Evolution, human-microbe interactions, and life history plasticity

Evolution, human-microbe interactions, and life history plasticity

A bacterium was once a component of the ancestor of all eukaryotic cells, and much of the human genome originated in microorganisms. Today, all vertebrates harbour large communities of microorganisms (microbiota), particularly in the gut, and at least 20% of the small molecules in human blood are pr...

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Bibliographic Details
Published in:The Lancet (British edition) Vol. 390; no. 10093; pp. 521 - 530
Main Authors: Rook, Graham, Bäckhed, Fredrik, Levin, Bruce R, McFall-Ngai, Margaret J, McLean, Angela R
Format: Journal Article
Language:English
Published: England Elsevier Ltd 29-07-2017
Elsevier Limited
Subjects:
Bacteria
Biological Evolution
c-reactive
critical community size
Disease
early-childhood
Evolution
Evolutionary biology
Exposure
Gastrointestinal Microbiome - physiology
Gastrointestinal tract
General & Internal Medicine
Genomes
gut microbiota
helicobacter-pylori
Host-Pathogen Interactions
Human beings
Humans
Immune system
Immune System - microbiology
Infections
Infectious Medicine
infectious-diseases
Infektionsmedicin
intestinal microbiota
Life history
Mental Disorders - immunology
Mental Disorders - microbiology
Metabolism
Microbiology
Microbiology in the medical area
Microbiota - physiology
Microorganisms
Mikrobiologi
Mikrobiologi inom det medicinska området
multiple-sclerosis
Natural environment
Parasites
Pathogens
Population growth
posttraumatic-stress-disorder
protein
Public Health
Vertebrates
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Summary:A bacterium was once a component of the ancestor of all eukaryotic cells, and much of the human genome originated in microorganisms. Today, all vertebrates harbour large communities of microorganisms (microbiota), particularly in the gut, and at least 20% of the small molecules in human blood are products of the microbiota. Changing human lifestyles and medical practices are disturbing the content and diversity of the microbiota, while simultaneously reducing our exposures to the so-called old infections and to organisms from the natural environment with which human beings co-evolved. Meanwhile, population growth is increasing the exposure of human beings to novel pathogens, particularly the crowd infections that were not part of our evolutionary history. Thus some microbes have co-evolved with human beings and play crucial roles in our physiology and metabolism, whereas others are entirely intrusive. Human metabolism is therefore a tug-of-war between managing beneficial microbes, excluding detrimental ones, and channelling as much energy as is available into other essential functions (eg, growth, maintenance, reproduction). This tug-of-war shapes the passage of each individual through life history decision nodes (eg, how fast to grow, when to mature, and how long to live).
Bibliography:ObjectType-Article-2
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ISSN:0140-6736
1474-547X
DOI:10.1016/S0140-6736(17)30566-4