Authors:
van der Spuy, J
Cheetham, ME
Dirr, HW
Blatch, GL
Citation: J. Van Der Spuy et al., The cochaperone murine stress-inducible protein 1: Overexpression, purification, and characterization, PROT EX PUR, 21(3), 2001, pp. 462-469
Citation: Jat. Hornby et al., Structural and functional response to mutations at the protein-protein interface of mu class glutathione transferase, CHEM-BIO IN, 133(1-3), 2001, pp. 55-57
Authors:
Luo, JK
Hornby, JAT
Armstrong, RN
Dirr, HW
Citation: Jk. Luo et al., Equilibrium unfolding and enzyme kinetics of chimeric mu class glutathionetransferases, CHEM-BIO IN, 133(1-3), 2001, pp. 58-59
Citation: Y. Sayed et al., The hydrophobic lock-and-key intersubunit motif of glutathione transferaseAl-l: implications for catalysis, ligandin function and stability, CHEM-BIO IN, 133(1-3), 2001, pp. 60-62
Authors:
Longshaw, VM
Dirr, HW
Blatch, GL
Lassle, M
Citation: Vm. Longshaw et al., The in vitro phosphorylation of the co-chaperone mSTI1 by cell cycle kinases substantiates a predicted casein kinase II-p34(cdc2)-NLS (CcN) motif, BIOL CHEM, 381(11), 2000, pp. 1133-1138
Authors:
Hennessy, F
Cheetham, ME
Dirr, HW
Blatch, GL
Citation: F. Hennessy et al., Analysis of the levels of conservation of the J domain among the various types of DnaJ-like proteins, CELL STR CH, 5(4), 2000, pp. 347-358
Citation: Jm. Stevens et al., Electrostatic interactions affecting the active site of class Sigma glutathione S-transferase, BIOCHEM J, 347, 2000, pp. 193-197
Authors:
van der Spuy, J
Kana, BD
Dirr, HW
Blatch, GL
Citation: J. Van Der Spuy et al., Heat shock cognate protein 70 chaperone-binding site in the co-chaperone murine stress-inducible protein 1 maps to within three consecutive tetratricopeptide repeat motifs, BIOCHEM J, 345, 2000, pp. 645-651
Citation: La. Wallace et al., Domain-domain interface packing at conserved Trp-20 in class alpha glutathione transferase impacts on protein stability, BBA-PROT ST, 1478(2), 2000, pp. 325-332
Citation: Y. Sayed et al., The hydrophobic lock-and-key intersubunit motif of glutathione transferaseA1-1: implications for catalysis, ligandin function and stability, FEBS LETTER, 465(2-3), 2000, pp. 169-172
Authors:
Hornby, JAT
Luo, JK
Stevens, JM
Wallace, LA
Kaplan, W
Armstrong, RN
Dirr, HW
Citation: Jat. Hornby et al., Equilibrium folding of dimeric class mu glutathione transferases involves a stable monomeric intermediate, BIOCHEM, 39(40), 2000, pp. 12336-12344
Citation: Hw. Dirr et La. Wallace, Role of the C-terminal helix 9 in the stability and ligandin function of class alpha glutathione transferase A1-1, BIOCHEM, 38(47), 1999, pp. 15631-15640
Citation: La. Wallace et al., A topologically conserved aliphatic residue in alpha-helix 6 stabilizes the hydrophobic core in domain II of glutathione transferases and is a structural determinant for the unfolding pathway, BIOCHEM J, 336, 1998, pp. 413-418