Evaluation of a phenolic-tolerant Wickerhamomyces anomalus strain for efficient ethanol production based on omics analysis
文献类型: 外文期刊
第一作者: Qin, Shiwen
作者: Qin, Shiwen;Kong, Deting;He, Feifei;Hu, Faguang;Zhao, Tonghua;Suo, Yukai;Zhao, Tonghua;Suo, Yukai;Zhao, Tonghua;Suo, Yukai
作者机构:
关键词: Bioethanol; Wickerhamomyces anomalus; Phenolic resistance; Omics analysis; Coffee husk
期刊名称:ENERGY ( 影响因子:9.4; 五年影响因子:8.8 )
ISSN: 0360-5442
年卷期: 2024 年 311 卷
页码:
收录情况: SCI
摘要: Lignocellulosic biomass is a highly economically viable substrate for ethanol fermentation, but the presence of phenolic compounds (PCs) in lignocellulosic hydrolysates severely hinders the growth of ethanologenic strains. This study aims to investigate the ethanol fermentation capabilities and PC tolerance of the newly isolated Wickerhamomyces anomalus CAP5. The strain demonstrated remarkable ethanol production, achieving 87.1 g/L with a yield of 0.47 g/g, exceeding 90 % of the theoretical maximum. To elucidate the mechanisms responsible for this high ethanol yield, comprehensive genome and transcriptome analyses were performed. These analyses identified key metabolic pathways, including acetate reabsorption and an incomplete glycerol synthesis pathway, as crucial factors contributing to the strain's superior performance. Moreover, W. anomalus CAP5 demonstrated notable resistance to PCs, particularly phenolic acids. In fermenting with coffee husk hydrolysate (CHH), which is rich in PCs, W. anomalus CAP5 achieved noteworthy ethanol production of 60.5 g/L, marking a record for ethanol production from CHH. Hence, W. anomalus CAP5 emerges as a promising strain for effective ethanol production from lignocellulosic hydrolysates enriched with PCs.
分类号:
- 相关文献
作者其他论文 更多>>
-
Nutritional and antioxidant profiling reveals coffee cherry tea as a health-promoting ingredient retaining the nutraceutical properties of coffee husks
作者:He, Feifei;Gao, Jing;Zhang, Jiaxin;Ma, Ruichen;Li, Zheng;Lyu, Yulan;Cesarino, Igor
关键词:Coffee husks; Coffee cherry tea; Coffee by-products; Nutraceutical properties; Value addition
-
Diversity of Cultivable Bacterial Populations Provides Evidence for Tobacco-crop Rotations in Alleviating Continuous Cropping Obstacles
作者:Liu, Xin;He, Feifei;Shi, Zhuli;Wang, Yu;Liu, Xin;Zhang, Yijie;Chen, Yan;Shi, Zhufeng;Shi, Zhuli;Wang, Yu;Yang, Peiwen;He, Biao;Han, Tianhua;Luo, You;Li, Xuewei
关键词:flue-cured tobacco; rotation; soil quality
-
Effects of ultrasonic treatment on the physicochemical, structural, and functional properties of soluble dietary fiber from coffee peels
作者:Yu, Xinxin;Zhu, Ke;Hu, Rongsuo;Dong, Wenjiang;Hu, Faguang;Zhu, Ke;Dong, Wenjiang
关键词:Coffee peel soluble dietary fiber; Ultrasonic treatment; Structure; Functional properties
-
Characterization of volatile compounds and microbial diversity of Arabica coffee in honey processing method based on different mucilage retention treatments
作者:Hu, Faguang;Yu, Haohao;Fu, Xingfei;Li, Zhongxian;Li, Guiping;Li, Yanan;Li, Yaqi;Qu, Bingqing;Bi, Xiaofei;Hu, Faguang;Yu, Haohao;Fu, Xingfei;Li, Guiping;Li, Yanan;Li, Yaqi;Bi, Xiaofei;Dong, Wenjiang
关键词:Arabica coffee; Honey processing; Mucilage retention; HS-SPME-GC-MS; Volatile compounds; Microorganisms
-
Integration of transcriptome, metabolome and high-throughput amplicon sequencing reveals potential mechanisms of antioxidant activity and environmental adaptation in the purple-leaf phenotype of Coffea cultivars
作者:Yu, Haohao;Fu, Xingfei;Li, Zhongxian;Bi, Xiaofei;Li, Yanan;Li, Yaqi;Hu, Faguang;Lyu, Yulan;Yu, Haohao;Fu, Xingfei;Bi, Xiaofei;Li, Yanan;Li, Yaqi;Hu, Faguang;Lyu, Yulan;He, Feifei;Qin, Shiwen
关键词:Purple coffee; Antioxidant activity; Transcriptome; Metabolome; Endophytic bacterial
-
Integration of widely targeted metabolomics and the e-tongue reveals the chemical variation and taste quality of Yunnan Arabica coffee prepared using different primary processing methods
作者:Zhai, Huinan;Dong, Wenjiang;Hu, Faguang;Zhai, Huinan;Fu, Xingfei;Li, Guiping;Hu, Faguang;Zhai, Huinan;Dong, Wenjiang
关键词:Yunnan Arabica coffee; Primary processing methods; Widely targeted metabolomics; Electronic tongue
-
The ABA synthesis enzyme allele OsNCED2T promotes dryland adaptation in upland rice
作者:Huang, Liyu;Bao, Yachong;Qin, Shiwen;Ning, Min;Li, Qinyan;Li, Qingmao;Zhang, Shilai;Huang, Guangfu;Zhang, Jing;Hu, Fengyi;Wang, Wensheng;Fu, Binying
关键词:Upland rice; Dryland adaptation; ABA; Root development; Drought tolerance
