鱼腥藻CA菌株的突变体在固氮条件下生长能力发生了改变。
Mutants of Anabaena strain CA altered in their ability to grow under nitrogen-fixing conditions.
作者信息
Gotto J W, Tabita F R, Van Baalen C
出版信息
J Bacteriol. 1979 Nov;140(2):327-32. doi: 10.1128/jb.140.2.327-332.1979.
Mutants of Anabaena strain CA impaired in nitrogenase activity and growth on N2 were isolated and characterized. One mutant was selected for resistance to L-methionine-DL-sulfoximine, and others were selected for resistance to DL-7-azatryptophan or for requirements for combined nitrogen. The mutants varied in sensitivity of growth and nitrogenase activity to atmospheric 02. Several of the mutants whose growth on N2 was impaired under aerobic conditions could grow and reduce acetylene at rates comparable to the wild type when grown microaerobically under N2-CO2 (99:1). The acetylene reduction activity of some of the strains grown under N2-CO2 was immediately and completely lost upon exposure to atmospheric O2, but in at least one strain this loss was reversed when the O2 concentration was lowered, even after 10 h of exposure to air. The characteristics of the O2-sensitive mutants suggest that there may be several sites sensitive to O2 and that the protective mechanism involves several different phenomena.
分离并鉴定了鱼腥藻CA菌株中固氮酶活性和在N₂上生长受损的突变体。选择了一个对L-甲硫氨酸-DL-亚砜亚胺具有抗性的突变体,以及其他对DL-7-氮杂色氨酸具有抗性或对化合态氮有需求的突变体。这些突变体在生长和固氮酶活性对大气中O₂的敏感性方面存在差异。在有氧条件下在N₂上生长受损的几个突变体,当在N₂-CO₂(99:1)下微需氧生长时,能够以与野生型相当的速率生长并还原乙炔。在N₂-CO₂下生长的一些菌株的乙炔还原活性在暴露于大气O₂后立即完全丧失,但至少在一个菌株中,即使在暴露于空气中10小时后,当O₂浓度降低时,这种丧失也会逆转。对O₂敏感的突变体的特征表明,可能有几个对O₂敏感的位点,并且保护机制涉及几种不同的现象。
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