在荚膜红细菌中,AmtB对于铵离子(NH₄⁺)诱导的固氮酶关闭和ADP核糖基化是必需的。
AmtB is necessary for NH(4)(+)-induced nitrogenase switch-off and ADP-ribosylation in Rhodobacter capsulatus.
作者信息
Yakunin Alexander F, Hallenbeck Patrick C
机构信息
Département de Microbiologie et Immunologie, Université de Montréal, Succursale Centre-ville, Montréal, Québec H3C 3J7, Canada.
出版信息
J Bacteriol. 2002 Aug;184(15):4081-8. doi: 10.1128/JB.184.15.4081-4088.2002.
Abstract
Rhodobacter capsulatus possesses two genes potentially coding for ammonia transporters, amtB and amtY. In order to better understand their role in the physiology of this bacterium and their possible significance in nitrogen fixation, we created single-knockout mutants. Strains mutated in either amtB or amtY did not show a growth defect under any condition tested and were still capable of taking up ammonia at nearly wild-type rates, but an amtB mutant was no longer capable of transporting methylamine. The amtB strain but not the amtY strain was also totally defective in carrying out ADP-ribosylation of Fe-protein or the switch-off of in vivo nitrogenase activity in response to NH(4)(+) addition. ADP-ribosylation in response to darkness was unaffected in amtB and amtBY strains, and glutamine synthetase activity was normally regulated in these strains in response to ammonium addition, suggesting that one role of AmtB is to function as an ammonia sensor for the processes that regulate nitrogenase activity.
摘要
荚膜红细菌拥有两个可能编码氨转运蛋白的基因,amtB和amtY。为了更好地理解它们在这种细菌生理学中的作用以及它们在固氮中的潜在意义,我们构建了单敲除突变体。在amtB或amtY中发生突变的菌株在任何测试条件下均未表现出生长缺陷,并且仍然能够以接近野生型的速率吸收氨,但是amtB突变体不再能够转运甲胺。amtB菌株而非amtY菌株在进行铁蛋白的ADP核糖基化或响应于添加NH₄⁺时体内固氮酶活性的关闭方面也完全缺陷。在amtB和amtBY菌株中,响应黑暗的ADP核糖基化不受影响,并且这些菌株中的谷氨酰胺合成酶活性在响应添加铵时正常调节,这表明AmtB的一个作用是作为调节固氮酶活性过程的氨传感器。
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