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D B Goodin

Showing results (1-10 of 31) with videos related to

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The Journal of Biological Chemistry|March 18, 2000
Unusual oxidative chemistry of N(omega)-hydroxyarginine and N-hydroxyguanidine catalyzed at an engineered cavity in a heme peroxidaseJ Hirst, D B Goodin
Biochemistry|April 6, 1993
The Asp-His-Fe triad of cytochrome c peroxidase controls the reduction potential, electronic structure, and coupling of the tryptophan free radical to the hemeD B Goodin, D E McRee
The Journal of Biological Chemistry|September 25, 1993
Enhanced oxidation of aniline derivatives by two mutants of cytochrome c peroxidase at tryptophan 51J A Roe, D B Goodin
Theoretical Chemistry Accounts|March 19, 2013
Impact of Proximal and Distal Pocket Site-Directed Mutations on the Ferric/Ferrous Heme Redox Potential of Yeast Cytochrome-<i>c</i>-PeroxidaseG M Jensen, D B Goodin
Biochemistry|October 8, 1997
Introduction of novel substrate oxidation into cytochrome c peroxidase by cavity complementation: oxidation of 2-aminothiazole and covalent modification of the enzymeR A Musah, D B Goodin
Proceedings of the National Academy of Sciences of the United States of America|March 1, 1986
Studies of the radical species in compound ES of cytochrome c peroxidase altered by site-directed mutagenesisD B Goodin, A G Mauk, M Smith
DNA (Mary Ann Liebert, Inc.)|March 1, 1988
A simple and efficient procedure for generating random point mutations and for codon replacements using mixed oligodeoxynucleotidesS S Ner, D B Goodin, M Smith
The Journal of Biological Chemistry|June 5, 1987
The peroxide complex of yeast cytochrome c peroxidase contains two distinct radical species, neither of which resides at methionine 172 or tryptophan 51D B Goodin, A G Mauk, M Smith
Biochemistry|April 4, 1995
Identification of a porphyrin pi cation radical in ascorbate peroxidase compound IW R Patterson, T L Poulos, D B Goodin
Journal of Combinatorial Chemistry|July 13, 2000
Investigating resins for solid phase organic synthesis: the relationship between swelling and microenvironment as probed by EPR and fluorescence spectroscopyA R Vaino, D B Goodin, K D Janda
Pageof 4

Showing results (1-10 of 31) with videos related to

Sort By:
Pageof 4
The Journal of Biological Chemistry|March 18, 2000
Unusual oxidative chemistry of N(omega)-hydroxyarginine and N-hydroxyguanidine catalyzed at an engineered cavity in a heme peroxidaseJ Hirst, D B Goodin
Biochemistry|April 6, 1993
The Asp-His-Fe triad of cytochrome c peroxidase controls the reduction potential, electronic structure, and coupling of the tryptophan free radical to the hemeD B Goodin, D E McRee
The Journal of Biological Chemistry|September 25, 1993
Enhanced oxidation of aniline derivatives by two mutants of cytochrome c peroxidase at tryptophan 51J A Roe, D B Goodin
Theoretical Chemistry Accounts|March 19, 2013
Impact of Proximal and Distal Pocket Site-Directed Mutations on the Ferric/Ferrous Heme Redox Potential of Yeast Cytochrome-<i>c</i>-PeroxidaseG M Jensen, D B Goodin
Biochemistry|October 8, 1997
Introduction of novel substrate oxidation into cytochrome c peroxidase by cavity complementation: oxidation of 2-aminothiazole and covalent modification of the enzymeR A Musah, D B Goodin
Proceedings of the National Academy of Sciences of the United States of America|March 1, 1986
Studies of the radical species in compound ES of cytochrome c peroxidase altered by site-directed mutagenesisD B Goodin, A G Mauk, M Smith
DNA (Mary Ann Liebert, Inc.)|March 1, 1988
A simple and efficient procedure for generating random point mutations and for codon replacements using mixed oligodeoxynucleotidesS S Ner, D B Goodin, M Smith
The Journal of Biological Chemistry|June 5, 1987
The peroxide complex of yeast cytochrome c peroxidase contains two distinct radical species, neither of which resides at methionine 172 or tryptophan 51D B Goodin, A G Mauk, M Smith
Biochemistry|April 4, 1995
Identification of a porphyrin pi cation radical in ascorbate peroxidase compound IW R Patterson, T L Poulos, D B Goodin
Journal of Combinatorial Chemistry|July 13, 2000
Investigating resins for solid phase organic synthesis: the relationship between swelling and microenvironment as probed by EPR and fluorescence spectroscopyA R Vaino, D B Goodin, K D Janda
Pageof 4