Analysis of Yarrowia lipolytica growth catabolism and terpenoid biosynthesis during utilization of lipid-derived feedstock

机译：利用脂类原料分析解脂耶氏酵母的生长分解代谢和类萜生物合成

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This study employs biomass growth analyses and C-isotope tracing to investigate lipid feedstock utilization by . Compared to glucose, oil-feedstock in the minimal medium increases the yeast's biomass yields and cell sizes, but decreases its protein content (<20% of total biomass) and enzyme abundances for product synthesis. Labeling results indicate a segregated metabolic network (the glycolysis vs. the TCA cycle) during co-catabolism of sugars (glucose or glycerol) with fatty acid substrates, which facilitates resource allocations for biosynthesis without catabolite repressions. This study has also examined the performance of a β-carotene producing strain in different growth mediums. Canola oil-containing yeast-peptone (YP) has resulted in the best β-carotene titer (121 ± 13 mg/L), two-fold higher than the glucose based YP medium. These results highlight the potential of for the valorization of waste-derived lipid feedstock.

机译：这项研究利用生物量增长分析和C同位素示踪研究脂质原料的利用。与葡萄糖相比，基本培养基中的油原料增加了酵母的生物量产量和细胞大小，但降低了其蛋白质含量（<总生物量的20％）和用于产品合成的酶丰度。标记结果表明在糖（葡萄糖或甘油）与脂肪酸底物的共分解代谢过程中，代谢网络分离（糖酵解与TCA循环），这有利于生物合成的资源分配而无需分解代谢物的抑制。这项研究还研究了在不同生长培养基中产生β-胡萝卜素的菌株的性能。含芥花籽油的酵母蛋白（（YP）产生了最佳的β-胡萝卜素效价（121（±13 mg / L），是葡萄糖基YP培养基的两倍。这些结果凸显了源自废物的脂质原料的增值潜力。

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期刊名称 Metabolic Engineering Communications
作者
Alyssa M. Worland; Jeffrey J. Czajka; Yun Xing; Willie F. Harper; Jr.; Aryiana Moore; Zhengyang Xiao; Zhenlin Han; Yechun Wang; Wei Wen Su; Yinjie J. Tang;
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年(卷),期 2020(11),-1
年度 2020
页码 -1
总页数 9
原文格式 PDF
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关键词
C-isotope tracing; β-carotene; Catabolite repression; Dimorphism; Metabolic network;

机译：C同位素示踪;β-胡萝卜素;分解代谢抑制;二态性;代谢网络;

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1. Analysis of Yarrowia lipolytica growth, catabolism, and terpenoid biosynthesis during utilization of lipid-derived feedstock [J] . Alyssa M. Worland, Jeffrey J. Czajka, Yun Xing, Metabolic Engineering Communications . 2020,第2期

机译：脂质衍生原料利用过程中Yarrowia Lipolytica生长，分解代谢和三萜类生物合成分析
2. Transcriptional Analysis of l-Methionine Catabolism in the Cheese-Ripening Yeast Yarrowia lipolytica in Relation to Volatile Sulfur Compound Biosynthesis [J] . Orianne Cholet, Alain Hénaut, Agnès Hébert, Applied and Environmental Microbiology . 2008,第11期

机译：干酪成熟酵母解脂耶氏酵母中L-蛋氨酸分解代谢的转录分析与挥发性硫化合物的生物合成相关
3. In Yarrowia lipolytica Yarrowia lipolytica erythritol catabolism ends with erythrose phosphate [J] . Niang Papa Makhona, Arguelles‐Arias Anthony, Steels Sebastien, Cell biology international. . 2020,第2期

机译：在Yarrowia Lipolytica yarrowia Lipolytica赤藓糖醇分解代谢与酸磷酸盐
4. Combinatorial Engineering Yarrowia Lipolytica As a Platform for Production of Long Chain ω - Hydroxy Fatty Acids from Renewable Feedstock(PPT) [C] . Ali Abghari, Shulin Chen AIChE Annual Meeting . 2016

机译：组合工程Yarrowia Lipolytica作为生产长链ω - 羟基脂肪酸的平台，来自可再生原料（PPT）
5. Identification and characterization of genes involved in the regulation of filamentous growth of the dimorphic yeast Yarrowia lipolytica. [D] . Hurtado, Cleofe Antonio Rodriguez. 2002

机译：鉴定和表征参与调控双态酵母解脂耶氏酵母的丝状生长的基因。
6. Transcriptional Analysis of l-Methionine Catabolism in the Cheese-Ripening Yeast Yarrowia lipolytica in Relation to Volatile Sulfur Compound Biosynthesis [O] . Orianne Cholet, Alain Hénaut, Agnès Hébert, 2008

机译：干酪成熟酵母解脂耶氏酵母中L-蛋氨酸分解代谢的转录分析与挥发性硫化合物的生物合成相关
7. Analysis of Yarrowia lipolytica growth, catabolism, and terpenoid biosynthesis during utilization of lipid-derived feedstock [O] . Alyssa M. Worland, Jeffrey J. Czajka, Yun Xing, 2020

机译：脂质衍生原料利用过程中Yarrowia Lipolytica生长，分解代谢和三萜类生物合成分析

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Analysis of Yarrowia lipolytica growth catabolism and terpenoid biosynthesis during utilization of lipid-derived feedstock

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