Nigel Scrutton
Nigel Scrutton
Professor of Enzymology, Manchester Institute of Biotechnology (MIB) and School of Chemistry
Verified email at - Homepage
Cited by
Cited by
Redesign of the coenzyme specificity of a dehydrogenase by protein engineering
NS Scrutton, A Berry, RN Perham
Nature 343 (6253), 38-43, 1990
Atomic description of an enzyme reaction dominated by proton tunneling
L Masgrau, A Roujeinikova, LO Johannissen, P Hothi, J Basran, ...
Science 312 (5771), 237-241, 2006
Conversion of alcohols to enantiopure amines through dual-enzyme hydrogen-borrowing cascades
FG Mutti, T Knaus, NS Scrutton, M Breuer, NJ Turner
Science 349 (6255), 1525-1529, 2015
Biocatalytic reductions and chemical versatility of the old yellow enzyme family of flavoprotein oxidoreductases
HS Toogood, JM Gardiner, NS Scrutton
ChemCatChem 2 (8), 892-914, 2010
Cation-π bonding and amino-aromatic interactions in the biomolecular recognition of substituted ammonium ligands
NS Scrutton, ARC Raine
Biochemical Journal 319 (1), 1-8, 1996
Good vibrations in enzyme-catalysed reactions
S Hay, NS Scrutton
Nature chemistry 4 (3), 161-168, 2012
Enzymatic H-transfer requires vibration-driven extreme tunneling
J Basran, MJ Sutcliffe, NS Scrutton
Biochemistry 38 (10), 3218-3222, 1999
Covalent attachment of flavin adenine dinucleotide (FAD) and flavin mononucleotide (FMN) to enzymes: the current state of affairs
M Mewies, WS McIntire, NS Scrutton
Protein Science 7 (1), 7-20, 1998
Building a global alliance of biofoundries
N Hillson, M Caddick, Y Cai, JA Carrasco, MW Chang, NC Curach, ...
Nature communications 10 (1), 2040, 2019
Biotransformation of explosives by the old yellow enzyme family of flavoproteins
RE Williams, DA Rathbone, NS Scrutton, NC Bruce
Applied and environmental microbiology 70 (6), 3566-3574, 2004
New cofactor supports α, β-unsaturated acid decarboxylation via 1, 3-dipolar cycloaddition
KAP Payne, MD White, K Fisher, B Khara, SS Bailey, D Parker, ...
Nature 522 (7557), 497-501, 2015
Discovery, characterization, engineering, and applications of ene-reductases for industrial biocatalysis
HS Toogood, NS Scrutton
ACS catalysis 8 (4), 3532-3549, 2018
What’s in a covalent bond? On the role and formation of covalently bound flavin cofactors
DPHM Heuts, NS Scrutton, WS McIntire, MW Fraaije
The FEBS journal 276 (13), 3405-3427, 2009
An automated Design-Build-Test-Learn pipeline for enhanced microbial production of fine chemicals
P Carbonell, AJ Jervis, CJ Robinson, C Yan, M Dunstan, N Swainston, ...
Communications biology 1 (1), 66, 2018
UbiX is a flavin prenyltransferase required for bacterial ubiquinone biosynthesis
MD White, KAP Payne, K Fisher, SA Marshall, D Parker, NJW Rattray, ...
Nature 522 (7557), 502-506, 2015
Better than nature: nicotinamide biomimetics that outperform natural coenzymes
T Knaus, CE Paul, CW Levy, S De Vries, FG Mutti, F Hollmann, ...
Journal of the American Chemical Society 138 (3), 1033-1039, 2016
Biodiversity of cytochrome P450 redox systems
KJ McLean, M Sabri, KR Marshall, RJ Lawson, DG Lewis, D Clift, ...
Biochemical Society Transactions 33 (4), 796-801, 2005
A new conceptual framework for enzyme catalysis: Hydrogen tunneling coupled to enzyme dynamics in flavoprotein and quinoprotein enzymes
MJ Sutcliffe, NS Scrutton
European Journal of Biochemistry 269 (13), 3096-3102, 2002
The dimeric form of flavocytochrome P450 BM3 is catalytically functional as a fatty acid hydroxylase
R Neeli, HM Girvan, A Lawrence, MJ Warren, D Leys, NS Scrutton, ...
FEBS letters 579 (25), 5582-5588, 2005
New developments in ‘ene’-reductase catalysed biological hydrogenations
HS Toogood, NS Scrutton
Current opinion in chemical biology 19, 107-115, 2014
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