The role of nitrogenase in a cyanide-degrading Klebsiella oxytoca strain.

J K Liu, C H Liu, C S Lin
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Abstract

It is well known that the major function of nitrogenase is to fix atmospheric nitrogen. However, cyanide can also serve as a subtrate for nitrogenase and can be reduced to CH4 and NH4+. A cyanide-degrading Klebsiella oxytoca strain was isolated from cyanide contaminated water. This isolate was also found to have a nitrogen-fixation capability. Nitrogenase activities in this organism could be induced by KCN. However, there was no significant difference of the induction effect between 1 mM KCN and 5 mM KCN. It was found that the cyanide-degrading ability of this isolate could be inhibited by multicopy hybrid pGR112 nif-containing plasmids. Comparing the wild type K. oxytoca strain with the pGR112 plasmid transformed strain, a typical diauxic growth of the wild type strain was observed in a medium containing NH4Cl and KCN. Although the nif plasmid transformed strain also exhibited diauxic growth in the same medium, a much longer second lag phase was noted. In addition, methane, the nitrogenase reduction end product of cyanide, could be detected on cyanide-containing growth cultures. Ammonium chloride, a repressor of nitrogenase gene expression, was consumed prior to KCN in both strains. Again, the degradation of KCN in the pGR112 transformed strain occurred only under loose control of the nitrogenase gene. These findings strongly suggest that nitrogenase may be the sole cyanide-degrading enzyme in this organism.

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氮酶在氧化克雷伯菌中降解氰化物的作用。
众所周知,固氮酶的主要功能是固定大气中的氮。然而,氰化物也可以作为氮酶的底物,可以还原为CH4和NH4+。从氰化物污染的水中分离到一株降解氰化物的氧化克雷伯菌。该分离物还被发现具有固氮能力。KCN可诱导该生物体内的氮酶活性。1 mM KCN与5 mM KCN诱导效果无显著差异。结果表明,含pGR112 nif的多拷贝杂交质粒可抑制该菌株对氰化物的降解能力。将野生型菌株与pGR112质粒转化菌株进行比较,发现野生型菌株在含NH4Cl和KCN的培养基中具有典型的双氧生长。虽然nif质粒转化的菌株在相同的培养基中也表现出双氧生长,但注意到更长的第二滞后期。此外,在含氰化物的生长培养物上可以检测到氰化物的氮酶还原终产物甲烷。氯化铵是一种抑制氮酶基因表达的物质,在两种菌株中都比KCN更早被消耗。同样,在pGR112转化菌株中,KCN的降解只发生在氮酶基因的松散控制下。这些发现有力地表明,氮酶可能是这种生物中唯一的氰化物降解酶。
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