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Archives of Biochemistry and Biophysics
Volumn 433, Issue 1, 2005, Pages 279-287
Reaction specificity in pyridoxal phosphate enzymes
Author keywords

Alanine racemase; Dialkylglycine decarboxylase; Pyridoxal phosphate; Reaction specificity
Indexed keywords

ALANINE RACEMASE; DIALKYLGLYCINE DECARBOXYLASE; PYRIDOXAL 5 PHOSPHATE; UNCLASSIFIED DRUG;
EID: 9744235147     PISSN: 00039861     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.abb.2004.09.037     Document Type: Short Survey
Times cited : (242)
References (36)
  • 2
    • 0031695599 scopus 로고    scopus 로고
    • S-Adenosylmethionine: A 'poor man's coenzyme B12' in the reaction of lysine 2,3-aminomutase
    • P.A. Frey, M.D. Ballinger, and G.H. Reed S-Adenosylmethionine: a 'poor man's coenzyme B12' in the reaction of lysine 2,3-aminomutase Biochem. Soc. Trans. 26 1998 304 310
    • (1998) Biochem. Soc. Trans. , vol.26 , pp. 304-310
    • Frey, P.A.1    Ballinger, M.D.2    Reed, G.H.3
  • 3
    • 0036405303 scopus 로고    scopus 로고
    • Kinetic characterization of transient free radical intermediates in reaction of lysine 2,3-aminomutase by EPR lineshape analysis
    • P.A. Frey, C.H. Chang, M.D. Ballinger, and G.H. Reed Kinetic characterization of transient free radical intermediates in reaction of lysine 2,3-aminomutase by EPR lineshape analysis Methods Enzymol. 354 2002 426 435
    • (2002) Methods Enzymol. , vol.354 , pp. 426-435
    • Frey, P.A.1    Chang, C.H.2    Ballinger, M.D.3    Reed, G.H.4
  • 4
    • 0142186241 scopus 로고    scopus 로고
    • A genomic overview of pyridoxal-phosphate-dependent enzymes
    • R. Percudani, and A. Peracchi A genomic overview of pyridoxal-phosphate- dependent enzymes EMBO Rep. 4 2003 850 854
    • (2003) EMBO Rep. , vol.4 , pp. 850-854
    • Percudani, R.1    Peracchi, A.2
  • 5
    • 0035814735 scopus 로고    scopus 로고
    • Computational studies on nonenzymatic and enzymatic pyridoxal phosphate catalyzed decarboxylations of 2-aminoisobutyrate
    • M.D. Toney Computational studies on nonenzymatic and enzymatic pyridoxal phosphate catalyzed decarboxylations of 2-aminoisobutyrate Biochemistry 40 2001 1378 1384
    • (2001) Biochemistry , vol.40 , pp. 1378-1384
    • Toney, M.D.1
  • 6
    • 0033591876 scopus 로고    scopus 로고
    • Influence of electrostatic effects on activation barriers in enzymatic reactions: Pyridoxal 5′-phosphate-dependent decarboxylation of alpha-amino acids
    • R.D. Bach, C. Canepa, and M.N. Glukhovtsev Influence of electrostatic effects on activation barriers in enzymatic reactions: Pyridoxal 5′-phosphate-dependent decarboxylation of alpha-amino acids J. Am. Chem. Soc. V121 1999 6542 6555
    • (1999) J. Am. Chem. Soc. , vol.121 , pp. 6542-6555
    • Bach, R.D.1    Canepa, C.2    Glukhovtsev, M.N.3
  • 7
    • 0028914569 scopus 로고
    • Pyridoxal phosphate-dependent enzymes
    • R.A. John Pyridoxal phosphate-dependent enzymes Biochim. Biophys. Acta 1248 1995 81 96
    • (1995) Biochim. Biophys. Acta , vol.1248 , pp. 81-96
    • John, R.A.1
  • 8
    • 3943113663 scopus 로고    scopus 로고
    • Pyridoxal phosphate enzymes: Mechanistic, structural, and evolutionary considerations
    • A.C. Eliot, and J.F. Kirsch Pyridoxal phosphate enzymes: mechanistic, structural, and evolutionary considerations Annu. Rev. Biochem. 73 2004 383 415
    • (2004) Annu. Rev. Biochem. , vol.73 , pp. 383-415
