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Results: 1-24 |
Results: 24
Evidence for an essential arginine in the flavoprotein nitroalkane oxidase
Authors: Gadda, G Banerjee, A Fleming, GS Fitzpatrick, PF
Citation: G. Gadda et al., Evidence for an essential arginine in the flavoprotein nitroalkane oxidase, J ENZ INHIB, 16(2), 2001, pp. 157-163
Probing the relative timing of hydrogen abstraction steps in the flavocytochrome b(2) reaction with primary and solvent deuterium isotope effects andmutant enzymes
Authors: Sobrado, P Daubner, SC Fitzpatrick, PF
Citation: P. Sobrado et al., Probing the relative timing of hydrogen abstraction steps in the flavocytochrome b(2) reaction with primary and solvent deuterium isotope effects andmutant enzymes, BIOCHEM, 40(4), 2001, pp. 994-1001
Effects of substitution at serine 40 of tyrosine hydroxylase on catecholamine binding
Authors: McCulloch, RI Daubner, SC Fitzpatrick, PF
Citation: Ri. Mcculloch et al., Effects of substitution at serine 40 of tyrosine hydroxylase on catecholamine binding, BIOCHEM, 40(24), 2001, pp. 7273-7278
Substrate dehydrogenation by flavoproteins
Authors: Fitzpatrick, PF
Citation: Pf. Fitzpatrick, Substrate dehydrogenation by flavoproteins, ACC CHEM RE, 34(4), 2001, pp. 299-307
Australian bat lyssavirus infection: a second human case, with a long incubation period
Authors: Hanna, JN Carney, IK Smith, GA Tannenberg, AEG Deverill, JE Botha, JA Serafin, IL Harrower, BJ Fitzpatrick, PF Searle, JW
Citation: Jn. Hanna et al., Australian bat lyssavirus infection: a second human case, with a long incubation period, MED J AUST, 172(12), 2000, pp. 597-599
Identification of a cysteine residue in the active site of nitroalkane oxidase by modification with N-ethylmaleimide
Authors: Gadda, G Banerjee, A Dangott, LJ Fitzpatrick, PF
Citation: G. Gadda et al., Identification of a cysteine residue in the active site of nitroalkane oxidase by modification with N-ethylmaleimide, J BIOL CHEM, 275(41), 2000, pp. 31891-31895
Iso-mechanism of nitroalkane oxidase: 1. Inhibition studies and activationby imidazole
Authors: Gadda, G Fitzpatrick, PF
Citation: G. Gadda et Pf. Fitzpatrick, Iso-mechanism of nitroalkane oxidase: 1. Inhibition studies and activationby imidazole, BIOCHEM, 39(6), 2000, pp. 1400-1405
Mechanism of nitroalkane oxidase: 2. pH and kinetic isotope effects
Authors: Gadda, G Fitzpatrick, PF
Citation: G. Gadda et Pf. Fitzpatrick, Mechanism of nitroalkane oxidase: 2. pH and kinetic isotope effects, BIOCHEM, 39(6), 2000, pp. 1406-1410
Identification of an essential tyrosine residue in nitroalkane oxidase by modification with tetranitromethane
Authors: Gadda, G Banerjee, A Fitzpatrick, PF
Citation: G. Gadda et al., Identification of an essential tyrosine residue in nitroalkane oxidase by modification with tetranitromethane, BIOCHEM, 39(5), 2000, pp. 1162-1168
Effects of phosphorylation on binding of catecholamines to tyrosine hydroxylase: Specificity and thermodynamics
Authors: Ramsey, AJ Fitzpatrick, PF
Citation: Aj. Ramsey et Pf. Fitzpatrick, Effects of phosphorylation on binding of catecholamines to tyrosine hydroxylase: Specificity and thermodynamics, BIOCHEM, 39(4), 2000, pp. 773-778
Reversing the substrate specificities of phenylalanine and tyrosine hydroxylase: Aspartate 425 of tyrosine hydroxylase is essential for L-DOPA formation
Authors: Daubner, SC Melendez, J Fitzpatrick, PF
Citation: Sc. Daubner et al., Reversing the substrate specificities of phenylalanine and tyrosine hydroxylase: Aspartate 425 of tyrosine hydroxylase is essential for L-DOPA formation, BIOCHEM, 39(32), 2000, pp. 9652-9661
Mutation of serine 395 of tyrosine hydroxylase decouples oxygen-oxygen bond cleavage and tyrosine hydroxylation
Authors: Ellis, HR Daubner, SC Fitzpatrick, PF
Citation: Hr. Ellis et al., Mutation of serine 395 of tyrosine hydroxylase decouples oxygen-oxygen bond cleavage and tyrosine hydroxylation, BIOCHEM, 39(14), 2000, pp. 4174-4181
