AUTHOR=Huan Ran , Huang JiaFeng , Liu Dan , Wang Meng , Liu CongLing , Zhang YunQian , Yi CuiPing , Xiao Dong , He HaiLun 

TITLE=Genome Sequencing of Mesonia algae K4-1 Reveals Its Adaptation to the Arctic Ocean

JOURNAL=Frontiers in Microbiology

VOLUME=10

YEAR=2019

URL=https://www.frontiersin.org/journals/microbiology/articles/10.3389/fmicb.2019.02812

DOI=10.3389/fmicb.2019.02812

ISSN=1664-302X

ABSTRACT=<p>The special ecological environment of the Arctic has brought about a large number of salt-tolerant and psychrotolerant microorganisms. We isolated two culturable bacterial strains of the genus <italic>Mesonia</italic>; one from the Arctic ocean, <italic>Mesonia algae</italic> K4-1, and one from the tropical sea, <italic>Mesonia</italic> sp. HuA40. Our genome analysis and phenotypic experiments indicated that <italic>Mesonia algae</italic> K4-1 is a moderately halophilic and psychrophilic bacterium. <italic>Mesonia algae</italic> K4-1 can tolerate 3–14% NaCl and grow at a wide range of temperatures from 4 to 50°C. <italic>Mesonia</italic> sp. HuA40 is a mesophilic bacterium that can only grow with 3–9% NaCl. In addition, the salt adaptation strategy of <italic>Mesonia algae</italic> K4-1 accumulates organic osmolytes in the cell. RNA helicases, glutathione and organic compatible solutes may play important roles in maintaining the metabolism and physiological function of <italic>Mesonia algae</italic> K4-1 under cold stress. Moreover, the ability of <italic>Mesonia algae</italic> K4-1 to adapt to an oligotrophic marine environment is likely due to the synthesis of a large number of extracellular polysaccharides and the secretion of various families of extracellular proteases. This study systematically analyzed the relationship between genomic differentiation and environmental factors of the <italic>Mesonia</italic> genus and revealed the possible adaptation mechanism of <italic>Mesonia algae</italic> K4-1 in the extreme Arctic marine environment at the genomic level.</p>