Comparison of the adaptive potential of the Arthrobacter oxydans and Acinetobacter lwoffii isolates from permafrost sedimentary rock and the analogous collection strains

A comparative study was conducted on the adaptive mechanisms of the strains Arthrobacter oxydans K14 and Acinetobacter lwoffii EK30A isolated from permafrost subsoil sediments and of those of the analogous collection strains (Ac-1114 Type and BSW-27, respectively). In each pair of the strains compar...

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Veröffentlicht in:	Microbiology (New York) 2013, Vol.82 (1), p.29-42
Hauptverfasser:	Kryazhevskikh, N. A., Demkina, E. V., Loiko, N. G., Baslerov, R. V., Kolganova, T. V., Soina, V. S., Manucharova, N. A., Gal’chenko, V. F., El’-Registan, G. I.
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Schlagworte:	Acinetobacter Acinetobacter lwoffii Arthrobacter Arthrobacter oxydans Biomedical and Life Sciences Experimental Articles Life Sciences Medical Microbiology Microbiology
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creator	Kryazhevskikh, N. A. Demkina, E. V. Loiko, N. G. Baslerov, R. V. Kolganova, T. V. Soina, V. S. Manucharova, N. A. Gal’chenko, V. F. El’-Registan, G. I.
description	A comparative study was conducted on the adaptive mechanisms of the strains Arthrobacter oxydans K14 and Acinetobacter lwoffii EK30A isolated from permafrost subsoil sediments and of those of the analogous collection strains (Ac-1114 Type and BSW-27, respectively). In each pair of the strains compared, the strains differed in terms of (i) growth-related, physiological, and biochemical properties; (ii) resistance to stress factors; (iii) capacity for generation of dormant forms (DFs) under growth arrest conditions, and (iv) intrapopulation production of phase variants. The strains isolated from permafrost displayed a lower growth rate but were more resistant to repeated freezing-thawing treatment than the collection strains. Under the same growth conditions, the permafrost strains formed larger numbers of cystlike anabiotic DFs, extraordinarily small cells, and forms that became nonculturable during long-term storage. Resuscitation of the nonculturable forms resulted in a 2- to-7-fold increase in the percentage of FISH-detectable metabolically active cells. The permafrost strains were also distinguished by increased genome lability. This facilitated their dissociation into intrapopulation variants with phenotypically distinct colonial and morphological properties and different antibiotic resistance. The phenotypic variability was more prominent in Arthrobacter (for which it was not reported previously) than in Acinetobacter . In the populations produced by plating the dormant bacterial forms, the qualitative and quantitative characteristics of the phase variant spectra varied depending on the formation conditions and the composition of the solid media used for the plating. Thus, the permafrost isolates of A. oxydans and Ac. lwoffii were distinguished from their collection analogs by a more manifest adaptive potential including stress resistance, the intensity of DF generation under growth arrest conditions, and increased intrapopulation variability.
doi_str_mv	10.1134/S0026261713010050
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A. ; Demkina, E. V. ; Loiko, N. G. ; Baslerov, R. V. ; Kolganova, T. V. ; Soina, V. S. ; Manucharova, N. A. ; Gal’chenko, V. F. ; El’-Registan, G. I.</creator><creatorcontrib>Kryazhevskikh, N. A. ; Demkina, E. V. ; Loiko, N. G. ; Baslerov, R. V. ; Kolganova, T. V. ; Soina, V. S. ; Manucharova, N. A. ; Gal’chenko, V. F. ; El’-Registan, G. I.</creatorcontrib><description>A comparative study was conducted on the adaptive mechanisms of the strains Arthrobacter oxydans K14 and Acinetobacter lwoffii EK30A isolated from permafrost subsoil sediments and of those of the analogous collection strains (Ac-1114 Type and BSW-27, respectively). In each pair of the strains compared, the strains differed in terms of (i) growth-related, physiological, and biochemical properties; (ii) resistance to stress factors; (iii) capacity for generation of dormant forms (DFs) under growth arrest conditions, and (iv) intrapopulation production of phase variants. The strains isolated from permafrost displayed a lower growth rate but were more resistant to repeated freezing-thawing treatment than the collection strains. Under the same growth conditions, the permafrost strains formed larger numbers of cystlike anabiotic DFs, extraordinarily small cells, and forms that became nonculturable during long-term storage. Resuscitation of the nonculturable forms resulted in a 2- to-7-fold increase in the percentage of FISH-detectable metabolically active cells. The permafrost strains were also distinguished by increased genome lability. This facilitated their dissociation into intrapopulation variants with phenotypically distinct colonial and morphological properties and different antibiotic resistance. The phenotypic variability was more prominent in Arthrobacter (for which it was not reported previously) than in Acinetobacter . In the populations produced by plating the dormant bacterial forms, the qualitative and quantitative characteristics of the phase variant spectra varied depending on the formation conditions and the composition of the solid media used for the plating. 