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Growth of Eubacterium limosum with Carbon Monoxide as the Energy Source.以一氧化碳为能源的迟缓真杆菌生长。
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BIOLOGICAL FORMATION OF MOLECULAR HYDROGEN.分子氢的生物形成
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Tracer experiments on the mechanism of acetate formation from carbon dioxide by Butyribacterium rettgeri.关于雷特格氏丁酸杆菌从二氧化碳形成乙酸盐机制的示踪实验。
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Carbon monoxide metabolism of the methylotrophic acidogen Butyribacterium methylotrophicum.甲基营养产酸菌嗜甲基丁酸杆菌的一氧化碳代谢
J Bacteriol. 1982 Jan;149(1):255-63. doi: 10.1128/jb.149.1.255-263.1982.
7
Purification and properties of NADP-dependent formate dehydrogenase from Clostridium thermoaceticum, a tungsten-selenium-iron protein.嗜热醋酸梭菌中依赖NADP的甲酸脱氢酶的纯化及性质,一种含钨、硒、铁的蛋白质
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8
Features of rumen and sewage sludge strains of Eubacterium limosum, a methanol- and H2-CO2-utilizing species.黏液真杆菌的瘤胃和污水污泥菌株的特征,黏液真杆菌是一种利用甲醇和H2-CO2的菌种。
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Influence of corrinoid antagonists on methanogen metabolism.类咕啉拮抗剂对产甲烷菌代谢的影响。
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10
Effect of molecular hydrogen and carbon dioxide on chemo-organotrophic growth of Acetobacterium woodii and Clostridium aceticum.分子氢和二氧化碳对伍氏醋酸杆菌和醋酸梭菌化学有机营养生长的影响。
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嗜甲基丁酸杆菌将甲酸盐厌氧分解代谢为乙酸盐和二氧化碳。

Anaerobic catabolism of formate to acetate and CO2 by Butyribacterium methylotrophicum.

作者信息

Kerby R, Zeikus J G

出版信息

J Bacteriol. 1987 May;169(5):2063-8. doi: 10.1128/jb.169.5.2063-2068.1987.

DOI:10.1128/jb.169.5.2063-2068.1987
PMID:3106329
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC212091/
Abstract

The catabolism of sodium formate to acetate and carbon dioxide by the anaerobic acetogen Butyribacterium methylotrophicum was analyzed by fermentation time course and 13C nuclear magnetic resonance studies. Significant hydrogen production and consumption fluxes were observed during formate catabolism but not during the catabolism of formate plus CO. In the latter case, formate and CO were simultaneously consumed and label distribution studies with mixtures of 13C-labeled CO and formate demonstrated their preferential incorporation into the acetate carboxyl and methyl groups, respectively. Hydrogen consumption was inhibited by CO when both were present, whereas hydrogen and formate were simultaneously consumed when CO2 was supplied. Carbon dioxide was required for the conversion of CO to acetate, but a similar need was not observed when methanol plus CO or formate plus CO was present. These analyses indicate a bifurcated single-carbon catabolic pathway in which CO2 is the sole single-carbon compound that directly supplies the carbonyl and methyl group synthesis pathways leading to the formation of acetyl coenzyme A, the primary reduced product. We discuss causes for the reported inability of B. methylotrophicum to use formate as a sole substrate.

摘要

通过发酵时间进程和¹³C核磁共振研究,分析了厌氧产乙酸菌嗜甲基丁酸杆菌将甲酸钠分解代谢为乙酸和二氧化碳的过程。在甲酸盐分解代谢过程中观察到了显著的氢气产生和消耗通量,但在甲酸盐加CO的分解代谢过程中未观察到。在后一种情况下,甲酸盐和CO同时被消耗,用¹³C标记的CO和甲酸盐混合物进行的标记分布研究表明,它们分别优先掺入乙酸的羧基和甲基中。当CO和氢气同时存在时,氢气的消耗受到CO的抑制,而当供应CO₂时,氢气和甲酸盐同时被消耗。将CO转化为乙酸需要二氧化碳,但当存在甲醇加CO或甲酸盐加CO时,未观察到类似需求。这些分析表明存在一条分叉的单碳分解代谢途径,其中二氧化碳是唯一直接为导致主要还原产物乙酰辅酶A形成的羰基和甲基合成途径提供碳的单碳化合物。我们讨论了报道中嗜甲基丁酸杆菌无法将甲酸盐用作唯一底物的原因。