Microbial community of the deep-sea brine Lake Kryos seawater-brine interface is active below the chaotropicity limit of life as revealed by recovery of mRNA Yakimov, M. M., La Cono, V., Spada, G. L., Bortoluzzi, G., Messina, E., Smedile, F., ... Giuliano, L. (2015). Microbial community of the deep-sea brine Lake Kryos seawater-brine interface is active below the chaotropicity limit of life as revealed by recovery of mRNA. Environmental Microbiology, 17 (2) This is the accepted version of the following article: Microbial community of the deep-sea brine Lake Kryos seawater-brine interface is active below the chaotropicity limit of life as revealed by recovery of mRNA, Michail M. Yakimov, Violetta La Cono, Gina La Spada, Giovanni Bortoluzzi, Enzo Messina, Francesco Smedile, Erika Arcadi, Mireno Borghini, Manuel Ferrer, Phillippe Schmitt-Kopplin, Norbert Hertkorn, Jonathan A. Cray, John E. Hallsworth, Peter N. Golyshin andLaura Giuliano, which has been published in final form at ttp://onlinelibrary.wiley.com/doi/10.1111/1462-2920.12587/abstract.
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25This article has been accepted for publication and undergone full peer review but has not been through the copyediting, typesetting, pagination and proofreading process, which may lead to differences between this version and the Version of Record. Please cite this article as doi: 10.1111/1462-2920.12587
Accepted ArticleThis article is protected by copyright. All rights reserved. the microbiology of the seawater-Kryos brine interface and managed to recover mRNA from the 10 2.27-3.03 M MgCl 2 layer (equivalent to 0.747-0.631 water-activity) thereby expanding the established 11 chaotropicity window-for-life. The primary bacterial taxa present there were KB1 candidate division 12 and DHAL-specific group of organisms, distantly related to Desulfohalobium. Two euryarchaeal 13 candidate divisions MSBL1 and HC1, detected in minority in the overlaying layers, accounted for 14 more than 85% of the rRNA-containing archaeal clones analyzed in 2.27-3.03 M MgCl 2 layer. These 15 findings shed light on the plausibility of life in highly chaotropic environments, geochemical 16 windows for microbial extremophiles, and have implications for habitability elsewhere in the Solar 17 System.
