Is there a common water-activity limit for the three domains of life?

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Title: Is there a common water-activity limit for the three domains of life?
Authors: Stevenson, Andrew | Cray, Jonathan A. | Williams, Jim P. | Santos, Ricardo | Sahay, Richa | Neuenkirchen, Nils | McClure, Colin D. | Grant, Irene R. | Houghton, Jonathan D.R. | Quinn, John P. | Timson, David J. | Patil, Satish V. | Singhal, Rekha S. | Anton, Josefa | Dijksterhuis, Jan | Hocking, Ailsa D. | Lievens, Bart | Rangel, Drauzio E.N. | Voytek, Mary A. | Gunde-Cimerman, Nina | Oren, Aharon | Timmis, Kenneth N. | McGenity, Terry J. | Hallsworth, John E.
Research Group/s: Ecología Microbiana Molecular
Center, Department or Service: Universidad de Alicante. Departamento de Fisiología, Genética y Microbiología
Keywords: Archaea | Bacteria | Water activity
Knowledge Area: Microbiología
Issue Date: 12-Dec-2014
Publisher: Nature Publishing Group
Citation: The ISME Journal. 2014. doi:10.1038/ismej.2014.219
Abstract: Archaea and Bacteria constitute a majority of life systems on Earth but have long been considered inferior to Eukarya in terms of solute tolerance. Whereas the most halophilic prokaryotes are known for an ability to multiply at saturated NaCl (water activity (aw) 0.755) some xerophilic fungi can germinate, usually at high-sugar concentrations, at values as low as 0.650–0.605 aw. Here, we present evidence that halophilic prokayotes can grow down to water activities of <0.755 for Halanaerobium lacusrosei (0.748), Halobacterium strain 004.1 (0.728), Halobacterium sp. NRC-1 and Halococcus morrhuae (0.717), Haloquadratum walsbyi (0.709), Halococcus salifodinae (0.693), Halobacterium noricense (0.687), Natrinema pallidum (0.681) and haloarchaeal strains GN-2 and GN-5 (0.635 aw). Furthermore, extrapolation of growth curves (prone to giving conservative estimates) indicated theoretical minima down to 0.611 aw for extreme, obligately halophilic Archaea and Bacteria. These were compared with minima for the most solute-tolerant Bacteria in high-sugar (or other non-saline) media (Mycobacterium spp., Tetragenococcus halophilus, Saccharibacter floricola, Staphylococcus aureus and so on) and eukaryotic microbes in saline (Wallemia spp., Basipetospora halophila, Dunaliella spp. and so on) and high-sugar substrates (for example, Xeromyces bisporus, Zygosaccharomyces rouxii, Aspergillus and Eurotium spp.). We also manipulated the balance of chaotropic and kosmotropic stressors for the extreme, xerophilic fungi Aspergillus penicilloides and X. bisporus and, via this approach, their established water-activity limits for mycelial growth (~0.65) were reduced to 0.640. Furthermore, extrapolations indicated theoretical limits of 0.632 and 0.636 aw for A. penicilloides and X. bisporus, respectively. Collectively, these findings suggest that there is a common water-activity limit that is determined by physicochemical constraints for the three domains of life.
Sponsor: Funding was received from the Research (Northern Ireland) and Enterprise Directorate of Queen’s University Belfast; Department of Agriculture and Rural Development and the Department for Employment and Learning (Northern Ireland); Biotechnology and Biological Sciences Research Council (BBSRC, UK) Projects BBF/003471/1 and BBF/00351X/1; and the Beaufort Marine Research Award for Marine Biodiscovery that is carried out under the Sea Change Strategy and the Strategy for Science Technology and Innovation (2006–2013), with the support of the Marine Institute, Ireland. This work was also supported by the State of São Paulo Research Foundation (FAPESP) via a grant awarded to Drauzio EN Rangel (#2010/06374-1).
ISSN: 1751-7362 (Print) | 1751-7370 (Online)
DOI: 10.1038/ismej.2014.219
Language: eng
Type: info:eu-repo/semantics/article
Rights: This work is licensed under a Creative Commons Attribution 3.0 Unported License
Peer Review: si
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