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William Finnigan
William Finnigan
Verified email at manchester.ac.uk
Title
Cited by
Cited by
Year
Characterization of carboxylic acid reductases as enzymes in the toolbox for synthetic chemistry
W Finnigan, A Thomas, H Cromar, B Gough, R Snajdrova, JP Adams, ...
ChemCatChem 9 (6), 1005-1017, 2017
922017
Biocatalysis
EL Bell, W Finnigan, SP France, AP Green, MA Hayes, LJ Hepworth, ...
Nature Reviews Methods Primers 1 (1), 1-21, 2021
532021
RetroBioCat as a computer-aided synthesis planning tool for biocatalytic reactions and cascades
W Finnigan, LJ Hepworth, SL Flitsch, NJ Turner
Nature catalysis 4 (2), 98-104, 2021
432021
Engineering a seven enzyme biotransformation using mathematical modelling and characterized enzyme parts
W Finnigan, R Cutlan, R Snajdrova, JP Adams, JA Littlechild, N Harmer
ChemCatChem, 3474-3489, 2019
302019
Synthetic biology for fibers, adhesives, and active camouflage materials in protection and aerospace
AD Roberts, W Finnigan, E Wolde-Michael, P Kelly, JJ Blaker, S Hay, ...
MRS communications 9 (2), 486-504, 2019
192019
Highly thermostable carboxylic acid reductases generated by ancestral sequence reconstruction
A Thomas, R Cutlan, W Finnigan, M van der Giezen, N Harmer
Communications biology 2 (1), 1-12, 2019
182019
The effect of terminal globular domains on the response of recombinant mini-spidroins to fiber spinning triggers
W Finnigan, AD Roberts, C Ligorio, NS Scrutton, R Breitling, JJ Blaker, ...
Scientific reports 10 (1), 1-13, 2020
162020
Biocatalytic monoacylation of symmetrical diamines and its application to the synthesis of pharmaceutically relevant amides
M Lubberink, C Schnepel, J Citoler, SR Derrington, W Finnigan, ...
ACS Catalysis 10 (17), 10005-10009, 2020
152020
Non-covalent protein-based adhesives for transparent substrates—bovine serum albumin vs. recombinant spider silk
AD Roberts, W Finnigan, PP Kelly, M Faulkner, R Breitling, E Takano, ...
Materials Today Bio 7, 100068, 2020
102020
Rapid Model-Based Optimization of a Two-Enzyme System for Continuous Reductive Amination in Flow
W Finnigan, J Citoler, SC Cosgrove, NJ Turner
Organic Process Research & Development 24 (10), 1969-1977, 2020
102020
Structural and biochemical characterisation of Archaeoglobus fulgidus esterase reveals a bound CoA molecule in the vicinity of the active site
C Sayer, W Finnigan, MN Isupov, M Levisson, SWM Kengen, ...
Scientific Reports 6 (1), 1-13, 2016
102016
Enzyme immobilisation on wood-derived cellulose scaffolds via carbohydrate-binding module fusion constructs
AD Roberts, KAP Payne, S Cosgrove, V Tilakaratna, I Penafiel, ...
Green Chemistry 23 (13), 4716-4732, 2021
52021
Chem-CatChem 2017, 9, 1005–1017; b) SR Derrington, NJ Turner, SP France
W Finnigan, A Thomas, H Cromar, B Gough, R Snajdrova, JP Adams, ...
J. Biotechnol 304, 78-88, 2019
42019
Enzyme Cascade Design: Retrosynthesis Approach
W Finnigan, SL Flitsch, LJ Hepworth, NJ Turner
Enzyme Cascade Design and Modelling, 7-30, 2021
22021
Carboxylic acid reductases and their use as well defined enzyme building blocks for the construction of in vitro cascade reactions
W Finnigan
New Biotechnology, S15-S16, 2016
22016
RetroBioCat: Computer-Aided Synthesis Planning for Biocatalytic Reactions and Cascades
W Finnigan, LJ Hepworth, NJ Turner, S Flitsch
12020
Highly thermostable carboxylic acid reductases generated by ancestral sequence reconstruction (dataset)
A Thomas, R Cutlan, W Finnigan, M Van Der Giezen, N Harmer
University of Exeter, 2019
12019
Direct Enzymatic Synthesis of Fatty Amines from Renewable Triglycerides and Oils
J Citoler, W Finnigan, H Bevinakatti, NJ Turner
ChemBioChem 23 (2), e202100578, 2022
2022
Production of the extremolyte cyclic 2, 3-diphosphoglycerate using Thermus thermophilus as a whole-cell factory (dataset)
S De Rose, N Harmer, J Littlechild, W Finnigan
University of Exeter, 2021
2021
Engineering alcohol oxidases for substrate scope and their application in flow and cascade biocatalysis
R Heath, M Thompson, J Ramsden, W Finnigan, N Turner, S Cosgrove
2019
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