    • Eliot, A.C.1    Kirsch, J.F.2
  • 10
    • 0015440313 scopus 로고
    • Aldolase: A model for enzyme structure-function relationships
    • C.Y. Lai, and B.L. Horecker Aldolase: a model for enzyme structure-function relationships Essays Biochem. 8 1972 149 178
    • (1972) Essays Biochem. , vol.8 , pp. 149-178
    • Lai, C.Y.1    Horecker, B.L.2
  • 12
    • 0035900982 scopus 로고    scopus 로고
    • Metal ion inhibition of nonenzymatic pyridoxal phosphate catalyzed decarboxylation and transamination
    • R.F. Zabinski, and M.D. Toney Metal ion inhibition of nonenzymatic pyridoxal phosphate catalyzed decarboxylation and transamination J. Am. Chem. Soc. V123 2001 193 198
    • (2001) J. Am. Chem. Soc. , vol.123 , pp. 193-198
    • Zabinski, R.F.1    Toney, M.D.2
  • 13
    • 0015808679 scopus 로고
    • Comparison of the rate constants for general base catalyzed prototropy and racemization of the aldimine species formed from 3-hydroxypyridine-4- carboxaldehyde and alanine
    • J.E. Dixon, and T.C. Bruice Comparison of the rate constants for general base catalyzed prototropy and racemization of the aldimine species formed from 3-hydroxypyridine-4-carboxaldehyde and alanine Biochemistry 12 1973 4762 4766
    • (1973) Biochemistry , vol.12 , pp. 4762-4766
    • Dixon, J.E.1    Bruice, T.C.2
  • 14
    • 0034605454 scopus 로고    scopus 로고
    • Formation and stability of organic zwitterions in aqueous solution: Enolates of the amino acid glycine and its derivatives
    • A. Rios, T.L. Amyes, and J.P. Richard Formation and stability of organic zwitterions in aqueous solution: enolates of the amino acid glycine and its derivatives J. Am. Chem. Soc. 122 2000 9373 9385
    • (2000) J. Am. Chem. Soc. , vol.122 , pp. 9373-9385
    • Rios, A.1    Amyes, T.L.2    Richard, J.P.3
  • 15
    • 0023508496 scopus 로고
    • Quantitative description of absorption spectra of a pyridoxal phosphate-dependent enzyme using lognormal distribution curves
    • C.M. Metzler, and D.E. Metzler Quantitative description of absorption spectra of a pyridoxal phosphate-dependent enzyme using lognormal distribution curves Anal. Biochem. 166 1987 313 327
    • (1987) Anal. Biochem. , vol.166 , pp. 313-327
    • Metzler, C.M.1    Metzler, D.E.2
  • 17
    • 0033524396 scopus 로고    scopus 로고
    • PH studies on the mechanism of the pyridoxal phosphate-dependent dialkylglycine decarboxylase
    • X. Zhou, and M.D. Toney pH studies on the mechanism of the pyridoxal phosphate-dependent dialkylglycine decarboxylase Biochemistry 38 1999 311 320
    • (1999) Biochemistry , vol.38 , pp. 311-320
    • Zhou, X.1    Toney, M.D.2
  • 18
    • 0013902457 scopus 로고
    • Conformation and reaction specificity in pyridoxal phosphate enzymes
    • H.C. Dunathan Conformation and reaction specificity in pyridoxal phosphate enzymes Proc. Natl. Acad. Sci. USA 55 1966 712 716
    • (1966) Proc. Natl. Acad. Sci. USA , vol.55 , pp. 712-716
    • Dunathan, H.C.1
  • 19
    • 0027182377 scopus 로고
    • Dialkylglycine decarboxylase structure: Bifunctional active site and alkali metal sites
    • M.D. Toney, E. Hohenester, S.W. Cowan, and J.N. Jansonius Dialkylglycine decarboxylase structure: bifunctional active site and alkali metal sites Science 261 1993 756 759
    • (1993) Science , vol.261 , pp. 756-759
    • Toney, M.D.1    Hohenester, E.2    Cowan, S.W.3    Jansonius, J.N.4
