Tim Stevens
Tim Stevens
MRC Laboratory of Molecular Biology
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Cited by
The CCPN data model for NMR spectroscopy: development of a software pipeline
WF Vranken, W Boucher, TJ Stevens, RH Fogh, A Pajon, M Llinas, ...
Proteins: Structure, Function, and Bioinformatics 59 (4), 687-696, 2005
Single-cell Hi-C reveals cell-to-cell variability in chromosome structure
T Nagano, Y Lubling, TJ Stevens, S Schoenfelder, E Yaffe, W Dean, ...
Nature 502 (7469), 59-64, 2013
3D structures of individual mammalian genomes studied by single-cell Hi-C
TJ Stevens, D Lando, S Basu, LP Atkinson, Y Cao, SF Lee, M Leeb, ...
Nature 544 (7648), 59-64, 2017
A comprehensive comparison of transmembrane domains reveals organelle-specific properties
HJ Sharpe, TJ Stevens, S Munro
Cell 142 (1), 158-169, 2010
Identification of glycosylphosphatidylinositol-anchored proteins in Arabidopsis. A proteomic and genomic analysis
GHH Borner, KS Lilley, TJ Stevens, P Dupree
Plant physiology 132 (2), 568-577, 2003
Do more complex organisms have a greater proportion of membrane proteins in their genomes?
TJ Stevens, IT Arkin
Proteins: Structure, Function, and Bioinformatics 39 (4), 417-420, 2000
DANGLE: a Bayesian inferential method for predicting protein backbone dihedral angles and secondary structure
MS Cheung, ML Maguire, TJ Stevens, RW Broadhurst
Journal of Magnetic Resonance 202 (2), 223-233, 2010
Prediction of glycosylphosphatidylinositol-anchored proteins in Arabidopsis. A genomic analysis
GHH Borner, DJ Sherrier, TJ Stevens, IT Arkin, P Dupree
Plant physiology 129 (2), 486-499, 2002
A comprehensive subcellular atlas of the Toxoplasma proteome via hyperLOPIT provides spatial context for protein functions
K Barylyuk, L Koreny, H Ke, S Butterworth, OM Crook, I Lassadi, V Gupta, ...
Cell host & microbe 28 (5), 752-766. e9, 2020
Putative glycosyltransferases and other plant Golgi apparatus proteins are revealed by LOPIT proteomics
N Nikolovski, D Rubtsov, MP Segura, GP Miles, TJ Stevens, TPJ Dunkley, ...
Plant Physiology 160 (2), 1037-1051, 2012
Membrane proteins: the ‘Wild West’of structural biology
J Torres, TJ Stevens, M Samsó
Trends in biochemical sciences 28 (3), 137-144, 2003
A software framework for analysing solid-state MAS NMR data
TJ Stevens, RH Fogh, W Boucher, VA Higman, F Eisenmenger, ...
Journal of biomolecular NMR 51 (4), 437-447, 2011
CING: an integrated residue-based structure validation program suite
JF Doreleijers, AWS da Silva, E Krieger, SB Nabuurs, CAEM Spronk, ...
Journal of Biomolecular NMR 54 (3), 267-283, 2012
Are membrane proteins “inside‐out” proteins?
TJ Stevens, IT Arkin
Proteins: Structure, Function, and Bioinformatics 36 (1), 135-143, 1999
Structure calculation, refinement and validation using CcpNmr Analysis
SP Skinner, BT Goult, RH Fogh, W Boucher, TJ Stevens, ED Laue, ...
Acta Crystallographica Section D: Biological Crystallography 71 (1), 154-161, 2015
Substitution rates in α‐helical transmembrane proteins
TJ Stevens, IT Arkin
Protein Science 10 (12), 2507-2517, 2001
A framework for scientific data modeling and automated software development
RH Fogh, W Boucher, WF Vranken, A Pajon, TJ Stevens, TN Bhat, ...
Bioinformatics 21 (8), 1678-1684, 2005
Hydrocarbons Are Essential for Optimal Cell Size, Division, and Growth of Cyanobacteria
DJ Lea-Smith, ML Ortiz-Suarez, T Lenn, DJ Nürnberg, LL Baers, ...
Plant physiology 172 (3), 1928-1940, 2016
Proteome mapping of a cyanobacterium reveals distinct compartment organization and cell-dispersed metabolism
LL Baers, LM Breckels, LA Mills, L Gatto, MJ Deery, TJ Stevens, CJ Howe, ...
Plant physiology 181 (4), 1721-1738, 2019
Separating Golgi Proteins from Cis to Trans Reveals Underlying Properties of Cisternal Localization
HT Parsons, TJ Stevens, HE McFarlane, S Vidal-Melgosa, J Griss, ...
The Plant Cell 31 (9), 2010-2034, 2019
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