Directed evolution of a fungal β-glucosidase in Saccharomyces cerevisiae

被引:0
作者
Kane Larue
Mindy Melgar
Vincent J. J. Martin
机构
[1] Concordia University,Department of Biology, Centre for Structural and Functional Genomics
来源
Biotechnology for Biofuels | / 9卷
关键词
Biofuels; Consolidated bioprocessing; β-glucosidase; Cellulase; Inhibition; Directed evolution;
D O I
暂无
中图分类号
学科分类号
摘要
引用
收藏
相关论文
共 50 条
[41]   RNAi-Assisted Genome Evolution in Saccharomyces cerevisiae for Complex Phenotype Engineering [J].
Si, Tong ;
Luo, Yunzi ;
Bao, Zehua ;
Zhao, Huimin .
ACS SYNTHETIC BIOLOGY, 2015, 4 (03) :283-291
[42]   Efficient Biosynthesis of (2S)-Eriodictyol from (2S)-Naringenin in Saccharomyces cerevisiae through a Combination of Promoter Adjustment and Directed Evolution [J].
Gao, Song ;
Xu, Xiaoyu ;
Zeng, Weizhu ;
Xu, Sha ;
Lyv, Yunbin ;
Feng, Yue ;
Kai, Guoyin ;
Zhou, Jingwen ;
Chen, Jian .
ACS SYNTHETIC BIOLOGY, 2020, 9 (12) :3288-3297
[43]   Bioremediation of polycyclic aromatic hydrocarbons by fungal laccases engineered by directed evolution [J].
Zumarraga, Miren ;
Plou, Francisco J. ;
Garcia-Arellano, Humberto ;
Ballesteros, Antonio ;
Alcalde, Miguel .
BIOCATALYSIS AND BIOTRANSFORMATION, 2007, 25 (2-4) :219-228
[44]   Directed evolution of an exoglucanase facilitated by a co-expressed β-glucosidase and construction of a whole engineered cellulase system in Escherichia coli [J].
Min Liu ;
Wenping Xie ;
Haoming Xu ;
Jiali Gu ;
Xiaomei Lv ;
Hongwei Yu ;
Lidan Ye .
Biotechnology Letters, 2014, 36 :1801-1807
[45]   Directed evolution of an exoglucanase facilitated by a co-expressed β-glucosidase and construction of a whole engineered cellulase system in Escherichia coli [J].
Liu, Min ;
Xie, Wenping ;
Xu, Haoming ;
Gu, Jiali ;
Lv, Xiaomei ;
Yu, Hongwei ;
Ye, Lidan .
BIOTECHNOLOGY LETTERS, 2014, 36 (09) :1801-1807
[46]   Molecular cloning and expression of fungal cellobiose transporters and β-glucosidases conferring efficient cellobiose fermentation in Saccharomyces cerevisiae [J].
Bae, Yi-Hyun ;
Kang, Kyeong-Hyeon ;
Jin, Yong-Su ;
Seo, Jin-Ho .
JOURNAL OF BIOTECHNOLOGY, 2014, 169 :34-41
[47]   Heterologously expressed Aspergillus aculeatus β-glucosidase in Saccharomyces cerevisiae is a cost-effective alternative to commercial supplementation of β-glucosidase in industrial ethanol production using Trichoderma reesei cellulases [J].
Treebupachatsakul, Treesukon ;
Nakazawa, Hikaru ;
Shinbo, Hideaki ;
Fujikawa, Hiroki ;
Nagaiwa, Asami ;
Ochiai, Nobuhiro ;
Kawaguchi, Takashi ;
Nikaido, Mitsuru ;
Totani, Kazuhide ;
Shioya, Koki ;
Shida, Yosuke ;
Morikawa, Yasushi ;
Ogasawara, Wataru ;
Okada, Hirofumi .
JOURNAL OF BIOSCIENCE AND BIOENGINEERING, 2016, 121 (01) :27-35
[48]   Exploring the evolution of multicellularity in Saccharomyces cerevisiae under bacteria environment: An experimental phylogenetics approach [J].
Quintero-Galvis, Julian F. ;
Paleo-Lopez, Rocio ;
Solano-Iguaran, Jaiber J. ;
Josefina Poupin, Maria ;
Ledger, Thomas ;
Gaitan-Espitia, Juan Diego ;
Antol, Andrzej ;
Travisano, Michael ;
Nespolo, Roberto F. .
ECOLOGY AND EVOLUTION, 2018, 8 (09) :4619-4630
[49]   Development of fed-batch process for high-yielding β-glucosidase displayed on cell surface of industrial yeast Saccharomyces cerevisiae [J].
Onodera, Kaoru ;
Hama, Shinji ;
Yoshida, Ayumi ;
Noda, Hideo ;
Kondo, Akihiko .
BIOCHEMICAL ENGINEERING JOURNAL, 2017, 128 :195-200
[50]   Leveraging transcription factors to speed cellobiose fermentation by Saccharomyces cerevisiae [J].
Lin, Yuping ;
Chomvong, Kulika ;
Acosta-Sampson, Ligia ;
Estrela, Raissa ;
Galazka, Jonathan M. ;
Kim, Soo Rin ;
Jin, Yong-Su ;
Cate, Jamie H. D. .
BIOTECHNOLOGY FOR BIOFUELS, 2014, 7