication rates for use in modeling studies.

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Mesh:

Year:  2016        PMID: 27819664      PMCID: PMC5538567          DOI: 10.1038/nbt.3704

Source DB:  PubMed          Journal:  Nat Biotechnol        ISSN: 1087-0156            Impact factor:   54.908


  53 in total

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6.  Reordering contigs of draft genomes using the Mauve aligner.

Authors:  Anna I Rissman; Bob Mau; Bryan S Biehl; Aaron E Darling; Jeremy D Glasner; Nicole T Perna
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  118 in total

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Review 5.  Methods for quantification of growth and productivity in anaerobic microbiology and biotechnology.

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Review 7.  Growing, evolving and sticking in a flowing environment: understanding IgA interactions with bacteria in the gut.

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9.  Taxon-specific microbial growth and mortality patterns reveal distinct temporal population responses to rewetting in a California grassland soil.

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10.  Lysogeny is prevalent and widely distributed in the murine gut microbiota.

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