肠道d型细胞色素氧化酶在固氮和微需氧中的作用。
Roles for enteric d-type cytochrome oxidase in N2 fixation and microaerobiosis.
作者信息
Hill S, Viollet S, Smith A T, Anthony C
机构信息
Nitrogen Fixation Laboratory, AFRC Institute of Plant Science Research, University of Sussex, Brighton, United Kingdom.
出版信息
J Bacteriol. 1990 Apr;172(4):2071-8. doi: 10.1128/jb.172.4.2071-2078.1990.
Abstract
Escherichia coli strains that lacked the d-type cytochrome oxidase, the terminal oxidase with a high affinity for O2, grew anaerobically as well as the wild type did and were not impaired in the ability to evolve H2 from either glucose or formate. The anaerobic synthesis and activity of nitrogenase in transconjugants of these strains carrying Klebsiella pneumoniae nif genes were also normal. However, the behavior towards O2 of anaerobically grown bacteria lacking the d-type oxidase differed from that of the wild type in the following ways: the potential O2 uptake was lower, H2 evolution and nitrogenase activity supported by fermentation were more strongly inhibited by O2, and microaerobic O2-dependent nitrogenase activity in the absence of a fermentable carbon source did not occur. These results show that the d-type oxidase serves two functions in enteric bacteria--to conserve energy under microaerobic conditions and to protect anaerobic processes from inhibition by O2.
摘要
缺乏d型细胞色素氧化酶(一种对氧气具有高亲和力的末端氧化酶)的大肠杆菌菌株,在厌氧条件下的生长情况与野生型菌株一样良好,并且从葡萄糖或甲酸盐中产生氢气的能力也未受损。携带肺炎克雷伯菌固氮基因的这些菌株的转接合子中,固氮酶的厌氧合成和活性也正常。然而,缺乏d型氧化酶的厌氧生长细菌对氧气的反应与野生型不同,具体如下:潜在的氧气摄取较低,发酵支持的氢气产生和固氮酶活性受到氧气的抑制更强,并且在没有可发酵碳源的情况下,微需氧的氧气依赖性固氮酶活性不会发生。这些结果表明,d型氧化酶在肠道细菌中具有两种功能——在微需氧条件下保存能量以及保护厌氧过程免受氧气抑制。
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