Use of pH and kinetic isotope effects to dissect the effects of substrate size on binding and catalysis by nitroalkane oxidase
Authors: Gadda, G Choe, DY Fitzpatrick, PF
Citation: G. Gadda et al., Use of pH and kinetic isotope effects to dissect the effects of substrate size on binding and catalysis by nitroalkane oxidase, ARCH BIOCH, 382(1), 2000, pp. 138-144
Nitrogen isotope effects as probes of the mechanism of D-amino acid oxidase
Authors: Kurtz, KA Rishavy, MA Cleland, WW Fitzpatrick, PF
Citation: Ka. Kurtz et al., Nitrogen isotope effects as probes of the mechanism of D-amino acid oxidase, J AM CHEM S, 122(51), 2000, pp. 12896-12897
On the catalytic mechanism of tryptophan hydroxylase
Authors: Moran, GR Derecskei-Kovacs, A Hillas, PJ Fitzpatrick, PF
Citation: Gr. Moran et al., On the catalytic mechanism of tryptophan hydroxylase, J AM CHEM S, 122(19), 2000, pp. 4535-4541
Tetrahydropterin-dependent amino acid hydroxylases
Authors: Fitzpatrick, PF
Citation: Pf. Fitzpatrick, Tetrahydropterin-dependent amino acid hydroxylases, ANN R BIOCH, 68, 1999, pp. 355-381
Locally acquired Hansen's disease in North Queensland
Authors: Archibald, H Fitzpatrick, PF Ree, GH
Citation: H. Archibald et al., Locally acquired Hansen's disease in North Queensland, MED J AUST, 170(2), 1999, pp. 72-73
Influence of steric bulk and electrostatics on the hydroxylation regiospecificity of tryptophan hydroxylase: Characterization of methyltryptophans and azatryptophans as substrates
Authors: Moran, GR Phillips, RS Fitzpatrick, PF
Citation: Gr. Moran et al., Influence of steric bulk and electrostatics on the hydroxylation regiospecificity of tryptophan hydroxylase: Characterization of methyltryptophans and azatryptophans as substrates, BIOCHEM, 38(49), 1999, pp. 16283-16289
Phenylalanine residues in the active site of tyrosine hydroxylase: Mutagenesis of Phe300 and Phe309 to alanine and metal ion-catalyzed hydroxylation of Phe300
Authors: Ellis, HR Daubner, SC McCulloch, RI Fitzpatrick, PF
Citation: Hr. Ellis et al., Phenylalanine residues in the active site of tyrosine hydroxylase: Mutagenesis of Phe300 and Phe309 to alanine and metal ion-catalyzed hydroxylation of Phe300, BIOCHEM, 38(34), 1999, pp. 10909-10914
Characterization of 2-oxo-3-pentynoate as an active-site-directed inactivator of flavoprotein oxidases: Identification of active-site peptides in tryptophan 2-monooxygenase
Authors: Gadda, G Dangott, LJ Johnson, WH Whitman, CP Fitzpatrick, PF
Citation: G. Gadda et al., Characterization of 2-oxo-3-pentynoate as an active-site-directed inactivator of flavoprotein oxidases: Identification of active-site peptides in tryptophan 2-monooxygenase, BIOCHEM, 38(18), 1999, pp. 5822-5828
Site-directed mutants of charged residues in the active site of tyrosine hydroxylase
Authors: Daubner, SC Fitzpatrick, PF
Citation: Sc. Daubner et Pf. Fitzpatrick, Site-directed mutants of charged residues in the active site of tyrosine hydroxylase, BIOCHEM, 38(14), 1999, pp. 4448-4454
Limited proteolysis of tyrosine hydroxylase identifies residues 33-50 as conformationally sensitive to phosphorylation state and dopamine binding
Authors: McCulloch, RI Fitzpatrick, PF
Citation: Ri. Mcculloch et Pf. Fitzpatrick, Limited proteolysis of tyrosine hydroxylase identifies residues 33-50 as conformationally sensitive to phosphorylation state and dopamine binding, ARCH BIOCH, 367(1), 1999, pp. 143-145
Substrate specificity of a nitroalkane-oxidizing enzyme
Authors: Gadda, G Fitzpatrick, PF
Citation: G. Gadda et Pf. Fitzpatrick, Substrate specificity of a nitroalkane-oxidizing enzyme, ARCH BIOCH, 363(2), 1999, pp. 309-313
A continuous fluorescence assay for tryptophan hydroxylase
Authors: Moran, GR Fitzpatrick, PF
Citation: Gr. Moran et Pf. Fitzpatrick, A continuous fluorescence assay for tryptophan hydroxylase, ANALYT BIOC, 266(1), 1999, pp. 148-152
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