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Metabolic engineering of Saccharomyces cerevisiae ethanol strains PE-2 and CAT-1 for efficient lignocellulosic fermentation

机译：酿酒酵母乙醇菌株PE-2和CAT-1的代谢工程用于有效的木质纤维素发酵

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In this work, Saccharomyces cerevisiae strains PE-2 and CAT-1, commonly used in the Brazilian fuel ethanol industry, were engineered for xylose fermentation, where the first fermented xylose faster than the latter, but also produced considerable amounts of xylitol. An engineered PE-2 strain (MEC1121) efficiently consumed xylose in presence of inhibitors both in synthetic and corn-cob hydrolysates. Interestingly, the S. cerevisiae MEC1121 consumed xylose and glucose simultaneously, while a CEN.PK based strain consumed glucose and xylose sequentially. Deletion of the aldose reductase GRE3 lowered xylitol production to undetectable levels and increased xylose consumption rate which led to higher final ethanol concentrations. Fermentation of corn-cob hydrolysate using this strain, MEC1133, resulted in an ethanol yield of 0.47 g/g of total sugars which is 92% of the theoretical yield.

机译：在这项工作中，设计了巴西燃料乙醇工业中常用的酿酒酵母PE-2和CAT-1菌株进行木糖发酵，其中第一个发酵木糖的速度比后者快，但也产生了大量的木糖醇。经过工程改造的PE-2菌株（MEC1121）在合成和玉米芯水解物中均存在抑制剂的情况下有效消耗木糖。有趣的是，酿酒酵母MEC1121同时消耗木糖和葡萄糖，而基于CEN.PK的菌株则依次消耗葡萄糖和木糖。醛糖还原酶GRE3的缺失将木糖醇的产生降低到不可检测的水平，并且增加了木糖的消耗速率，这导致更高的最终乙醇浓度。使用该菌株MEC1133发酵玉米芯水解产物可产生0.47克/克总糖的乙醇收率，这是理论收率的92％。

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Romaní Aloia; Pereira Filipa; Johansson Björn; Domingues Lucília;
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年度 2015
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1. Metabolic engineering of Saccharomyces cerevisiae ethanol strains PE-2 and CAT-1 for efficient lignocellulosic fermentation [J] . Romani Aloia, Pereira Filipa, Johansson Bjoern, Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2015,第Null期

机译：酿酒酵母乙醇菌株PE-2和CAT-1的代谢工程用于有效的木质纤维素发酵
2. Effects of feedstock and co-culture of Lactobacillus fermentum and wild Saccharomyces cerevisiae strain during fuel ethanol fermentation by the industrial yeast strain PE-2 [J] . Vanda R. Reis, Ana Paula G. Bassi, Bianca C. Cerri, AMB Express . 2018,第1期

机译：工业酵母菌株PE-2在燃料乙醇发酵过程中原料和发酵共培养发酵菌和野生酵母的影响
3. Repeated-batch fermentation of lignocellulosic hydrolysate to ethanol using a hybrid Saccharomyces cerevisiae strain metabolically engineered for tolerance to acetic and formic acids [J] . Sanda T., Hasunuma T., Matsuda F., Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2011,第17期

机译：使用代谢工程化的耐酸和甲酸杂合酿酒酵母菌株对木质纤维素水解产物进行批量发酵
4. Metabolic Engineering of a Strain of Saccharomyces cerevisiae Capable of Utilizing Xylose for Growth and Ethanol Production - (PPT) [C] . Bill Roesler, Gord Hill CO2 Summit . 2010

机译：酿酒酵母菌菌株的代谢工程能够利用木糖进行生长和乙醇生产 - （PPT）
5. Metabolic engineering of Saccharomyces cerevisiae for efficient ethanol production from pentose sugars [D] . Du, Jing 2011

机译：酿酒酵母的代谢工程可有效利用戊糖生产乙醇
6. Effects of feedstock and co-culture of Lactobacillus fermentum and wild Saccharomyces cerevisiae strain during fuel ethanol fermentation by the industrial yeast strain PE-2 [O] . Vanda R. Reis, Ana Paula G. Bassi, Bianca C. Cerri, 2018

机译：工业酵母菌株PE-2在燃料乙醇发酵过程中发酵乳杆菌和酿酒酵母菌株的原料和共培养的影响
7. Effects of feedstock and co-culture of Lactobacillus fermentum and wild Saccharomyces cerevisiae strain during fuel ethanol fermentation by the industrial yeast strain PE-2 [O] . Vanda R. Reis, Ana Paula G. Bassi, Bianca C. Cerri, 2018

机译：工业酵母菌株PE-2燃料乙醇发酵期间乳酸杆菌和野生酿酒酵母菌株对肝酸碱和野生酿酒酵母的影响

Metabolic engineering of Saccharomyces cerevisiae ethanol strains PE-2 and CAT-1 for efficient lignocellulosic fermentation

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