首页> 外国专利> ENGINEERING OF XYLOSE REDUCTASE AND OVEREXPRESSION OF XYLITOL DEHYDROGENASE AND XYLULOKINASE IMPROVES XYLOSE ALCOHOLIC FERMENTATION IN THE THERMOTOLERANT YEAST HANSENULA POLYMORPHA

ENGINEERING OF XYLOSE REDUCTASE AND OVEREXPRESSION OF XYLITOL DEHYDROGENASE AND XYLULOKINASE IMPROVES XYLOSE ALCOHOLIC FERMENTATION IN THE THERMOTOLERANT YEAST HANSENULA POLYMORPHA

机译：木糖还原酶的工程改造以及木糖醇脱氢酶和木糖激酶的过表达改善了耐热酵母汉逊酵母中木糖醇的发酵

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摘要

Recombinant genetic constructs and strains of H. polymorpha having significantly increased ethanol productivity with a simultaneous decreased production of xylitol during high-temperature xylose fermentation are disclosed. The constructs include a H. polymorpha XYL1 gene encoding xylose reductase mutated to decrease affinity of the enzyme toward NADPH. The modified version of XYL1 gene under control of a strong constitutive HpGAP promoter was overexpressed in a Δxyll background. A recombinant H. polymorpha strain overexpressing the mutated enzyme together with native xylitol dehydrogenase and xylulokinase in the Δxyll background was also constructed. Xylose consumption, ethanol and xylitol production by the constructed strain were evaluated during high-temperature xylose fermentation (48° C.). A significant increase in ethanol productivity (up to 7.4 times) was shown in the recombinant strain as compared with the wild type strain. Moreover, the xylitol production by the recombinant strain was reduced considerably: 0.9 mgχ (Lχh)⁻¹versus 4.2 mgχ (Lxh)⁻¹by the wild type strain.

机译：H的重组遗传构建体和菌株。公开了在高温木糖发酵过程中多形体具有显着提高的乙醇生产率和同时降低的木糖醇产量。所述构建体包括 H。木糖还原酶的多态性 XYL1基因发生突变，以降低该酶对NADPH的亲和力。在强组成型HpGAP启动子控制下的XYL1基因的修饰形式在Δxyll背景中过表达。重组H。还构建了在Δxyll背景下过表达突变酶，天然木糖醇脱氢酶和木酮糖酶的多形菌株。在高温木糖发酵（48℃）期间评估了由构建的菌株产生的木糖消耗，乙醇和木糖醇产量。与野生型菌株相比，重组菌株显示出乙醇生产率的显着提高（高达7.4倍）。此外，重组菌株产生的木糖醇产量大大降低：野生型菌株产生的木糖醇量为0.9 mg×（L×h）-1，而4.2 mg×（Lxh）-1。

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公开/公告号US2011086402A1

专利类型
公开/公告日2011-04-14

原文格式PDF
申请/专利权人 CHARLES ABBAS;KOSTYANTYN DMYTRUK;OLENA DMYTRUK;ANDRIY SIBIRNY;ANDRIY Y. VORONOVSKY;
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申请/专利号US20090993215
发明设计人 CHARLES ABBAS;KOSTYANTYN DMYTRUK;OLENA DMYTRUK;ANDRIY SIBIRNY;ANDRIY Y. VORONOVSKY;
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申请日2009-06-01
分类号C12P7/06;C12N1/19;C07H21;C07H21/04;
国家 US
入库时间 2022-08-21 18:15:22

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1. Engineering of xylose reductase and overexpression of xylitol dehydrogenase and xylulokinase improves xylose alcoholic fermentation in the thermotolerant yeast Hansenula polymorpha [J] . Olena V Dmytruk, Kostyantyn V Dmytruk, Charles A Abbas, Microbial Cell Factories . 2008,第1期

2. Overexpression of bacterial xylose isomerase and yeast host xylulokinase improves xylose alcoholic fermentation in the thermotolerant yeast Hansenula polymorpha [J] . Dmytruk OV, Voronovsky AY, Abbas CA, FEMS Yeast Research . 2008,第1期

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5. Elucidating physiological roles of Pichia stipitis alcohol dehydrogenases in xylose fermentation and shuffling promoters for multiple genes in Saccharomyces cerevisiae to improve xylose fermentation. [D] . Lu, Chenfeng. 2007

6. Engineering of xylose reductase and overexpression of xylitol dehydrogenase and xylulokinase improves xylose alcoholic fermentation in the thermotolerant yeast Hansenula polymorpha [O] . Olena V Dmytruk, Kostyantyn V Dmytruk, Charles A Abbas, 2008

7. Engineering of xylose reductase and overexpression of xylitol dehydrogenase and xylulokinase improves xylose alcoholic fermentation in the thermotolerant yeast Hansenula polymorpha [O] . Dmytruk, Olena V, Dmytruk, Kostyantyn V, Abbas, Charles A, 2008

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