东京柱孢霉的反硝化作用：厌氧细胞生长及细胞色素P-450nor的两种同工酶形式

Denitrification by the fungus Cylindrocarpon tonkinense: anaerobic cell growth and two isozyme forms of cytochrome P-450nor.

作者信息

Usuda K, Toritsuka N, Matsuo Y, Kim D H, Shoun H

机构信息

Institute of Applied Biochemistry, University of Tsukuba, Ibaraki, Japan.

出版信息

Appl Environ Microbiol. 1995 Mar;61(3):883-9. doi: 10.1128/aem.61.3.883-889.1995.

DOI:10.1128/aem.61.3.883-889.1995

PMID:7793922

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC167353/

Abstract

We examined the denitrification system of the fungus Cylindrocapon tonkinense and found several properties distinct from those of the denitrification system of Fusarium oxysporum. C. tonkinense could form N2O from nitrite under restricted aeration but could not reduce nitrate by dissimilatory metabolism. Nitrite-dependent N2O formation and/or cell growth during the anaerobic culture was not affected by further addition of ammonium ions but was suppressed by respiration inhibitors such as rotenone or antimycin, suggesting that denitrification plays a physiological role in respiration. Dissimilatory nitrite reductase and nitric oxide reductase (Nor) activities could not be detected in cell extracts of the denitrifying cells. The Nor activity was purified and found to depend upon two isoenzymes of Cytochrome P-450nor (P-450nor), which were designated P-450nor1 and P-450nor2. These isozymes differed in the N-terminal amino acid sequence, isoelectric point, specificity to the reduced pyridine nucleotide (NADH or NADPH), and the reactivity to the antibody to P-450nor of F. oxysporum. the difference between the specificities to NADH and NADPH suggests that P-450nor1 and P-450nor2 play different roles in anaerobic energy acquisition.

摘要

我们研究了东京柱孢菌的反硝化系统，发现了一些与尖孢镰刀菌反硝化系统不同的特性。东京柱孢菌在通气受限的情况下可由亚硝酸盐形成一氧化二氮，但不能通过异化代谢还原硝酸盐。厌氧培养过程中，亚硝酸盐依赖的一氧化二氮形成和/或细胞生长不受进一步添加铵离子的影响，但会受到鱼藤酮或抗霉素等呼吸抑制剂的抑制，这表明反硝化在呼吸中发挥生理作用。在反硝化细胞的细胞提取物中未检测到异化亚硝酸盐还原酶和一氧化氮还原酶（Nor）活性。Nor活性被纯化，发现其依赖于细胞色素P-450nor（P-450nor）的两种同工酶，分别命名为P-450nor1和P-450nor2。这些同工酶在N端氨基酸序列、等电点、对还原型吡啶核苷酸（NADH或NADPH）的特异性以及对尖孢镰刀菌P-450nor抗体的反应性方面存在差异。对NADH和NADPH特异性的差异表明，P-450nor1和P-450nor2在厌氧能量获取中发挥不同作用。

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Denitrification by the fungus Cylindrocarpon tonkinense: anaerobic cell growth and two isozyme forms of cytochrome P-450nor.东京柱孢霉的反硝化作用：厌氧细胞生长及细胞色素P-450nor的两种同工酶形式

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