呼吸活动对海洋弧菌饥饿存活的影响。

Effects of respiratory activity on starvation survival of marine vibrios.

作者信息

Smigielski A J, Wallace B J, Abrahams S, Marshall K C

机构信息

School of Microbiology, University of New South Wales, Kensington, Australia.

出版信息

Arch Microbiol. 1990;153(2):175-80. doi: 10.1007/BF00247817.

DOI:10.1007/BF00247817

PMID:2154166

Abstract

The marine bacterium Vibrio fluvialis NCTC11328 responded to nutrient depletion by a reduction in cell volume, and this was prevented by conditions that eliminated respiration as a source of energy. Addition of the protonophore, CCCP, removal of oxygen and introduction of mutations leading to defects of the respiratory chain prevented size reduction during periods of nutrient limitation. Further, survival of the wild-type strain during starvation was reduced under anaerobic conditions and survival of respiratory mutants under aerobic conditions was reduced compared with that of the parent strain. Removal by mutation of the respiratory Na+ pump from Vibrio alginolyticus did not inhibit size reduction or lead to reduced viability in starved cultures.

摘要

河流弧菌NCTC11328这种海洋细菌通过细胞体积减小来应对营养物质耗尽的情况，而消除呼吸作为能量来源的条件可阻止这种情况发生。添加质子载体CCCP、去除氧气以及引入导致呼吸链缺陷的突变，可防止营养限制期间细胞体积减小。此外，与亲本菌株相比，野生型菌株在厌氧条件下饥饿期间的存活率降低，而呼吸突变体在需氧条件下的存活率降低。通过突变从溶藻弧菌中去除呼吸性Na⁺泵，不会抑制细胞体积减小，也不会导致饥饿培养物中的活力降低。

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呼吸活动对海洋弧菌饥饿存活的影响。

Effects of respiratory activity on starvation survival of marine vibrios.

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