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R Wolfenden

Showing results (21-30 of 66) with videos related to

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Biochemistry|November 18, 1975
On the interaction of 3,4,5,6-tetrahydrouridine with human liver cytidine deaminaseD F Wentworth, R Wolfenden
Biochemistry|November 1, 1977
Antiproteolytic aldehydes and ketones: substituent and secondary deuterium isotope effects on equilibrium addition of water and other nucleophilesC A Lewis, R Wolfenden
Biochemistry|November 1, 1977
Thiohemiacetal formation by inhibitory aldehydes at the active site of papainC A Lewis, R Wolfenden
Accounts of Chemical Research|December 19, 2001
The depth of chemical time and the power of enzymes as catalystsR Wolfenden, M J Snider
The Journal of Biological Chemistry|June 15, 1988
Influences of solvent on group transfer potentials and biochemical recognition of carbohydrates. Anomalous solvation of the anomeric hydroxyl groupR Wolfenden, Y L Liang
Biochemistry|June 14, 1988
Influences of solvent water on protein folding: free energies of solvation of cis and trans peptides are nearly identicalA Radzicka, L Pedersen, R Wolfenden
Biochemistry|January 15, 1985
Use of secondary isotope effects and varying pH to investigate the mode of binding of inhibitory amino aldehydes by leucine aminopeptidaseL Andersson, J MacNeela, R Wolfenden
Biochemistry|August 17, 1982
alpha-aminoaldehydes: transition state analogue inhibitors of leucine aminopeptidaseL Andersson, T C Isley, R Wolfenden
Biochemistry|July 13, 1993
Lack of water transport by amino acid side chains or peptides entering a nonpolar environmentA Radzicka, G B Young, R Wolfenden
Biochemistry|February 7, 1989
Transition-state stabilization by adenosine deaminase: 1,6-addition of water to purine ribonucleoside, the enzyme's affinity for 6-hydroxy-1,6-dihydropurine ribonucleoside, and the effective concentration of substrate water at the active siteW Jones, L C Kurz, R Wolfenden
Pageof 7

Showing results (21-30 of 66) with videos related to

Sort By:
Pageof 7
Biochemistry|November 18, 1975
On the interaction of 3,4,5,6-tetrahydrouridine with human liver cytidine deaminaseD F Wentworth, R Wolfenden
Biochemistry|November 1, 1977
Antiproteolytic aldehydes and ketones: substituent and secondary deuterium isotope effects on equilibrium addition of water and other nucleophilesC A Lewis, R Wolfenden
Biochemistry|November 1, 1977
Thiohemiacetal formation by inhibitory aldehydes at the active site of papainC A Lewis, R Wolfenden
Accounts of Chemical Research|December 19, 2001
The depth of chemical time and the power of enzymes as catalystsR Wolfenden, M J Snider
The Journal of Biological Chemistry|June 15, 1988
Influences of solvent on group transfer potentials and biochemical recognition of carbohydrates. Anomalous solvation of the anomeric hydroxyl groupR Wolfenden, Y L Liang
Biochemistry|June 14, 1988
Influences of solvent water on protein folding: free energies of solvation of cis and trans peptides are nearly identicalA Radzicka, L Pedersen, R Wolfenden
Biochemistry|January 15, 1985
Use of secondary isotope effects and varying pH to investigate the mode of binding of inhibitory amino aldehydes by leucine aminopeptidaseL Andersson, J MacNeela, R Wolfenden
Biochemistry|August 17, 1982
alpha-aminoaldehydes: transition state analogue inhibitors of leucine aminopeptidaseL Andersson, T C Isley, R Wolfenden
Biochemistry|July 13, 1993
Lack of water transport by amino acid side chains or peptides entering a nonpolar environmentA Radzicka, G B Young, R Wolfenden
Biochemistry|February 7, 1989
Transition-state stabilization by adenosine deaminase: 1,6-addition of water to purine ribonucleoside, the enzyme's affinity for 6-hydroxy-1,6-dihydropurine ribonucleoside, and the effective concentration of substrate water at the active siteW Jones, L C Kurz, R Wolfenden
Pageof 7