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M F Browner

Showing results (1-10 of 24) with videos related to

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Nucleic Acids Research|December 9, 1985
Comparative sequence analysis as a tool for studying the secondary structure of mRNAsM F Browner, C B Lawrence
Analytical Biochemistry|January 1, 1988
Chemical modification as a tool for analysis of messenger RNA secondary structure in ribonucleoprotein particlesM F Browner, C B Lawrence
Trends in Biochemical Sciences|February 1, 1992
Phosphorylase: a biological transducerM F Browner, R J Fletterick
Nature Structural Biology|May 1, 1994
Identification of the molecular trigger for allosteric activation in glycogen phosphorylaseM F Browner, D Hackos, R Fletterick
Advances in Experimental Medicine and Biology|January 1, 1997
A model of arachidonic acid binding for 15-lipoxygenaseQ F Gan, E Sigal, M F Browner
Biochemistry|November 24, 1992
Tracking conformational states in allosteric transitions of phosphorylaseM F Browner, E B Fauman, R J Fletterick
Biochemistry|May 23, 1995
Matrilysin-inhibitor complexes: common themes among metalloproteasesM F Browner, W W Smith, A L Castelhano
Biochemistry|November 24, 1992
Cooperative binding is not required for activation of muscle phosphorylaseM F Browner, P K Hwang, R J Fletterick
Protein Engineering|February 1, 1991
Temperature-sensitive production of rabbit muscle glycogen phosphorylase in Escherichia coliM F Browner, P Rasor, S Tugendreich, et al.
The Journal of Biological Chemistry|July 25, 1989
Sequence analysis, biogenesis, and mitochondrial import of the alpha-subunit of rat liver propionyl-CoA carboxylaseM F Browner, F Taroni, E Sztul, et al.
Pageof 3

Showing results (1-10 of 24) with videos related to

Sort By:
Pageof 3
Nucleic Acids Research|December 9, 1985
Comparative sequence analysis as a tool for studying the secondary structure of mRNAsM F Browner, C B Lawrence
Analytical Biochemistry|January 1, 1988
Chemical modification as a tool for analysis of messenger RNA secondary structure in ribonucleoprotein particlesM F Browner, C B Lawrence
Trends in Biochemical Sciences|February 1, 1992
Phosphorylase: a biological transducerM F Browner, R J Fletterick
Nature Structural Biology|May 1, 1994
Identification of the molecular trigger for allosteric activation in glycogen phosphorylaseM F Browner, D Hackos, R Fletterick
Advances in Experimental Medicine and Biology|January 1, 1997
A model of arachidonic acid binding for 15-lipoxygenaseQ F Gan, E Sigal, M F Browner
Biochemistry|November 24, 1992
Tracking conformational states in allosteric transitions of phosphorylaseM F Browner, E B Fauman, R J Fletterick
Biochemistry|May 23, 1995
Matrilysin-inhibitor complexes: common themes among metalloproteasesM F Browner, W W Smith, A L Castelhano
Biochemistry|November 24, 1992
Cooperative binding is not required for activation of muscle phosphorylaseM F Browner, P K Hwang, R J Fletterick
Protein Engineering|February 1, 1991
Temperature-sensitive production of rabbit muscle glycogen phosphorylase in Escherichia coliM F Browner, P Rasor, S Tugendreich, et al.
The Journal of Biological Chemistry|July 25, 1989
Sequence analysis, biogenesis, and mitochondrial import of the alpha-subunit of rat liver propionyl-CoA carboxylaseM F Browner, F Taroni, E Sztul, et al.
Pageof 3