维涅兰德固氮菌结构基因缺失的菌株的固氮作用。

Nitrogen Fixation by Azotobacter vinelandii Strains Having Deletions in Structural Genes for Nitrogenase.

作者信息

Bishop P E, Premakumar R, Dean D R, Jacobson M R, Chisnell J R, Rizzo T M, Kopczynski J

出版信息

Science. 1986 Apr 4;232(4746):92-4. doi: 10.1126/science.232.4746.92.

DOI:10.1126/science.232.4746.92

Abstract

Phenotypic reversal of Nif(-) mutant strains to Nif(+) under molybdenum-deficient conditions has been cited as evidence that Azotobacter vinelandii possesses two nitrogen fixation systems: the conventional molybdenum-enzyme system and an alternative nitrogen-fixation system. Since explanations other than the existence of an alternative system were possible, deletion strains of A. vinelandii lacking the structural genes for conventional nitrogenase (nifHDK) were constructed. These strains were found to grow in molybdenum-deficient nitrogen-free media, reduce acetylene (at low rates), and incorporate molecular nitrogen labeled with nitrogen-15. Thus it can be concluded that the phenotypic reversal phenomenon cannot be due to altered phenotypic expression of nif mutations under molybdenum-deficient conditions, but is due to the existence of an alternative nitrogen-fixation system in A. vinelandii as originally proposed.

摘要

在缺钼条件下，固氮酶阴性（Nif(-)）突变菌株向固氮酶阳性（Nif(+)）的表型逆转，被引为证据证明维涅兰德固氮菌拥有两种固氮系统：传统的钼酶系统和一种替代固氮系统。由于除了存在替代系统之外，其他解释也是有可能的，因此构建了缺乏传统固氮酶结构基因（nifHDK）的维涅兰德固氮菌缺失菌株。发现这些菌株能够在缺钼的无氮培养基中生长，还原乙炔（速率较低），并掺入用氮-15标记的分子氮。因此可以得出结论，表型逆转现象并非由于缺钼条件下nif突变的表型表达改变所致，而是如最初所提出的，是由于维涅兰德固氮菌中存在替代固氮系统。

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维涅兰德固氮菌结构基因缺失的菌株的固氮作用。

Nitrogen Fixation by Azotobacter vinelandii Strains Having Deletions in Structural Genes for Nitrogenase.

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