  • 20
    • 0028885266 scopus 로고
    • Structural and mechanistic analysis of two refined crystal structures of the pyridoxal phosphate-dependent enzyme dialkylglycine decarboxylase
    • M.D. Toney, E. Hohenester, J.W. Keller, and J.N. Jansonius Structural and mechanistic analysis of two refined crystal structures of the pyridoxal phosphate-dependent enzyme dialkylglycine decarboxylase J. Mol. Biol. 245 1995 151 179
    • (1995) J. Mol. Biol. , vol.245 , pp. 151-179
    • Toney, M.D.1    Hohenester, E.2    Keller, J.W.3    Jansonius, J.N.4
  • 21
    • 0032539994 scopus 로고    scopus 로고
    • Reactions of alternate substrates demonstrate stereoelectronic control of reactivity in dialkylglycine decarboxylase
    • S. Sun, R.F. Zabinski, and M.D. Toney Reactions of alternate substrates demonstrate stereoelectronic control of reactivity in dialkylglycine decarboxylase Biochemistry 37 1998 3865 3875
    • (1998) Biochemistry , vol.37 , pp. 3865-3875
    • Sun, S.1    Zabinski, R.F.2    Toney, M.D.3
  • 22
  • 24
    • 0027405984 scopus 로고
    • Lysine 258 in aspartate aminotransferase: Enforcer of the Circe effect for amino acid substrates and general-base catalyst for the 1,3-prototropic shift
    • M.D. Toney, and J.F. Kirsch Lysine 258 in aspartate aminotransferase: enforcer of the Circe effect for amino acid substrates and general-base catalyst for the 1,3-prototropic shift Biochemistry 32 1993 1471 1479
    • (1993) Biochemistry , vol.32 , pp. 1471-1479
    • Toney, M.D.1    Kirsch, J.F.2
  • 25
    • 0033574155 scopus 로고    scopus 로고
    • Structure of a Michaelis complex analogue: Propionate binds in the substrate carboxylate site of alanine racemase
    • A.A. Morollo, G.A. Petsko, and D. Ringe Structure of a Michaelis complex analogue: propionate binds in the substrate carboxylate site of alanine racemase Biochemistry V38 1999 3293 3301
    • (1999) Biochemistry , vol.38 , pp. 3293-3301
    • Morollo, A.A.1    Petsko, G.A.2    Ringe, D.3
  • 26
    • 0031032448 scopus 로고    scopus 로고
    • Determination of the structure of alanine racemase from Bacillus stearothermophilus at 1.9-angstrom resolution
    • J.P. Shaw, G.A. Petsko, and D. Ringe Determination of the structure of alanine racemase from Bacillus stearothermophilus at 1.9-angstrom resolution Biochemistry V36 1997 1329 1342
    • (1997) Biochemistry , vol.36 , pp. 1329-1342
    • Shaw, J.P.1    Petsko, G.A.2    Ringe, D.3
  • 27
    • 0032555181 scopus 로고    scopus 로고
    • Reaction of alanine racemase with 1-aminoethylphosphonic acid forms a stable external aldimine
    • C.G.F. Stamper, A.A. Morollo, and D. Ringe Reaction of alanine racemase with 1-aminoethylphosphonic acid forms a stable external aldimine Biochemistry V37 1998 10438 10445
    • (1998) Biochemistry , vol.37 , pp. 10438-10445
    • Stamper, C.G.F.1    Morollo, A.A.2    Ringe, D.3
  • 28
    • 0033616634 scopus 로고    scopus 로고
    • Evidence for a two-base mechanism involving tyrosine-265 from arginine-219 mutants of alanine racemase
    • S.X. Sun, and M.D. Toney Evidence for a two-base mechanism involving tyrosine-265 from arginine-219 mutants of alanine racemase Biochemistry V38 1999 4058 4065
    • (1999) Biochemistry , vol.38 , pp. 4058-4065
    • Sun, S.X.1    Toney, M.D.2
  • 29
    • 0033548158 scopus 로고    scopus 로고
    • Role of lysine 39 of alanine racemase from Bacillus stearothermophilus that binds pyridoxal 5′-phosphate - Chemical rescue studies of Lys(39) → Ala mutant
