从海洋沉积物中分离出的一种反硝化细菌对鲨烯的需氧和厌氧代谢。

Aerobic and anaerobic metabolism of squalene by a denitrifying bacterium isolated from marine sediment.

作者信息

Rontani Jean-François, Mouzdahir Abdelkrim, Michotey Valérie, Bonin Patricia

机构信息

Laboratoire d'Océanographie et de Biogéochimie (UMR 6535), Centre d'Océanologie de Marseille - OSU, Campus de Luminy - case 901, 13288 Marseille, France.

出版信息

Arch Microbiol. 2002 Oct;178(4):279-87. doi: 10.1007/s00203-002-0457-8. Epub 2002 Jul 12.

DOI:10.1007/s00203-002-0457-8

PMID:12209261

Abstract

The aerobic and anaerobic metabolism of the isoprenoid alkene squalene was investigated in a new type of marine denitrifying bacterium, strain 2sq31, isolated from marine sediment. Strain 2sq31 was identified as a species of Marinobacter. Under denitrifying conditions, the strain efficiently degraded squalene; of 0.7 mmol added per liter of medium, 77% was degraded within 120 days under anoxic conditions with nitrate as electron acceptor. Tertiary diols and methyl ketones were identified as metabolites, and an anaerobic pathway was suggested to explain the formation of such compounds. The first step in anaerobic degradation of squalene by strain 2sq31 involves hydration of double bonds to tertiary alcohols. Under oxic conditions, the degradation of squalene by strain 2sq31 was rapid and involved oxidative splitting of the C-10/C-11 or C-14/C-15 double bonds, in addition to the pathways observed under denitrifying conditions.

摘要

在从海洋沉积物中分离出的新型海洋反硝化细菌2sq31菌株中，研究了类异戊二烯烯烃角鲨烯的需氧和厌氧代谢。2sq31菌株被鉴定为海杆菌属的一个物种。在反硝化条件下，该菌株能有效降解角鲨烯；每升培养基中添加0.7 mmol角鲨烯，在以硝酸盐作为电子受体的缺氧条件下，120天内77%的角鲨烯被降解。叔二醇和甲基酮被鉴定为代谢产物，并提出了一条厌氧途径来解释此类化合物的形成。2sq31菌株对角鲨烯进行厌氧降解的第一步涉及双键水合形成叔醇。在有氧条件下，2sq31菌株对角鲨烯的降解速度很快，除了在反硝化条件下观察到的途径外，还涉及C-10/C-11或C-14/C-15双键的氧化裂解。

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从海洋沉积物中分离出的一种反硝化细菌对鲨烯的需氧和厌氧代谢。

Aerobic and anaerobic metabolism of squalene by a denitrifying bacterium isolated from marine sediment.

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