海洋细菌窄弧菌S14在生长过程中暴露于模拟阳光下的生理变化。

Physiological alteration of the marine bacterium Vibrio angustum S14 exposed to simulated sunlight during growth.

作者信息

Abboudi Maher, Matallana Surget Sabine, Rontani Jean-François, Sempéré Richard, Joux Fabien

机构信息

Laboratoire de Microbiologie Géochimie et Ecologie Marines, CNRS/INSU, UMR 6117, Centre d'Océanologie de Marseille, Université de la Méditerranée, Campus de Luminy, Case 901, F-13288, Marseille Cedex 9, France.

出版信息

Curr Microbiol. 2008 Nov;57(5):412-7. doi: 10.1007/s00284-008-9214-9. Epub 2008 Sep 4.

DOI:10.1007/s00284-008-9214-9

PMID:18769855

Abstract

Growth experiments on the marine bacterium Vibrio angustum S14 were conducted under four light conditions using a solar simulator: visible light (V), V + ultraviolet A (UV-A), V + UV-A + UV-B radiation, and dark. Growth was inhibited mainly by UV-B and slightly by UV-A. UV-B radiation induced filaments containing multiple genome copies with low cyclobutane pyrimidine dimers. These cells did not show modifications in cellular fatty acid composition in comparison with dark control cultures and decreased in size by division after subsequent incubation in the dark. A large portion of the bacterial population grown under visible light showed an alteration in cellular DNA fluorescence as measured by flow cytometry after SYBR-Green I staining. This alteration was not aggravated by UV-A and was certainly due to a change in DNA topology rather than DNA deterioration because all the cells remained viable and their growth was not impaired. Ecological consequences of these observations are discussed.

摘要

利用太阳模拟器在四种光照条件下对海洋细菌窄弧菌S14进行了生长实验：可见光（V）、V + 紫外线A（UV-A）、V + UV-A + UV-B辐射以及黑暗条件。生长主要受到UV-B的抑制，UV-A有轻微抑制作用。UV-B辐射诱导产生含有多个基因组拷贝且环丁烷嘧啶二聚体含量低的丝状菌体。与黑暗对照培养物相比，这些细胞的细胞脂肪酸组成没有变化，并且在随后的黑暗培养中通过分裂而变小。在可见光下生长的大部分细菌群体在SYBR-Green I染色后通过流式细胞术测量显示细胞DNA荧光发生了变化。这种变化没有因UV-A而加剧，并且肯定是由于DNA拓扑结构的改变而非DNA降解，因为所有细胞都保持存活且其生长未受损害。讨论了这些观察结果的生态后果。

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海洋细菌窄弧菌S14在生长过程中暴露于模拟阳光下的生理变化。

Physiological alteration of the marine bacterium Vibrio angustum S14 exposed to simulated sunlight during growth.

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