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Capacity for survival in global warming: Adaptation of mesophiles to the temperature upper limit.

Tomoyuki KosakaYasuyuki NakajimaAyana IshiiMaiko YamashitaSaki YoshidaMasayuki MurataKunpei KatoYuki ShiromaruShun KatoYu KanasakiHirofumi YoshikawaMinenosuke MatsutaniPornthap ThanonkeoMamoru Yamada
Published in: PloS one (2019)
The Intergovernmental Panel on Climate Change recommends keeping the increase in temperature to less than a two-degree increase by the end of the century, but the direct impact of global warming on ecosystems including microbes has not been investigated. Here we performed thermal adaptation of two species and three strains of mesophilic microbes for improvement of the survival upper limit of temperature, and the improvement was evaluated by a newly developed method. To understand the limitation and variation of thermal adaptation, experiments with mutators and by multiple cultures were performed. The results of experiments including genome sequencing and analysis of the characteristics of mutants suggest that these microbes bear a genomic potential to endure a 2-3°C rise in temperature but possess a limited variation of strategies for thermal adaptation.
Keyphrases
  • climate change
  • human health
  • gene expression
  • mass spectrometry
  • single molecule
  • genetic diversity
  • high speed