Huimin Zhao
Huimin Zhao
Steven L. Miller Chair of Chemical Engineering, University of Illinois at Urbana-Champaign
Verified email at - Homepage
Cited by
Cited by
Chromatin architecture reorganization during stem cell differentiation
JR Dixon, I Jung, S Selvaraj, Y Shen, JE Antosiewicz-Bourget, AY Lee, ...
Nature 518 (7539), 331-336, 2015
Molecular evolution by staggered extension process (StEP) in vitro recombination
H Zhao, L Giver, Z Shao, JA Affholter, FH Arnold
Nature biotechnology 16 (3), 258-261, 1998
DNA assembler, an in vivo genetic method for rapid construction of biochemical pathways
Z Shao, H Zhao, H Zhao
Nucleic acids research 37 (2), e16-e16, 2009
High-Efficiency Multiplex Genome Editing of Streptomyces Species Using an Engineered CRISPR/Cas System
RE Cobb, Y Wang, H Zhao
ACS synthetic biology 4 (6), 723-728, 2015
Directed evolution converts subtilisin E into a functional equivalent of thermitase
H Zhao, FH Arnold
Protein engineering 12 (1), 47-53, 1999
Recent developments in pyridine nucleotide regeneration
WA Van Der Donk, H Zhao
Current Opinion in Biotechnology 14 (4), 421-426, 2003
Regeneration of cofactors for use in biocatalysis
H Zhao, WA Van Der Donk
Current opinion in biotechnology 14 (6), 583-589, 2003
A rewritable, random-access DNA-based storage system
SM Tabatabaei Yazdi, Y Yuan, J Ma, H Zhao, O Milenkovic
Scientific reports 5 (1), 1-10, 2015
Homology-Integrated CRISPR–Cas (HI-CRISPR) System for One-Step Multigene Disruption in Saccharomyces cerevisiae
Z Bao, H Xiao, J Liang, L Zhang, X Xiong, N Sun, T Si, H Zhao
ACS synthetic biology 4 (5), 585-594, 2015
Optimization of DNA shuffling for high fidelity recombination
H Zhao, FH Arnold
Nucleic acids research 25 (6), 1307-1308, 1997
Random-priming in vitro recombination: an effective tool for directed evolution
Z Shao, H Zhao, L Giver, FH Arnold
Nucleic Acids Research 26 (2), 681-683, 1998
Transcription activator‐like effector nucleases (TALENs): a highly efficient and versatile tool for genome editing
N Sun, H Zhao
Biotechnology and bioengineering 110 (7), 1811-1821, 2013
Directed evolution: methodologies and applications
Y Wang, P Xue, M Cao, T Yu, ST Lane, H Zhao
Chemical reviews 121 (20), 12384-12444, 2021
Selective elimination of mitochondrial mutations in the germline by genome editing
P Reddy, A Ocampo, K Suzuki, J Luo, SR Bacman, SL Williams, ...
Cell 161 (3), 459-469, 2015
Directed evolution of enzymes and biosynthetic pathways
TW Johannes, H Zhao
Current opinion in microbiology 9 (3), 261-267, 2006
Improving cellular malonyl-CoA level in Escherichia coli via metabolic engineering
W Zha, SB Rubin-Pitel, Z Shao, H Zhao
Metabolic engineering 11 (3), 192-198, 2009
Engineering microbial factories for synthesis of value-added products
J Du, Z Shao, H Zhao
Journal of Industrial Microbiology and Biotechnology 38 (8), 873-890, 2011
Combinatorial metabolic engineering using an orthogonal tri-functional CRISPR system
J Lian, M HamediRad, S Hu, H Zhao
Nature communications 8 (1), 1688, 2017
CRISPR–Cas9 strategy for activation of silent Streptomyces biosynthetic gene clusters
MM Zhang, FT Wong, Y Wang, S Luo, YH Lim, E Heng, WL Yeo, RE Cobb, ...
Nature chemical biology 13 (6), 607-609, 2017
Recent advances in metabolic engineering of Saccharomyces cerevisiae: new tools and their applications
J Lian, S Mishra, H Zhao
Metabolic engineering 50, 85-108, 2018
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