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Biochemistry
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June 6, 1972
Models for metalloenzymes. Zinc ion catalyzed phosphorylation of 1,10-phenanthroline-2-carbinol by adenosine triphosphate
D S Sigman, G M Wahl, D J Creighton
Journal of the American Chemical Society
|
October 3, 1973
Model dehydrogenase reactions. Reduction of N-methylacridinium ion by reduced nicotinamide adenine dinucleotide and its derivatives
D J Creighton, J Hajdu, G Mooser, et al.
Biochemistry
|
November 29, 1988
Diffusion-dependent rates for the hydrolysis reaction catalyzed by glyoxalase II from rat erythrocytes
M K Guha, D L Vander Jagt, D J Creighton
The Journal of Biological Chemistry
|
June 2, 1995
Evidence for a (triosephosphate isomerase-like) "catalytic loop" near the active site of glyoxalase I
Y Lan, T Lu, P S Lovett, et al.
Biochemistry
|
September 20, 1988
Optimization of efficiency in the glyoxalase pathway
D J Creighton, M Migliorini, T Pourmotabbed, et al.
Biochemistry
|
June 7, 1983
Nonstereospecific substrate usage by glyoxalase I
C E Griffis, L H Ong, L Buettner, et al.
Organic Letters
|
September 29, 2000
Reaction of COTC with glutathione: structure of the putative glyoxalase I inhibitor
C F Huntley, D S Hamilton, D J Creighton, et al.
Gene
|
December 2, 1994
The gene encoding glyoxalase I from Pseudomonas putida: cloning, overexpression, and sequence comparisons with human glyoxalase I
T Lu, D J Creighton, M Antoine, et al.
Biochemistry
|
July 22, 1998
Active monomeric and dimeric forms of Pseudomonas putida glyoxalase I: evidence for 3D domain swapping
A P Saint-Jean, K R Phillips, D J Creighton, et al.
Biochemical Society Transactions
|
December 4, 2003
Glyoxalase I inhibitors in cancer chemotherapy
D J Creighton, Z-B Zheng, R Holewinski, et al.
Page
of 4
Search research articles
Search
Showing results (21-30 of 38) with videos related to
Sort By:
Page
of 4
Biochemistry
|
June 6, 1972
Models for metalloenzymes. Zinc ion catalyzed phosphorylation of 1,10-phenanthroline-2-carbinol by adenosine triphosphate
D S Sigman, G M Wahl, D J Creighton
Journal of the American Chemical Society
|
October 3, 1973
Model dehydrogenase reactions. Reduction of N-methylacridinium ion by reduced nicotinamide adenine dinucleotide and its derivatives
D J Creighton, J Hajdu, G Mooser, et al.
Biochemistry
|
November 29, 1988
Diffusion-dependent rates for the hydrolysis reaction catalyzed by glyoxalase II from rat erythrocytes
M K Guha, D L Vander Jagt, D J Creighton
The Journal of Biological Chemistry
|
June 2, 1995
Evidence for a (triosephosphate isomerase-like) "catalytic loop" near the active site of glyoxalase I
Y Lan, T Lu, P S Lovett, et al.
Biochemistry
|
September 20, 1988
Optimization of efficiency in the glyoxalase pathway
D J Creighton, M Migliorini, T Pourmotabbed, et al.
Biochemistry
|
June 7, 1983
Nonstereospecific substrate usage by glyoxalase I
C E Griffis, L H Ong, L Buettner, et al.
Organic Letters
|
September 29, 2000
Reaction of COTC with glutathione: structure of the putative glyoxalase I inhibitor
C F Huntley, D S Hamilton, D J Creighton, et al.
Gene
|
December 2, 1994
The gene encoding glyoxalase I from Pseudomonas putida: cloning, overexpression, and sequence comparisons with human glyoxalase I
T Lu, D J Creighton, M Antoine, et al.
Biochemistry
|
July 22, 1998
Active monomeric and dimeric forms of Pseudomonas putida glyoxalase I: evidence for 3D domain swapping
A P Saint-Jean, K R Phillips, D J Creighton, et al.
Biochemical Society Transactions
|
December 4, 2003
Glyoxalase I inhibitors in cancer chemotherapy
D J Creighton, Z-B Zheng, R Holewinski, et al.
Page
of 4