Christopher P. Garnham
Christopher P. Garnham
Agriculture & Agri-Food Canada - London Research and Development Centre
Verified email at - Homepage
Cited by
Cited by
Anchored clathrate waters bind antifreeze proteins to ice
CP Garnham, RL Campbell, PL Davies
Proceedings of the National Academy of Sciences 108 (18), 7363-7367, 2011
The basis for hyperactivity of antifreeze proteins
AJ Scotter, CB Marshall, LA Graham, JA Gilbert, CP Garnham, PL Davies
Cryobiology 53 (2), 229-239, 2006
The chemical complexity of cellular microtubules: tubulin post‐translational modification enzymes and their roles in tuning microtubule functions
CP Garnham, A Roll‐Mecak
Cytoskeleton 69 (7), 442-463, 2012
Writing and reading the tubulin code
I Yu, CP Garnham, A Roll-Mecak
Journal of Biological Chemistry 290 (28), 17163-17172, 2015
A Ca2+-dependent bacterial antifreeze protein domain has a novel β-helical ice-binding fold
CP Garnham, JA Gilbert, CP Hartman, RL Campbell, J Laybourn-Parry, ...
Biochemical Journal 411 (1), 171-180, 2008
A robust, streamlined, and reproducible method for proteomic analysis of serum by delipidation, albumin and IgG depletion, and two‐dimensional gel electrophoresis
Q Fu, CP Garnham, ST Elliott, DE Bovenkamp, JE Van Eyk
Proteomics 5 (10), 2656-2664, 2005
Novel dimeric β-helical model of an ice nucleation protein with bridged active sites
CP Garnham, RL Campbell, VK Walker, PL Davies
BMC structural biology 11 (1), 1-12, 2011
Ice-binding site of snow mold fungus antifreeze protein deviates from structural regularity and high conservation
H Kondo, Y Hanada, H Sugimoto, T Hoshino, CP Garnham, PL Davies, ...
Proceedings of the National Academy of Sciences 109 (24), 9360-9365, 2012
Compound ice-binding site of an antifreeze protein revealed by mutagenesis and fluorescent tagging
CP Garnham, A Natarajan, AJ Middleton, MJ Kuiper, I Braslavsky, ...
Biochemistry 49 (42), 9063-9071, 2010
Re-evaluation of a bacterial antifreeze protein as an adhesin with ice-binding activity
S Guo, CP Garnham, JC Whitney, LA Graham, PL Davies
PloS one 7 (11), e48805, 2012
Multivalent microtubule recognition by tubulin tyrosine ligase-like family glutamylases
CP Garnham, A Vemu, EM Wilson-Kubalek, I Yu, A Szyk, GC Lander, ...
Cell 161 (5), 1112-1123, 2015
Determining the ice-binding planes of antifreeze proteins by fluorescence-based ice plane affinity
K Basu, CP Garnham, Y Nishimiya, S Tsuda, I Braslavsky, P Davies
Journal of visualized experiments: JoVE, 2014
Improvements in two‐dimensional gel electrophoresis by utilizing a low cost “in‐house” neutral pH sodium dodecyl sulfate‐polyacrylamide gel electrophoresis system
DRM Graham, CP Garnham, Q Fu, J Robbins, JE Van Eyk
Proteomics 5 (9), 2309-2314, 2005
Limb-girdle muscular dystrophy type 2A can result from accelerated autoproteolytic inactivation of calpain 3
CP Garnham, RA Hanna, JS Chou, KE Low, K Gourlay, RL Campbell, ...
Biochemistry 48 (15), 3457-3467, 2009
Generation of differentially modified microtubules using in vitro enzymatic approaches
A Vemu, CP Garnham, DY Lee, A Roll-Mecak
Methods in enzymology 540, 149-166, 2014
Engineering a naturally inactive isoform of type III antifreeze protein into one that can stop the growth of ice
CP Garnham, Y Nishimiya, S Tsuda, PL Davies
FEBS letters 586 (21), 3876-3881, 2012
Role of Ca2+ in folding the tandem β‐sandwich extender domains of a bacterial ice‐binding adhesin
S Guo, CP Garnham, S Karunan Partha, RL Campbell, JS Allingham, ...
The FEBS journal 280 (22), 5919-5932, 2013
Phosphinic acid-based inhibitors of tubulin polyglutamylases
Y Liu, CP Garnham, A Roll-Mecak, ME Tanner
Bioorganic & medicinal chemistry letters 23 (15), 4408-4412, 2013
Crystal structure of tubulin tyrosine ligase-like 3 reveals essential architectural elements unique to tubulin monoglycylases
CP Garnham, I Yu, Y Li, A Roll-Mecak
Proceedings of the National Academy of Sciences 114 (25), 6545-6550, 2017
Ice-binding proteins adsorb to their ligand via anchored clathrate waters
CP Garnham
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