A novel MN2+-oxidizing enzyme system in a freshwater bacterium.

J Zindulis, H L Ehrlich
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引用次数: 0

Abstract

Manganese oxidation by cell suspensions and cell extracts of a freshwater bacterium, designated strain FMn 1, was investigated. Manganese appeared to be oxidized in the periplasmic space. A conventional, membrane-bound-electron transport system was not utilized. An enzyme or enzyme complex and a cofactor, each of different molecular size, were located in different parts of the cell envelope. Results suggest that the cofactor reacts with manganese in the periplasmic space and that in the presence of oxygen it is reoxidized by the enzyme. The enzyme is probably loosely bound to the membrane. A combination of enzyme and cofactor in a crude preparation exhibited a pH optimum at around 7.0. The enzyme exhibited a temperature optimum at around 30 degrees C. No temperature optimum was found for the cofactor. The enzyme was heat-stable and could oxidize manganese under anaerobic conditions. The enzyme system appears to be different from others so far described.

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淡水细菌中一种新的MN2+氧化酶系统。
研究了淡水细菌fmn1的细胞悬浮液和细胞提取物对锰的氧化作用。锰似乎在质周间隙被氧化。没有使用传统的膜结合电子传递系统。不同分子大小的酶或酶复合体和辅因子位于细胞包膜的不同部位。结果表明,辅因子在质周空间与锰发生反应,在氧气存在的情况下,辅因子被酶再氧化。酶很可能松散地结合在膜上。粗制物中酶和辅因子的组合pH值在7.0左右为最佳。该酶在30℃左右表现出最适温度,而辅因子没有最佳温度。该酶热稳定,能在厌氧条件下氧化锰。这种酶系统似乎与迄今为止所描述的其他系统不同。
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17 Mikrobielle Vielfalt, Evolution und Systematik 13 Mikrobielle Gärungen 10 Transport durch die Cytoplasmamembran 18 Die Rolle von Mikroorganismen im Stoffkreislauf und in der Natur 12 Oxidation anorganischer Verbindungen: chemolithotrophe Lebensweise
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