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A.</creatorcontrib><creatorcontrib>Demkina, E. V.</creatorcontrib><creatorcontrib>Loiko, N. G.</creatorcontrib><creatorcontrib>Baslerov, R. V.</creatorcontrib><creatorcontrib>Kolganova, T. V.</creatorcontrib><creatorcontrib>Soina, V. S.</creatorcontrib><creatorcontrib>Manucharova, N. A.</creatorcontrib><creatorcontrib>Gal’chenko, V. F.</creatorcontrib><creatorcontrib>El’-Registan, G. I.</creatorcontrib><title>Comparison of the adaptive potential of the Arthrobacter oxydans and Acinetobacter lwoffii isolates from permafrost sedimentary rock and the analogous collection strains</title><title>Microbiology (New York)</title><addtitle>Microbiology</addtitle><description>A comparative study was conducted on the adaptive mechanisms of the strains Arthrobacter oxydans K14 and Acinetobacter lwoffii EK30A isolated from permafrost subsoil sediments and of those of the analogous collection strains (Ac-1114 Type and BSW-27, respectively). In each pair of the strains compared, the strains differed in terms of (i) growth-related, physiological, and biochemical properties; (ii) resistance to stress factors; (iii) capacity for generation of dormant forms (DFs) under growth arrest conditions, and (iv) intrapopulation production of phase variants. The strains isolated from permafrost displayed a lower growth rate but were more resistant to repeated freezing-thawing treatment than the collection strains. Under the same growth conditions, the permafrost strains formed larger numbers of cystlike anabiotic DFs, extraordinarily small cells, and forms that became nonculturable during long-term storage. Resuscitation of the nonculturable forms resulted in a 2- to-7-fold increase in the percentage of FISH-detectable metabolically active cells. The permafrost strains were also distinguished by increased genome lability. This facilitated their dissociation into intrapopulation variants with phenotypically distinct colonial and morphological properties and different antibiotic resistance. The phenotypic variability was more prominent in Arthrobacter (for which it was not reported previously) than in Acinetobacter . In the populations produced by plating the dormant bacterial forms, the qualitative and quantitative characteristics of the phase variant spectra varied depending on the formation conditions and the composition of the solid media used for the plating. Thus, the permafrost isolates of A. oxydans and Ac. lwoffii were distinguished from their collection analogs by a more manifest adaptive potential including stress resistance, the intensity of DF generation under growth arrest conditions, and increased intrapopulation variability.</description><subject>Acinetobacter</subject><subject>Acinetobacter lwoffii</subject><subject>Arthrobacter</subject><subject>Arthrobacter oxydans</subject><subject>Biomedical and Life Sciences</subject><subject>Experimental Articles</subject><subject>Life Sciences</subject><subject>Medical Microbiology</subject><subject>Microbiology</subject><issn>0026-2617</issn><issn>1608-3237</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2013</creationdate><recordtype>article</recordtype><recordid>eNp9kUtvGyEUhVGVSHEePyA7ltlMy2OGwUvL6kuK1EWT9eiaucS4DEwAt81Pyr8MjptVpaxA-s453MMl5Jqzj5zL9tNPxoQSivdcMs5Yxz6QBVdMN1LI_oQsDrg58DNynvOOVYnougV5XsdphuRyDDRaWrZIYYS5uN9I51gwFAf-jaxS2aa4AVMw0fj3aYSQKYSRrowLWN6I_xOtdY7WUA8FM7UpTnTGNEG95UIzjm6q0ZCeaIrm12vG69MBfHyI-0xN9B5NcXWsXBK4kC_JqQWf8erfeUHuv3y-W39rbn98_b5e3TZGCl6ajdVKSQNa9Uulx16PHeIS6i9obUCgZaB5J1rTKaZkuxFLy1QvTcWt6TsjL8jNMXdO8XGPuQyTywa9h4B1soG3kmnFW6arlB-lptbKCe0wJzfVVgNnw2Etw39rqR5x9OSqDQ-Yhl3cp9o7v2N6AZE7kuE</recordid><startdate>2013</startdate><enddate>2013</enddate><creator>Kryazhevskikh, N. 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subjects	Acinetobacter Acinetobacter lwoffii Arthrobacter Arthrobacter oxydans Biomedical and Life Sciences Experimental Articles Life Sciences Medical Microbiology Microbiology
title	Comparison of the adaptive potential of the Arthrobacter oxydans and Acinetobacter lwoffii isolates from permafrost sedimentary rock and the analogous collection strains
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