Biosynthetic capacity, metabolic variety and unusual biology in the CPR and DPANN radiations

Candidate phyla radiation (CPR) bacteria and DPANN (an acronym of the names of the first included phyla) archaea are massive radiations of organisms that are widely distributed across Earth’s environments, yet we know little about them. Initial indications are that they are consistently distinct fro...

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Veröffentlicht in:	Nature reviews. Microbiology 2018-10, Vol.16 (10), p.629-645
Hauptverfasser:	Castelle, Cindy J., Brown, Christopher T., Anantharaman, Karthik, Probst, Alexander J., Huang, Raven H., Banfield, Jillian F.
Format:	Artikel
Sprache:	eng
Schlagworte:	631/1647/514/1948 631/181 631/326/2565/547 Anaerobiosis Analysis Archaea Archaea - genetics Archaea - metabolism Archaea - physiology Bacteria Bacteria - genetics Bacteria - metabolism Bacteria, Anaerobic Bacterial Physiological Phenomena - genetics BASIC BIOLOGICAL SCIENCES Biology Biomedical and Life Sciences Biosynthesis Cell Size Dependence Genetic aspects Genome, Archaeal - genetics Genome, Archaeal - physiology Genome, Bacterial - genetics Genome, Bacterial - physiology Genomes Genomics Identification and classification Infectious Diseases Life Sciences Medical Microbiology Metabolism Microbiological research Microbiology Microbiomes Microorganisms Organisms Parasitology Phylogeny Radiation (Physics) Symbiosis Virology
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creator	Castelle, Cindy J. Brown, Christopher T. Anantharaman, Karthik Probst, Alexander J. Huang, Raven H. Banfield, Jillian F.
description	Candidate phyla radiation (CPR) bacteria and DPANN (an acronym of the names of the first included phyla) archaea are massive radiations of organisms that are widely distributed across Earth’s environments, yet we know little about them. Initial indications are that they are consistently distinct from essentially all other bacteria and archaea owing to their small cell and genome sizes, limited metabolic capacities and often episymbiotic associations with other bacteria and archaea. In this Analysis, we investigate their biology and variations in metabolic capacities by analysis of approximately 1,000 genomes reconstructed from several metagenomics-based studies. We find that they are not monolithic in terms of metabolism but rather harbour a diversity of capacities consistent with a range of lifestyles and degrees of dependence on other organisms. Notably, however, certain CPR and DPANN groups seem to have exceedingly minimal biosynthetic capacities, whereas others could potentially be free living. Understanding of these microorganisms is important from the perspective of evolutionary studies and because their interactions with other organisms are likely to shape natural microbiome function. Candidate phyla radiation (CPR) bacteria and DPANN archaea are massive radiations of organisms recently identified. In this Analysis, Castelle et al. explore the metabolic potential of CPR and DPANN radiation, focusing in particular on metabolic gaps and unexpected biological features that are unusual outside of these groups.
doi_str_mv	10.1038/s41579-018-0076-2
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subjects	631/1647/514/1948 631/181 631/326/2565/547 Anaerobiosis Analysis Archaea Archaea - genetics Archaea - metabolism Archaea - physiology Bacteria Bacteria - genetics Bacteria - metabolism Bacteria, Anaerobic Bacterial Physiological Phenomena - genetics BASIC BIOLOGICAL SCIENCES Biology Biomedical and Life Sciences Biosynthesis Cell Size Dependence Genetic aspects Genome, Archaeal - genetics Genome, Archaeal - physiology Genome, Bacterial - genetics Genome, Bacterial - physiology Genomes Genomics Identification and classification Infectious Diseases Life Sciences Medical Microbiology Metabolism Microbiological research Microbiology Microbiomes Microorganisms Organisms Parasitology Phylogeny Radiation (Physics) Symbiosis Virology
title	Biosynthetic capacity, metabolic variety and unusual biology in the CPR and DPANN radiations
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