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R E Huber

Showing results (41-50 of 71) with videos related to

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Biochemical and Biophysical Research Communications|May 16, 1988
Site-directed mutagenesis of beta-galactosidase (E. coli) reveals that tyr-503 is essential for activityM Ring, D E Bader, R E Huber
Biochemistry|July 17, 1998
His-357 of beta-galactosidase (Escherichia coli) interacts with the C3 hydroxyl in the transition state and helps to mediate catalysisN J Roth, B Rob, R E Huber
Biochemical and Biophysical Research Communications|September 16, 1985
m-Fluorotyrosine substitution in beta-galactosidase; evidence for the existence of a catalytically active tyrosineM Ring, I M Armitage, R E Huber
The Biochemical Journal|April 15, 1994
Substitutions for Glu-537 of beta-galactosidase from Escherichia coli cause large decreases in catalytic activityJ Yuan, M Martinez-Bilbao, R E Huber
Journal of Protein Chemistry|October 1, 1996
Quaternary structure, Mg2+ interactions, and some kinetic properties of the beta-galactosidase from Thermoanaerobacterium thermosulfurigenes EM1R E Huber, N J Roth, H Bahl
Journal of Bacteriology|February 1, 1980
Efflux of beta-galactosidase products from Escherichia coliR E Huber, J Lytton, E B Fung
Biochemistry|September 28, 1982
Inactivation of beta-Galactosidase by iodination of tyrosine-253R E Huber, A V Fowler, I Zabin
Canadian Journal of Biochemistry|February 1, 1981
The anomeric specificity of beta-galactosidase and lac permease from Escherichia coliR E Huber, K L Hurlburt, C L Turner
Bioorganic Chemistry|July 5, 2001
Effect of an E461G mutation of beta-galactosidase (Escherichia coli, lac Z) on pL rate profiles and solvent deuterium isotope effectsJ P Richard, R E Huber, D A McCall
Archives of Biochemistry and Biophysics|October 1, 1984
Binding and reactivity at the "glucose" site of galactosyl-beta-galactosidase (Escherichia coli)R E Huber, M T Gaunt, K L Hurlburt
Pageof 8

Showing results (41-50 of 71) with videos related to

Sort By:
Pageof 8
Biochemical and Biophysical Research Communications|May 16, 1988
Site-directed mutagenesis of beta-galactosidase (E. coli) reveals that tyr-503 is essential for activityM Ring, D E Bader, R E Huber
Biochemistry|July 17, 1998
His-357 of beta-galactosidase (Escherichia coli) interacts with the C3 hydroxyl in the transition state and helps to mediate catalysisN J Roth, B Rob, R E Huber
Biochemical and Biophysical Research Communications|September 16, 1985
m-Fluorotyrosine substitution in beta-galactosidase; evidence for the existence of a catalytically active tyrosineM Ring, I M Armitage, R E Huber
The Biochemical Journal|April 15, 1994
Substitutions for Glu-537 of beta-galactosidase from Escherichia coli cause large decreases in catalytic activityJ Yuan, M Martinez-Bilbao, R E Huber
Journal of Protein Chemistry|October 1, 1996
Quaternary structure, Mg2+ interactions, and some kinetic properties of the beta-galactosidase from Thermoanaerobacterium thermosulfurigenes EM1R E Huber, N J Roth, H Bahl
Journal of Bacteriology|February 1, 1980
Efflux of beta-galactosidase products from Escherichia coliR E Huber, J Lytton, E B Fung
Biochemistry|September 28, 1982
Inactivation of beta-Galactosidase by iodination of tyrosine-253R E Huber, A V Fowler, I Zabin
Canadian Journal of Biochemistry|February 1, 1981
The anomeric specificity of beta-galactosidase and lac permease from Escherichia coliR E Huber, K L Hurlburt, C L Turner
Bioorganic Chemistry|July 5, 2001
Effect of an E461G mutation of beta-galactosidase (Escherichia coli, lac Z) on pL rate profiles and solvent deuterium isotope effectsJ P Richard, R E Huber, D A McCall
Archives of Biochemistry and Biophysics|October 1, 1984
Binding and reactivity at the "glucose" site of galactosyl-beta-galactosidase (Escherichia coli)R E Huber, M T Gaunt, K L Hurlburt
Pageof 8