Bioconversion of fumarate to succinate using glycerol as a carbon source.

Ryu HW; Yun JS; Kang KH

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Bioconversion of fumarate to succinate using glycerol as a carbon source.

机译：使用甘油作为碳源，将富马酸酯生物转化为琥珀酸酯。

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In this study, a facultative bacterium that converts fumarate to succinate at a high yield was isolated. The yield of bioconversion was enhanced about 1.2 times by addition of glucose into culture medium at an initial concentration of 6 g/L. When the initial cell density was high (2 g/L), the succinate produced at pH 7.0 for initial fumarate concentrations of 30, 50, 80, and 100 g/L were 29.3, 40.9, 63.6, and 82.5 g/L, respectively, showing an increase with the initial fumarate concentration. The high yield of 96.8% /mole of fumarate in just 4 h was obtained at the initial fumarate concentration of 30 g/L. Comparing these values to those obtained with low cell culture (0.2 g/L), we found that the amount of succinate produced was similar, but the production rate in the high cell culture was about three times higher than was the case in the low cell culture. This strain converted fumarate to succinate at a rate of 3.5 g/L(.)h under the sparge of CO2.

机译：在这项研究中，分离出了以高收率将富马酸酯转化为琥珀酸酯的兼性细菌。通过将葡萄糖添加到初始浓度为6 g / L的培养基中，生物转化的产量提高了约1.2倍。当初始细胞密度高（2 g / L）时，初始富马酸酯浓度为30、50、80和100 g / L时，在pH 7.0下生成的琥珀酸酯分别为29.3、40.9、63.6和82.5 g / L。，随着初始富马酸酯浓度的增加而增加。在初始富马酸酯浓度为30 g / L的情况下，仅4小时即可获得96.8％/摩尔的富马酸酯。将这些值与低细胞培养（0.2 g / L）所获得的值进行比较，我们发现琥珀酸盐的产生量相似，但是高细胞培养的产率比低细胞培养的产率高约三倍。文化。该菌株在二氧化碳的喷射下以3.5 g / L（h）h的速率将富马酸酯转化为琥珀酸酯。

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《Applied biochemistry and biotechnology, Part A. enzyme engineering and biotechnology》 |1999年第0期|共10页
作者
Ryu HW; Yun JS; Kang KH;
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正文语种 eng
中图分类应用生物化学;生物工程学（生物技术）;化学;生物化学;普通生物学;
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1. Bioconversion of fumarate to succinate using glycerol as a carbon source. [J] . Ryu HW, Yun JS, Kang KH Applied biochemistry and biotechnology, Part A. enzyme engineering and biotechnology . 1999,第0期

机译：使用甘油作为碳源，将富马酸酯生物转化为琥珀酸酯。
2. Chemical composition of the cell wall of probiotic and brewer's yeast in response to cultivation medium with glycerol as a carbon source. [J] . Bzducha-Wrobel A, Kieliszek M, Blazejak S. European food research and technology =: Zeitschrift fur Lebensmittel-Untersuchung und -Forschung. A . 2013,第4期

机译：益生菌和啤酒酵母响应于以甘油为碳源的培养基的细胞壁的化学组成。
3. Increased expression and secretion of recombinant alpha-amylase in Saccharomyces cerevisiae by using glycerol as the carbon source. [J] . Wong DW, Batt SB, Lee CC, Journal of Protein Chemistry . 2002,第6期

机译：通过使用甘油作为碳源，可提高酿酒酵母中重组α-淀粉酶的表达和分泌。
4. Bioconversion of Fumarate to Succinate Using Glycerol as a Carbon Source [C] . HWA-WON RYU, KUI-HYUN KANG, JONG-SUN YUN Biotechnology for Fuels and Chemicals . 1999

机译：使用甘油作为碳源将富马酸酯生物转化为琥珀酸酯
5. Understanding and improving respiratory succinate production from glycerol by Actinobacillus succinogenes. [D] . Schindler, Bryan David. 2011

机译：理解并改善琥珀酸放线杆菌引起的呼吸性琥珀酸琥珀酸酯的生产。
6. Genetic Characterization of a Single Bifunctional Enzyme for Fumarate Reduction and Succinate Oxidation in Geobacter sulfurreducens and Engineering of Fumarate Reduction in Geobacter metallireducens [O] . Jessica E. Butler, Richard H. Glaven, Abraham Esteve-Núñez, 2006

机译：单一的双功能酶的遗传特征减少土杆菌硫还原酶中的富马酸盐还原和琥珀酸氧化和工程化金属杆菌还原富马酸盐的工程改造。
7. Efficient anaerobic production of succinate from glycerol in engineered Escherichia coli by using dual carbon sources and limiting oxygen supply in preceding aerobic culture [O] . Qing Li, Bing Huang, Hui Wu, 2017

机译：通过使用双碳源和限制在前一种好氧培养中的氧气供应，高效地从甘油中琥珀酸酯的琥珀酸盐产生琥珀酸盐
8. Fumarate Reductase, Succinate and Nadh Dehydrogenases of Yeast: Properties and Biosynthesis [R] . Singer, T. P., Rocca, E., Kearney, E. B. 1966

机译：酵母的富马酸还原酶，琥珀酸和Nadh脱氢酶：性质和生物合成

Bioconversion of fumarate to succinate using glycerol as a carbon source.

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