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R G Matthews

Showing results (11-20 of 107) with videos related to

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Biochimica Et Biophysica Acta|November 25, 1974
Identification of the thiol residues involved in modifications of pig heart lipoamide dehydrogenase by cupric ion and by iodoacetamideR G Matthews, C H Williams
Advances in Experimental Medicine and Biology|January 1, 1993
Cobalamin-dependent and cobalamin-independent methionine synthases in Escherichia coli: two solutions to the same chemical problemJ T Drummond, R G Matthews
The Journal of Biological Chemistry|July 21, 1995
4-Chlorothreonine is substrate, mechanistic probe, and mechanism-based inactivator of serine hydroxymethyltransferaseH K Webb, R G Matthews
Biochemistry|November 15, 2000
Protonation state of methyltetrahydrofolate in a binary complex with cobalamin-dependent methionine synthaseA E Smith, R G Matthews
Journal of Bacteriology|May 1, 1989
Elevated serine catabolism is associated with the heat shock response in Escherichia coliR G Matthews, F C Neidhardt
Current Opinion in Chemical Biology|July 17, 1998
Enzyme-catalyzed methyl transfers to thiols: the role of zincR G Matthews, C W Goulding
Biochemistry|May 13, 1980
Interactions of pig liver methylenetetrahydrofolate reductase with methylenetetrahydropteroylpolyglutamate substrates and with dihydropteroylpolyglutamate inhibitorsR G Matthews, C M Baugh
Advances in Enzyme Regulation|January 1, 1982
Modulation of methylenetetrahydrofolate reductase activity by S-adenosylmethionine and by dihydrofolate and its polyglutamate analoguesR G Matthews, S C Daubner
Biochemistry|January 31, 1998
Cobalamin-dependent methionine synthase from Escherichia coli: involvement of zinc in homocysteine activationC W Goulding, R G Matthews
Journal of Bacteriology|December 1, 1990
Role of purine biosynthetic intermediates in response to folate stress in Escherichia coliC E Rohlman, R G Matthews
Pageof 11

Showing results (11-20 of 107) with videos related to

Sort By:
Pageof 11
Biochimica Et Biophysica Acta|November 25, 1974
Identification of the thiol residues involved in modifications of pig heart lipoamide dehydrogenase by cupric ion and by iodoacetamideR G Matthews, C H Williams
Advances in Experimental Medicine and Biology|January 1, 1993
Cobalamin-dependent and cobalamin-independent methionine synthases in Escherichia coli: two solutions to the same chemical problemJ T Drummond, R G Matthews
The Journal of Biological Chemistry|July 21, 1995
4-Chlorothreonine is substrate, mechanistic probe, and mechanism-based inactivator of serine hydroxymethyltransferaseH K Webb, R G Matthews
Biochemistry|November 15, 2000
Protonation state of methyltetrahydrofolate in a binary complex with cobalamin-dependent methionine synthaseA E Smith, R G Matthews
Journal of Bacteriology|May 1, 1989
Elevated serine catabolism is associated with the heat shock response in Escherichia coliR G Matthews, F C Neidhardt
Current Opinion in Chemical Biology|July 17, 1998
Enzyme-catalyzed methyl transfers to thiols: the role of zincR G Matthews, C W Goulding
Biochemistry|May 13, 1980
Interactions of pig liver methylenetetrahydrofolate reductase with methylenetetrahydropteroylpolyglutamate substrates and with dihydropteroylpolyglutamate inhibitorsR G Matthews, C M Baugh
Advances in Enzyme Regulation|January 1, 1982
Modulation of methylenetetrahydrofolate reductase activity by S-adenosylmethionine and by dihydrofolate and its polyglutamate analoguesR G Matthews, S C Daubner
Biochemistry|January 31, 1998
Cobalamin-dependent methionine synthase from Escherichia coli: involvement of zinc in homocysteine activationC W Goulding, R G Matthews
Journal of Bacteriology|December 1, 1990
Role of purine biosynthetic intermediates in response to folate stress in Escherichia coliC E Rohlman, R G Matthews
Pageof 11