来自瘤胃的厌氧草酸盐降解富集培养物的特性

Characteristics of anaerobic oxalate-degrading enrichment cultures from the rumen.

作者信息

Dawson K A, Allison M J, Hartman P A

出版信息

Appl Environ Microbiol. 1980 Oct;40(4):840-6. doi: 10.1128/aem.40.4.840-846.1980.

DOI:10.1128/aem.40.4.840-846.1980

PMID:7425629

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC291668/

Abstract

Enrichment cultures of rumen bacteria degraded oxalate within 3 to 7 days in a medium containing 10% rumen fluid and an initial level of 45 mM sodium oxalate. This capability was maintained in serially transferred cultures. One mole of methane was produced per 3.8 mol of oxalate degraded. Molecular hydrogen and formate inhibited oxalate degradation but not methanogenesis; benzyl viologen and chloroform inhibited both oxalate degradation and methanogenesis. Attempts to isolate oxalate-degrading bacteria from these cultures were not successful. Oxalate degradation was uncoupled from methane production when enrichments were grown in continuous culture at dilution rates greater than or equal to 0.078 h-1. Growth of the uncoupled population (lacking methanogens) in batch culture was accompanied by degradation of 45 mM oxalate within 24 h and production of 0.93 mol of formate per mol of oxalate degraded. Oxalate degradation by the uncoupled population was not inhibited by molecular hydrogen or formate. Cell yields (grams [dry weight]) per mole of oxalate degraded by the primary enrichment and the uncoupled populations were 1.7 and 1.0, respectively.

摘要

瘤胃细菌的富集培养物在含有10%瘤胃液和初始浓度为45 mM草酸钠的培养基中，3至7天内可降解草酸盐。这种能力在连续传代培养中得以保持。每降解3.8摩尔草酸盐会产生1摩尔甲烷。分子氢和甲酸盐会抑制草酸盐降解，但不抑制甲烷生成；苄基紫精和氯仿则同时抑制草酸盐降解和甲烷生成。从这些培养物中分离草酸盐降解细菌的尝试未获成功。当富集培养物在稀释率大于或等于0.078 h-1的连续培养中生长时，草酸盐降解与甲烷生成解偶联。在分批培养中，解偶联群体（不含产甲烷菌）的生长伴随着24小时内45 mM草酸盐的降解，每降解1摩尔草酸盐会产生0.93摩尔甲酸盐。分子氢或甲酸盐不会抑制解偶联群体的草酸盐降解。初代富集培养物和解偶联群体每降解1摩尔草酸盐的细胞产量（克[干重]）分别为1.7和1.0。

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本文引用的文献

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Isolation and some characteristics of anaerobic oxalate-degrading bacteria from the rumen.瘤胃中厌氧草酸降解菌的分离及某些特性

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