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A L Fink

Showing results (81-90 of 132) with videos related to

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The Journal of Biological Chemistry|January 13, 1995
A new TEM beta-lactamase double mutant with broadened specificity reveals substrate-dependent functional interactionsH Viadiu, J Osuna, A L Fink, et al.
The Biochemical Journal|November 1, 1989
Trapping the acyl-enzyme intermediate in beta-lactamase I catalysisS J Cartwright, A K Tan, A L Fink
Methods in Enzymology|January 1, 1982
Preparation and properties of covalent compounds and intermediates of serine proteasesR J Coll, P D Compton, A L Fink
Biochemistry|November 5, 1991
Site-directed mutagenesis of beta-lactamase leading to accumulation of a catalytic intermediateW A Escobar, A K Tan, A L Fink
The Journal of Biological Chemistry|January 25, 1986
Effects of methanol cryosolvents on the structural and catalytic properties of bovine trypsinP D Compton, R J Coll, A L Fink
Biochemistry|September 30, 1998
Conformational changes of an Hsp70 molecular chaperone induced by nucleotides, polypeptides, and N-ethylmaleimideW J Chirico, M L Markey, A L Fink
The Journal of Biological Chemistry|January 13, 1995
Substitution of Asp for Asn at position 132 in the active site of TEM beta-lactamase. Activity toward different substrates and effects of neighboring residuesJ Osuna, H Viadiu, A L Fink, et al.
Proceedings of the National Academy of Sciences of the United States of America|January 21, 1997
A point mutation leads to altered product specificity in beta-lactamase catalysisE R Lewis, K M Winterberg, A L Fink
Journal of Molecular Biology|May 20, 1993
Guanidine hydrochloride-induced folding of proteinsY Hagihara, S Aimoto, A L Fink, et al.
Journal of Molecular Biology|June 14, 2000
Fluorescence energy transfer indicates similar transient and equilibrium intermediates in staphylococcal nuclease foldingC Nishimura, R Riley, P Eastman, et al.
Pageof 14

Showing results (81-90 of 132) with videos related to

Sort By:
Pageof 14
The Journal of Biological Chemistry|January 13, 1995
A new TEM beta-lactamase double mutant with broadened specificity reveals substrate-dependent functional interactionsH Viadiu, J Osuna, A L Fink, et al.
The Biochemical Journal|November 1, 1989
Trapping the acyl-enzyme intermediate in beta-lactamase I catalysisS J Cartwright, A K Tan, A L Fink
Methods in Enzymology|January 1, 1982
Preparation and properties of covalent compounds and intermediates of serine proteasesR J Coll, P D Compton, A L Fink
Biochemistry|November 5, 1991
Site-directed mutagenesis of beta-lactamase leading to accumulation of a catalytic intermediateW A Escobar, A K Tan, A L Fink
The Journal of Biological Chemistry|January 25, 1986
Effects of methanol cryosolvents on the structural and catalytic properties of bovine trypsinP D Compton, R J Coll, A L Fink
Biochemistry|September 30, 1998
Conformational changes of an Hsp70 molecular chaperone induced by nucleotides, polypeptides, and N-ethylmaleimideW J Chirico, M L Markey, A L Fink
The Journal of Biological Chemistry|January 13, 1995
Substitution of Asp for Asn at position 132 in the active site of TEM beta-lactamase. Activity toward different substrates and effects of neighboring residuesJ Osuna, H Viadiu, A L Fink, et al.
Proceedings of the National Academy of Sciences of the United States of America|January 21, 1997
A point mutation leads to altered product specificity in beta-lactamase catalysisE R Lewis, K M Winterberg, A L Fink
Journal of Molecular Biology|May 20, 1993
Guanidine hydrochloride-induced folding of proteinsY Hagihara, S Aimoto, A L Fink, et al.
Journal of Molecular Biology|June 14, 2000
Fluorescence energy transfer indicates similar transient and equilibrium intermediates in staphylococcal nuclease foldingC Nishimura, R Riley, P Eastman, et al.
Pageof 14