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G H Reed

Showing results (71-80 of 108) with videos related to

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Biochemistry|August 22, 1995
Observation of a second substrate radical intermediate in the reaction of lysine 2,3-aminomutase: a radical centered on the beta-carbon of the alternative substrate, 4-thia-L-lysineW Wu, K W Lieder, G H Reed, et al.
Biochemistry|August 9, 1994
Chelation of serine 39 to Mg2+ latches a gate at the active site of enolase: structure of the bis(Mg2+) complex of yeast enolase and the intermediate analog phosphonoacetohydroxamate at 2.1-A resolutionJ E Wedekind, R R Poyner, G H Reed, et al.
Biochemistry|December 28, 1993
Stereochemistry of metal ion coordination to the terminal thiophosphoryl group of adenosine 5'-O-(3-thiotriphosphate) at the active site of pyruvate kinaseJ L Buchbinder, J Baraniak, P A Frey, et al.
Biochemistry|August 27, 1996
Lysine 2,3-aminomutase: rapid mix-freeze-quench electron paramagnetic resonance studies establishing the kinetic competence of a substrate-based radical intermediateC H Chang, M D Ballinger, G H Reed, et al.
The Journal of Biological Chemistry|November 10, 1981
EPR studies of the Mn(II) complex with elongation factor Tu and GDP Identification of oxygen ligands to Mn(II) by observation of 17O superhyperfine couplingJ F Eccleston, M R Webb, D E Ash, et al.
The Journal of Biological Chemistry|April 25, 1991
Metal cofactors of lysine-2,3-aminomutaseR M Petrovich, F J Ruzicka, G H Reed, et al.
Biochemistry|November 10, 1992
Characterization of iron-sulfur clusters in lysine 2,3-aminomutase by electron paramagnetic resonance spectroscopyR M Petrovich, F J Ruzicka, G H Reed, et al.
Biochemistry|June 1, 1976
Phospholipase A2 complexes with gadolinium (III) and interaction of the enzyme-metal ion complex with monomeric and micellar alkylphosphorylcholines. Water proton nuclear magnetic relaxation studiesR D Hershberg, G H Reed, A J Slotboom, et al.
Biochemistry|February 6, 1996
Toward identification of acid/base catalysts in the active site of enolase: comparison of the properties of K345A, E168Q, and E211Q variantsR R Poyner, L T Laughlin, G A Sowa, et al.
The Journal of Biological Chemistry|March 10, 1984
The stereochemical course of phospho transfer catalyzed by adenylosuccinate synthetase. A reaction pathway via a phosphorylated intermediate with net inversionM R Webb, G H Reed, B F Cooper, et al.
Pageof 11

Showing results (71-80 of 108) with videos related to

Sort By:
Pageof 11
Biochemistry|August 22, 1995
Observation of a second substrate radical intermediate in the reaction of lysine 2,3-aminomutase: a radical centered on the beta-carbon of the alternative substrate, 4-thia-L-lysineW Wu, K W Lieder, G H Reed, et al.
Biochemistry|August 9, 1994
Chelation of serine 39 to Mg2+ latches a gate at the active site of enolase: structure of the bis(Mg2+) complex of yeast enolase and the intermediate analog phosphonoacetohydroxamate at 2.1-A resolutionJ E Wedekind, R R Poyner, G H Reed, et al.
Biochemistry|December 28, 1993
Stereochemistry of metal ion coordination to the terminal thiophosphoryl group of adenosine 5'-O-(3-thiotriphosphate) at the active site of pyruvate kinaseJ L Buchbinder, J Baraniak, P A Frey, et al.
Biochemistry|August 27, 1996
Lysine 2,3-aminomutase: rapid mix-freeze-quench electron paramagnetic resonance studies establishing the kinetic competence of a substrate-based radical intermediateC H Chang, M D Ballinger, G H Reed, et al.
The Journal of Biological Chemistry|November 10, 1981
EPR studies of the Mn(II) complex with elongation factor Tu and GDP Identification of oxygen ligands to Mn(II) by observation of 17O superhyperfine couplingJ F Eccleston, M R Webb, D E Ash, et al.
The Journal of Biological Chemistry|April 25, 1991
Metal cofactors of lysine-2,3-aminomutaseR M Petrovich, F J Ruzicka, G H Reed, et al.
Biochemistry|November 10, 1992
Characterization of iron-sulfur clusters in lysine 2,3-aminomutase by electron paramagnetic resonance spectroscopyR M Petrovich, F J Ruzicka, G H Reed, et al.
Biochemistry|June 1, 1976
Phospholipase A2 complexes with gadolinium (III) and interaction of the enzyme-metal ion complex with monomeric and micellar alkylphosphorylcholines. Water proton nuclear magnetic relaxation studiesR D Hershberg, G H Reed, A J Slotboom, et al.
Biochemistry|February 6, 1996
Toward identification of acid/base catalysts in the active site of enolase: comparison of the properties of K345A, E168Q, and E211Q variantsR R Poyner, L T Laughlin, G A Sowa, et al.
The Journal of Biological Chemistry|March 10, 1984
The stereochemical course of phospho transfer catalyzed by adenylosuccinate synthetase. A reaction pathway via a phosphorylated intermediate with net inversionM R Webb, G H Reed, B F Cooper, et al.
Pageof 11