Matthew Grisewood
Matthew Grisewood
Verified email at schrodinger.com
Title
Cited by
Cited by
Year
Recent advances in computational protein design
RJ Pantazes, MJ Grisewood, CD Maranas
Current opinion in structural biology 21 (4), 467-472, 2011
1042011
Computational redesign of acyl-ACP thioesterase with improved selectivity toward medium-chain-length fatty acids
MJ Grisewood, NJ Hernández-Lozada, JB Thoden, NP Gifford, ...
ACS catalysis 7 (6), 3837-3849, 2017
502017
The iterative protein redesign and optimization (IPRO) suite of programs
RJ Pantazes, MJ Grisewood, T Li, NP Gifford, CD Maranas
Journal of computational chemistry 36 (4), 251-263, 2015
362015
PoreDesigner for tuning solute selectivity in a robust and highly permeable outer membrane pore
R Chowdhury, T Ren, M Shankla, K Decker, M Grisewood, J Prabhakar, ...
Nature communications 9 (1), 1-10, 2018
292018
Methane oxidation by anaerobic archaea for conversion to liquid fuels
TJ Mueller, MJ Grisewood, H Nazem-Bokaee, S Gopalakrishnan, JG Ferry, ...
Journal of Industrial Microbiology and Biotechnology 42 (3), 391-401, 2015
272015
OptZyme: computational enzyme redesign using transition state analogues
MJ Grisewood, NP Gifford, RJ Pantazes, Y Li, PC Cirino, MJ Janik, ...
PloS one 8 (10), e75358, 2013
202013
IPRO+/−: Computational protein design tool allowing for insertions and deletions
R Chowdhury, MJ Grisewood, VS Boorla, Q Yan, BF Pfleger, CD Maranas
Structure 28 (12), 1344-1357. e4, 2020
32020
Gene construct encoding mutant thioesterase, mutant thioesterase encoded thereby, transformed host cell containing the gene construct, and method of using them to produce …
BF Pfleger, NJ Hernandez-Lozada, C Maranas, M Grisewood
US Patent 10,421,951, 2019
12019
Computationally exploring and alleviating the kinetic bottlenecks of anaerobic methane oxidation
MJ Grisewood, JG Ferry, CD Maranas
Frontiers in Environmental Science 6, 84, 2018
12018
OptZyme: a computational tool for altering enzymatic specificity
MJ Grisewood
12013
Gene construct encoding mutant thioesterase, mutant thioesterase encoded thereby, transformed host cell containing the gene construct, and method of using them to produce …
BF Pfleger, NJ Hernandez-Lozada, C Maranas, M Grisewood
US Patent App. 15/930,147, 2020
2020
Gene construct encoding mutant thioesterase, mutant thioesterase encoded thereby, transformed host cell containing the gene construct, and method of using them to produce …
BF Pfleger, NJ Hernandez-Lozada, C Maranas, M Grisewood
US Patent 10,689,631, 2020
2020
IPRO+/-COMPUTATIONAL PROTEIN DESIGN TOOL ALLOWING FOR INSERTIONS AND DELETIONS
M Grisewood, V Sheersh
COMPUTATIONAL REDESIGN OF CHANNEL PROTEINS, ENZYMES, AND ANTIBODIES, 85, 2020
2020
Development and Applications of Computational Enzyme Engineering Tools
MJ Grisewood
2018
Metabolic engineering of bacteria for production of oleochemicals
N Hernandez, M Grisewood, C Maranas, B Pfleger
ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 253, 2017
2017
Computational redesign of acyl-ACP thioesterase with improved selectivity towards medium chain fatty acids at high production levels
CD Maranas, MJ Grisewood, NJ Hernandez Lozada, BF Pfleger
2017
Computational redesign of acyl-ACP thioesterase for medium-chain fatty acid production
M Grisewood, N Hernandez-Lozada, B Pfleger, C Maranas
ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 251, 2016
2016
Transition state analogue-based computational enzyme design
M Grisewood, N Gifford, MJ Janik, CD Maranas
Food, Pharmaceutical and Bioengineering Division 2013-Core Programming Area …, 2013
2013
IPRO+/-: a computational protein design tool allowing not only for amino acid changes but also insertions and deletions
R Chowdhury, MJ Grisewood, CD Maranas, J Brezovec
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Articles 1–19