Efficient metabolic evolution of engineered Yarrowia lipolytica for succinic acid production using a glucose-based medium in an in situ fibrous bioreactor under low-pH condition
文献类型: 外文期刊
第一作者: Li, Chong
作者: Li, Chong;Gao, Shi;Li, Xiaotong;Lin, Carol Sze Ki;Li, Chong;Yang, Xiaofeng
作者机构:
关键词: Metabolic evolution; Succinic acid; Yarrowia lipolytica; In-situ fibrous bed bioreactor
期刊名称:BIOTECHNOLOGY FOR BIOFUELS ( 影响因子:6.04; 五年影响因子:6.485 )
ISSN: 1754-6834
年卷期: 2018 年 11 卷
页码:
收录情况: SCI
摘要: Background: Alkali used for pH control during fermentation and acidification for downstream recovery of succinic acid (SA) are the two largest cost contributors for bio-based SA production. To promote the commercialization process of fermentative SA, the development of industrially important microorganisms that can tolerate low pH has emerged as a crucial issue. Results: In this study, an in situ fibrous bed bioreactor (isFBB) was employed for the metabolic evolution for selection of Y. lipolytica strain that can produce SA at low pH using glucose-based medium. An evolved strain named Y. lipolytica PSA3.0 that could produce SA with a titer of 19.3 g/L, productivity of 0.52 g/L/h, and yield of 0.29 g/g at pH 3.0 from YPD was achieved. The enzyme activity analysis demonstrated that the pathway from pyruvate to acetate was partially blocked in Y. lipolytica PSA3.0 after the evolution, which is beneficial to cell growth and SA production at low pH. When free-cell batch fermentations were performed using the parent and evolved strains separately, the evolved strain PSA3.0 produced 18.4 g/L SA with a yield of 0.23 g/g at pH 3.0. Although these values were lower than that obtained by the parent strain PSA02004 at its optimal pH 6.0, which were 25.2 g/L and 0.31 g/g, respectively, they were 4.8 and 4.6 times higher than that achieved by PSA02004 at pH 3.0. By fed-batch fermentation, the resultant SA titer of 76.8 g/L was obtained, which is the highest value that ever achieved from glucose-based medium at low pH, to date. When using mixed food waste (MFW) hydrolysate as substrate, 18.9 g/L SA was produced with an SA yield of 0.38 g/g, which demonstrates the feasibility of using low-cost glucose-based hydrolysate for SA production by Y. lipolytica in a low-pH environment. Conclusions: This study presents an effective and efficient strategy for the evolution of Y. lipolytica for SA production under low-pH condition for the first time. The isFBB was demonstrated to improve the metabolic evolution efficiency of Y. lipolytica to the acidic condition. Moreover, the acetate accumulation was found to be the major reason for the inhibition of SA production at low pH by Y. lipolytica, which suggested the direction for further metabolic modification of the strain for improved SA production. Furthermore, the evolved strain Y. lipolytica PSA3.0 was demonstrated to utilize glucose-rich hydrolysate from MFW for fermentative SA production at low pH. Similarly, Y. lipolytica PSA3.0 is expected to utilize the glucose-rich hydrolysate generated from other carbohydrate-rich waste streams for SA production. This study paves the way for the commercialization of bio-based SA and contributes to the sustainable development of a green economy.
分类号:
- 相关文献
作者其他论文 更多>>
-
Multiomics Analyses Reveal the Dual Role of Flavonoids in Pigmentation and Abiotic Stress Tolerance of Soybean Seeds
作者:Jiang, Ling;Yang, Xiaofeng;Gao, Xiewang;Huang, Shan;Zhu, Jianyu;Zhou, Hong;Li, Xiaohong;Gu, Xiaoyan;Jiang, Ling;Huang, Yong;Xiao, Mu;Gao, Xiewang;Yang, Hui;Zhou, Hongming;Liang, Zeya;Yang, Antong;Xiao, Mu;Ma, Shumei;Huang, Yong;Xiao, Mu;Huang, Yong
关键词:soybean; seedcoat color; abiotic stress; multiomics; flavonoids
-
Systematic characterization of Gossypium GLN family genes reveals a potential function of GhGLN1.1a regulates nitrogen use efficiency in cotton
作者:Li, Xiaotong;Muhammad, Noor;Song, Meizhen;Luo, Tong;Wang, Qianqian;Song, Meizhen;Dong, Qiang;Li, Xiaotong;Gu, Yunqi;Kayoumu, Mirezhatijiang;Muhammad, Noor;Wang, Xiangru;Gui, Huiping;Luo, Tong;Wang, Qianqian;Wumaierjiang, Xieraili;Ruan, Sijia;Zhang, Xiling;Song, Meizhen;Dong, Qiang;Iqbal, Asif
关键词:Gossypium; Glutamine synthetase; Gene family; Gene expression; Nitrogen use efficiency
-
Iron-modified biochar effectively mitigates arsenic-cadmium pollution in paddy fields: A meta-analysis
作者:Wei, Beilei;Zhang, Dongliang;Sun, Keke;Wei, Ying;Zhang, Xiaoqi;Ling, Huarong;He, Shijie;Wu, Hanqian;Wang, Ziting;Jeyakumar, Paramsothy;Trakal, Lukas;Wang, Hailong;Wang, Hailong;Huang, Zhigang;Li, Chong
关键词:Arsenic; Cadmium; Biochar; Iron plaque; Meta-analysis
-
Photo-induced Ag modulating carbon dots: Greatly improved fluorescent properties and derived sensing application
作者:Wang, Yuwei;Li, Ye;Yang, Guixiang;Du, Juan;Zheng, Baozhan;Guo, Yong;Yang, Xiaofeng;Yan, Chenglu;Peng, Huaqiao;Wang, Huiyong
关键词:Carbon dots; Photo -induced Ag modulating; Fluorescent enhancement; High quantum yield; Derived sensing application; Sulfide determination
-
Enhancement of Colorimetric pH-Sensitive Film Incorporating Amomum tsao-ko Essential Oil as Antibacterial for Mantis Shrimp Spoilage Tracking and Fresh-Keeping
作者:He, Yunxia;Yuan, Yuan;Gao, Yuanyuan;Chen, Mianhong;Li, Yingying;Zou, Ying;Liao, Liangkun;Li, Xiaotong;Li, Jihua;Zhou, Wei;Li, Xiaotong;Wang, Zhuo
关键词:smart film; Amomum tsao-ko essential oil; antimicrobial properties; mantis shrimp preservation; freshness monitoring
-
Fabrication of shaping catalyst SO42- /SnO2-RC for high efficient and continuous synthesis of trimethylolpropane oleate in fixed bed reactor
作者:Liang, Jinhua;Wei, Zihan;Li, Xiaotong;Xiang, Rongcheng;Fu, Wenya;Yang, Xiaorui;Zhu, Jianliang;Xu, Wenlong;Ren, Xiaoqian
关键词:Shaping catalyst; Fabrication; Trimethylolpropane trioleate; Esterification; Bio-lubricant; Fixed bed reactor
-
The ZcVg3 Gene Regulates the Reproduction and Lifespan of Female Zeugodacus cucurbitae (Coquillett) Mediated by Short-Term High Temperatures
作者:Yang, Shuyan;Peng, Sihua;Wang, Aqiang;Wu, Qianxing;Yang, Xiaofeng;Zhou, Shihao;Jia, Jingjing
关键词:Zeugodacus cucurbitae (Coquillett); RNA interference; Vitellogenin-3; reproduction; lifespan; synergistic relationship
