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在琥珀酸作为唯一碳源和硫代硫酸盐作为辅助电子供体时,研究了嗜甲基杆菌 NCCB 38021 异养化生长过程中克雷布斯循环和硫氧化酶的动力学和作用。

Insights into growth kinetics and roles of enzymes of Krebs' cycle and sulfur oxidation during exochemolithoheterotrophic growth of Achromobacter aegrifaciens NCCB 38021 on succinate with thiosulfate as the auxiliary electron donor.

机构信息

School of Biological and Marine Sciences, University of Plymouth, Drake Circus, Plymouth, PL4 8AA, Devon, UK.

School of Biomedical and Healthcare Sciences, University of Plymouth, Drake Circus, Plymouth, PL4 8AA, Devon, UK.

出版信息

Arch Microbiol. 2021 Mar;203(2):561-578. doi: 10.1007/s00203-020-02028-1. Epub 2020 Sep 28.

DOI:10.1007/s00203-020-02028-1
PMID:32989476
Abstract

Achromobacter aegrifaciens NCCB 38021 was grown heterotrophically on succinate versus exochemolithoheterotrophically on succinate with thiosulfate as auxiliary electron donor. In batch culture, no significant differences in specific molar growth yield or specific growth rate were found for the two growth conditions, but in continuous culture in the succinate-limited chemostat, the maximum specific growth yield coefficient increased by 23.3% with thiosulfate present, consistent with previous studies of endo- and exochemolithoheterotrophs and thermodynamic predictions. Thiosulfate oxidation was coupled to respiration at cytochrome c, and thiosulfate-dependent ATP biosynthesis occurred. Specific activities of cytochrome c-linked thiosulfate dehydrogenase (E.C. 1.8.2.2) and two other enzymes of sulfur metabolism were significantly higher in exochemolithoheterotrophically grown cell extracts, while those of succinyl-transferring 2-oxoglutarate dehydrogenase (E.C. 1.2.4.2), fumarate hydratase (E.C. 4.2.1.2) and malate dehydrogenase (NAD, E.C. 1.1.1.37) were significantly lower-presumably owing to less need to generate reducing equivalents during Krebs' cycle, since they could be produced from thiosulfate oxidation.

摘要

产木醋酸杆菌 NCCB 38021 可在琥珀酸盐上异养生长,也可在琥珀酸盐和硫代硫酸盐作为辅助电子供体的情况下化能异养生长。在分批培养中,两种生长条件下的比摩尔生长产率或比生长速率没有显著差异,但在琥珀酸盐有限恒化器的连续培养中,当存在硫代硫酸盐时,最大比生长产率系数增加了 23.3%,这与先前对内生和外生化能异养生物的研究以及热力学预测一致。硫代硫酸盐氧化与细胞色素 c 呼吸偶联,并且发生硫代硫酸盐依赖性 ATP 生物合成。在化能异养生长的细胞提取物中,与细胞色素 c 偶联的硫代硫酸盐脱氢酶(E.C. 1.8.2.2)和其他两种硫代谢酶的比活性显著更高,而琥珀酰基转移 2-酮戊二酸脱氢酶(E.C. 1.2.4.2)、延胡索酸水合酶(E.C. 4.2.1.2)和苹果酸脱氢酶(NAD,E.C. 1.1.1.37)的比活性显著更低-这可能是由于在 Krebs 循环中生成还原当量的需求减少,因为它们可以从硫代硫酸盐氧化中产生。

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