Optimization of pH and acetic acid concentration for bioconversion of hemicellulose from corncobs to xylitol by Candida tropicalis

Ke-Ke Cheng; Jian-An Zhang; Hong-Zhi Ling

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Optimization of pH and acetic acid concentration for bioconversion of hemicellulose from corncobs to xylitol by Candida tropicalis

机译：热带假丝酵母将半纤维素从玉米芯生物转化为木糖醇的pH和乙酸浓度的优化

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Hemicellulose hydrolysate from corncobs, separated by diluted sulfuric acid and sequently detoxed by boiling, overtiming and solvent extraction, was used for xylitol production by Candida tropicalis W103. The effect of glucose and acetate in hydrolysate on xylitol production was investigated. It was found that glucose in hydrolysate promoted growth of Candida tropicalis while acetate at high concentration was inhibitory. The acetate inhibition can be alleviated by adjusting pH to 6 prior to fermentation and a substrate feeding strategy. Under these optimum conditions, a maximal xylitol concentration of 68.4g l~(-1) was obtained after 72 h of fermentation, giving a yield of 0.7 g g~(-1) xylose and a productivity of 0.95 g l~(-1) h~(-1).

机译：来自玉米芯的半纤维素水解产物，用稀硫酸分离，然后通过煮沸，过定时和溶剂萃取进行脱毒，被热带假丝酵母W103用于生产木糖醇。研究了水解产物中葡萄糖和乙酸盐对木糖醇生产的影响。发现水解产物中的葡萄糖促进了热带假丝酵母的生长，而高浓度的乙酸盐则具有抑制作用。可以通过在发酵和底物进料策略之前将pH值调节至6来减轻乙酸盐的抑制作用。在这些最佳条件下，发酵72小时后木糖醇的最高浓度为68.4gl〜（-1），木糖产量为0.7 gg〜（-1），生产率为0.95 gl〜（-1）h〜。（-1）。

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《Biochemical Engineering Journal》 |2009年第2期|共5页
作者
Ke-Ke Cheng; Jian-An Zhang; Hong-Zhi Ling;
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正文语种 eng
中图分类生物化学技术;
关键词
Corncob; Fermentation; Hydrolysate; Pretreatment; Xylitol; Xylose;

机译：玉米芯;发酵;水解产物;预处理;木糖醇;木糖;

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1. Optimization of pH and acetic acid concentration for bioconversion of hemicellulose from corncobs to xylitol by Candida tropicalis [J] . Ke-Ke Cheng, Jian-An Zhang, Hong-Zhi Ling Biochemical Engineering Journal . 2009,第2期

机译：热带假丝酵母将半纤维素从玉米芯生物转化为木糖醇的pH和乙酸浓度的优化
2. Xylitol production from non-detoxified corncob hemicellulose acid hydrolysate by Candida tropicalis [J] . Yuan Ping, Hong-Zhi Ling, Gang Song Biochemical Engineering Journal . 2013,第Null期

机译：热带假丝酵母从非排毒玉米芯半纤维素酸水解产物生产木糖醇
3. Effect of Selected Aldehydes Found in the Corncob Hemicellulose Hydrolysate on the Growth and Xylitol Fermentation of Candida tropicalis [J] . Le Wang, Pingwah Tang, Xiaoguang Fan Biotechnology Progress . 2013,第5期

机译：玉米芯半纤维素水解物中某些醛对热带假丝酵母生长和木糖醇发酵的影响
4. DETOXIFICATION OF HEMICELLULOSIC HYDROLYSATE OF CORN COB FOR XYLITOL PRODUCTION BY CANDIDA TROPICALIS AS2.1776 [C] . Lihong Deng, Shanzheng Wen, Yan Yang, ISWFPC;International symposium on wood, fiber and pulping chemistry . 2011

机译：热带假丝酵母AS2.1776对玉米芯纤维素水解物生产木糖的解毒作用。
5. AN ASSESSMENT OF THE CONCENTRATIONS AND TRANSPORT OF ABSCISIC ACID AND INDOLE-3-ACETIC ACID IN RELATION TO REPRODUCTIVE DEVELOPMENT OF SOYBEAN (GLYCINE MAX) (HORMONE, PHYTOHORMONE) [D] . HEIN, MICH BRADLEY 1984

机译：与大豆（最大大豆）（激素，植物激素）的生殖发育有关的松香酸和吲哚-3-乙酸的浓度和迁移率的评估
6. Detoxification of Corncob Acid Hydrolysate with SAA Pretreatment and Xylitol Production by Immobilized Candida tropicalis [O] . Li-Hong Deng, Yong Tang, Yun Liu -1

机译：SAA预处理对玉米芯酸水解产物的解毒作用并固定化热带假丝酵母生产木糖醇
7. Inhibitory effect of acetic acid on bioconversion of xylose in xylitol by Candida guilliermondii in sugarcane bagasse hydrolysate Efeito inibitório do ácido acético na bioconversão de xilose em xilitol por Candida guilliermondii em hidrolisado de bagaço de cana [O] . Débora D.V. Silva, Maria G.A. Felipe, Ismael M. Mancilha, 2004

机译：甘蔗渣水解液中乙酸对木糖醇木糖醇生物转化的抑制作用甘草甘蔗渣水解液中乙酸对甘草假丝酵母生物转化的抑制作用

Optimization of pH and acetic acid concentration for bioconversion of hemicellulose from corncobs to xylitol by Candida tropicalis

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