Enhancement of xylitol productivity and yield using a xylitol dehydrogenase gene-disrupted mutant of Candida tropicalis under fully aerobic conditions

Ko BS; Rhee CH; Kim JH

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Enhancement of xylitol productivity and yield using a xylitol dehydrogenase gene-disrupted mutant of Candida tropicalis under fully aerobic conditions

机译：使用木糖醇脱氢酶基因破坏的热带念珠菌突变体在完全有氧条件下提高木糖醇生产率和产量

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The effects of glycerol and the oxygen transfer rate on the xylitol production rate by a xylitol dehydrogenase gene (XYL2)-disrupted mutant of Candida tropicalis were investigated. The mutant produced xylitol near the almost yield of 100% from D: -xylose using glycerol as a co-substrate for cell growth and NADPH regeneration: 50 g D: -xylose l(-1) was completely converted into xylitol when at least 20 g glycerol l(-1) was used as a co-substrate. The xylitol production rate increased with the O(2) transfer rate until saturation and it was not necessary to control the dissolved O(2) tension precisely. Under the optimum conditions, the volumetric productivity and xylitol yield were 3.2 g l(-1) h(-1) and 97% (w/w), respectively.

机译：研究了木糖醇脱氢酶基因（XYL2）破坏热带假丝酵母突变体的甘油和氧转移速率对木糖醇生产速率的影响。该突变体使用甘油作为细胞生长和NADPH再生的共底物，从D：-木糖几乎以100％的产率生产了木糖醇：当至少20时，D：-木糖l（-1）完全转化为木糖醇。 g甘油l（-1）用作共底物。木糖醇生产速率随O（2）传输速率的增加而增加，直到饱和为止，因此不必精确控制溶解的O（2）张力。在最佳条件下，容积生产率和木糖醇产率分别为3.2 g l（-1）h（-1）和97％（w / w）。

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《Biotechnology Letters》 |2006年第15期|共4页
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Ko BS; Rhee CH; Kim JH;
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中图分类生物工程学（生物技术）;生命科学总论;分子生物学;
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1. Enhancement of xylitol productivity and yield using a xylitol dehydrogenase gene-disrupted mutant of Candida tropicalis under fully aerobic conditions [J] . Ko BS, Rhee CH, Kim JH Biotechnology Letters . 2006,第15期

机译：使用木糖醇脱氢酶基因破坏的热带念珠菌突变体在完全有氧条件下提高木糖醇生产率和产量
2. Production of Xylitol from d-Xylose by a Xylitol Dehydrogenase Gene-Disrupted Mutant of Candida tropicalis [J] . Byoung Sam Ko, Jinmi Kim, Jung Hoe Kim Applied and Environmental Microbiology . 2006,第6期

机译：由木糖醇脱氢酶基因破坏的热带念珠菌突变体从d-木糖生产木糖醇
3. Enhancement of xylitol production by attenuation of intracellular xylitol dehydrogenase activity in Candida tropicalis. [J] . Byoung Sam Ko, Dong-Min Kim, Byoung Hoon Yoon, Biotechnology Letters . 2011,第6期

机译：通过减弱热带假丝酵母细胞内木糖醇脱氢酶活性来增强木糖醇生产。
4. Preliminary Kinetic Characterization of Xylose Reductase and Xylitol Dehydrogenase Extracted from Candida guilliermondii FTI 20037 Cultivated in Sugarcane Bagasse Hydrolysate for Xylitol Production [C] . MlCHELE VlTOLO, SlLVIO S. SlLVA, MARIA G. A. FELIPE, Symposium on biotechnology for fuels and chemicals . 2001

机译：甘蔗甘蔗果仁晶体中提取的木糖还原酶和木糖醇脱氢酶的初步动力学表征在甘草醛水解产物中培养甘蔗群水解产物
5. Xylitol Production by Candida Species from Prairie Cordgrass Hydrolysate [D] . Rudrangi, Samatha Shashi Ravi. 2018

机译：大草原冬虫夏草水解产物假丝酵母属木糖醇的生产
6. Production of Xylitol from d-Xylose by a Xylitol Dehydrogenase Gene-Disrupted Mutant of Candida tropicalis [O] . Byoung Sam Ko, Jinmi Kim, Jung Hoe Kim 2006

机译：由木糖醇脱氢酶基因破坏的热带念珠菌突变体从d-木糖生产木糖醇
7. Production of Xylitol from d-Xylose by a Xylitol Dehydrogenase Gene-Disrupted Mutant of Candida tropicalis [O] . Ko, Byoung Sam, Kim, Jinmi, Kim, Jung Hoe 2006

机译：由木糖醇脱氢酶基因破坏的热带念珠菌突变体从d-木糖生产木糖醇

Enhancement of xylitol productivity and yield using a xylitol dehydrogenase gene-disrupted mutant of Candida tropicalis under fully aerobic conditions

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