Neil Swainston
Neil Swainston
Epoch Biodesign
Verified email at
Cited by
Cited by
A community-driven global reconstruction of human metabolism
I Thiele, N Swainston, RMT Fleming, A Hoppe, S Sahoo, MK Aurich, ...
Nature biotechnology 31 (5), 419-425, 2013
ChEBI in 2016: Improved services and an expanding collection of metabolites
J Hastings, G Owen, A Dekker, M Ennis, N Kale, V Muthukrishnan, ...
Nucleic acids research 44 (D1), D1214-D1219, 2016
A consensus yeast metabolic network reconstruction obtained from a community approach to systems biology
MJ Herrgård, N Swainston, P Dobson, WB Dunn, KY Arga, M Arvas, ...
Nature biotechnology 26 (10), 1155-1160, 2008
Synthetic biology for the directed evolution of protein biocatalysts: navigating sequence space intelligently
A Currin, N Swainston, PJ Day, DB Kell
Chemical Society Reviews 44 (5), 1172-1239, 2015
Mass spectrometry tools and metabolite-specific databases for molecular identification in metabolomics
M Brown, WB Dunn, P Dobson, Y Patel, CL Winder, S Francis-McIntyre, ...
Analyst 134 (7), 1322-1332, 2009
Recon 2.2: from reconstruction to model of human metabolism
N Swainston, K Smallbone, H Hefzi, PD Dobson, J Brewer, M Hanscho, ...
Metabolomics 12, 1-7, 2016
Growth control of the eukaryote cell: a systems biology study in yeast
JI Castrillo, LA Zeef, DC Hoyle, N Zhang, A Hayes, DCJ Gardner, ...
Journal of biology 6, 1-25, 2007
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
SBML Level 3: an extensible format for the exchange and reuse of biological models
SM Keating, D Waltemath, M König, F Zhang, A Dräger, C Chaouiya, ...
Molecular systems biology 16 (8), e9110, 2020
Towards a genome-scale kinetic model of cellular metabolism
K Smallbone, E Simeonidis, N Swainston, P Mendes
BMC systems biology 4, 1-9, 2010
Membrane transporter engineering in industrial biotechnology and whole cell biocatalysis
DB Kell, N Swainston, P Pir, SG Oliver
Trends in biotechnology 33 (4), 237-246, 2015
Improving metabolic flux predictions using absolute gene expression data
D Lee, K Smallbone, WB Dunn, E Murabito, CL Winder, DB Kell, ...
BMC systems biology 6, 1-9, 2012
Path2Models: large-scale generation of computational models from biochemical pathway maps
F Büchel, N Rodriguez, N Swainston, C Wrzodek, T Czauderna, R Keller, ...
BMC systems biology 7, 1-19, 2013
A community effort towards a knowledge-base and mathematical model of the human pathogen Salmonella Typhimurium LT2
I Thiele, DR Hyduke, B Steeb, G Fankam, DK Allen, S Bazzani, ...
BMC systems biology 5, 1-9, 2011
A model of yeast glycolysis based on a consistent kinetic characterisation of all its enzymes
K Smallbone, HL Messiha, KM Carroll, CL Winder, N Malys, WB Dunn, ...
FEBS letters 587 (17), 2832-2841, 2013
Identifiers for the 21st century: How to design, provision, and reuse persistent identifiers to maximize utility and impact of life science data
JA McMurry, N Juty, N Blomberg, T Burdett, T Conlin, N Conte, M Courtot, ...
PLoS biology 15 (6), e2001414, 2017
Further developments towards a genome-scale metabolic model of yeast
PD Dobson, K Smallbone, D Jameson, E Simeonidis, K Lanthaler, P Pir, ...
BMC systems biology 4, 1-7, 2010
The SuBliMinaL Toolbox: automating steps in the reconstruction of metabolic networks
N Swainston, K Smallbone, P Mendes, DB Kell, NW Paton
Journal of integrative bioinformatics 8 (2), 187-203, 2011
Integration of metabolic databases for the reconstruction of genome-scale metabolic networks
K Radrich, Y Tsuruoka, P Dobson, A Gevorgyan, N Swainston, G Baart, ...
BMC systems biology 4, 1-16, 2010
Selenzyme: enzyme selection tool for pathway design
P Carbonell, J Wong, N Swainston, E Takano, NJ Turner, NS Scrutton, ...
Bioinformatics 34 (12), 2153-2154, 2018
The system can't perform the operation now. Try again later.
Articles 1–20