甲烷利用细菌的一些文化和生理方面。

Some cultural and physiological aspects of methane-utilizing bacteria.

作者信息

Hazeu W

出版信息

Antonie Van Leeuwenhoek. 1975;41(2):121-34. doi: 10.1007/BF02565044.

Abstract

A number of different methane-utilizing bacteria are described and compared with isolates of other investigators. The strains can be divided into three groups based on pigmentation, cell morphology and internal membrane structures. The oxidation of hydrocarbons, alcohols, aldehydes, fatty acids, methyl ethers and sugar phosphates by these bacteria was studied. There was much similarity between strains within the same group. Differences between groups as regards oxidative properties could be detected, but these were mainly quantitative and could not be used as taxonomical criteria. In addition, the inhibition of methane oxidation by metabolites and enzyme inhibitors was investigated. Formaldehyde proved to be the most active of the organic compounds tested. Iodoacetic acid inhibited both methane and methanol oxidation at concentrations of 0.03 M or above. Of the inorganic compounds, KCN completely suppressed methane oxidation at 5 times 10(-4) M and to more than 90% at 5 times 10(-5) M.

摘要

本文描述了多种不同的甲烷利用细菌，并将其与其他研究者分离出的菌株进行了比较。这些菌株可根据色素沉着、细胞形态和内膜结构分为三组。研究了这些细菌对烃类、醇类、醛类、脂肪酸、甲基醚和糖磷酸盐的氧化作用。同一组内的菌株之间有很多相似之处。可以检测到不同组之间在氧化特性方面的差异，但这些主要是定量的，不能用作分类标准。此外，还研究了代谢产物和酶抑制剂对甲烷氧化的抑制作用。甲醛被证明是所测试的有机化合物中最具活性的。碘乙酸在浓度为0.03 M或更高时抑制甲烷和甲醇的氧化。在无机化合物中，氰化钾在5×10(-4) M时完全抑制甲烷氧化，在5×10(-5) M时抑制率超过90%。

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甲烷利用细菌的一些文化和生理方面。

Some cultural and physiological aspects of methane-utilizing bacteria.

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