    • A. Watababe, Y. Kurokawa, T. Yoshimura, T. Kurihara, K. Soda, and N. Esaki Role of lysine 39 of alanine racemase from Bacillus stearothermophilus that binds pyridoxal 5′-phosphate - Chemical rescue studies of Lys(39) → Ala mutant J. Biol. Chem. V274 1999 4189 4194
    • (1999) J. Biol. Chem. , vol.274 , pp. 4189-4194
    • Watababe, A.1    Kurokawa, Y.2    Yoshimura, T.3    Kurihara, T.4    Soda, K.5    Esaki, N.6
  • 30
    • 0032775642 scopus 로고    scopus 로고
    • Role of tyrosine 265 of alanine racemase from Bacillus stearothermophilus
    • A. Watanabe, Y. Kurokawa, T. Yoshimura, and N. Esaki Role of tyrosine 265 of alanine racemase from Bacillus stearothermophilus J. Biochem. V125 1999 987 990
    • (1999) J. Biochem. , vol.125 , pp. 987-990
    • Watanabe, A.1    Kurokawa, Y.2    Yoshimura, T.3    Esaki, N.4
  • 31
    • 0032757833 scopus 로고    scopus 로고
    • Tyrosine 265 of alanine racemase serves as a base abstracting alpha-hydrogen from l-alanine: The counterpart residue to lysine 39 specific to d-alanine
    • A. Watanabe, T. Yoshimura, B. Mikami, and N. Esaki Tyrosine 265 of alanine racemase serves as a base abstracting alpha-hydrogen from l-alanine: The counterpart residue to lysine 39 specific to d-alanine J. Biochem. V126 1999 781 786
    • (1999) J. Biochem. , vol.126 , pp. 781-786
    • Watanabe, A.1    Yoshimura, T.2    Mikami, B.3    Esaki, N.4
  • 32
    • 0032446374 scopus 로고    scopus 로고
    • Transamination as a side-reaction catalyzed by alanine racemase of Bacillus stearothermophilus
    • Y. Kurokawa, A. Watanabe, T. Yoshimura, N. Esaki, and K. Soda Transamination as a side-reaction catalyzed by alanine racemase of Bacillus stearothermophilus J. Biochem. V124 1998 1163 1169
    • (1998) J. Biochem. , vol.124 , pp. 1163-1169
    • Kurokawa, Y.1    Watanabe, A.2    Yoshimura, T.3    Esaki, N.4    Soda, K.5
  • 33
    • 0033616634 scopus 로고    scopus 로고
    • Evidence for a two-base mechanism involving tyrosine-265 from arginine-219 mutants of alanine racemase
    • S. Sun, and M.D. Toney Evidence for a two-base mechanism involving tyrosine-265 from arginine-219 mutants of alanine racemase Biochemistry 38 1999 4058 4065
    • (1999) Biochemistry , vol.38 , pp. 4058-4065
    • Sun, S.1    Toney, M.D.2
  • 34
    • 0037657606 scopus 로고    scopus 로고
    • Multiple hydrogen kinetic isotope effects for enzymes catalyzing exchange with solvent: Application to alanine racemase
    • M.A. Spies, and M.D. Toney Multiple hydrogen kinetic isotope effects for enzymes catalyzing exchange with solvent: application to alanine racemase Biochemistry 42 2003 5099 5107
    • (2003) Biochemistry , vol.42 , pp. 5099-5107
    • Spies, M.A.1    Toney, M.D.2
  • 35
    • 0029902679 scopus 로고    scopus 로고
    • Program DYNAFIT for the analysis of enzyme kinetic data: Application to HIV proteinase
    • P. Kuzmic Program DYNAFIT for the analysis of enzyme kinetic data: application to HIV proteinase Anal. Biochem. 237 1996 260 273
    • (1996) Anal. Biochem. , vol.237 , pp. 260-273
    • Kuzmic, P.1
  • 36
    • 2942654629 scopus 로고    scopus 로고
    • Alanine racemase free energy profiles from global analyses of progress curves
    • M.A. Spies, J.J. Woodward, M.R. Watnik, and M.D. Toney Alanine racemase free energy profiles from global analyses of progress curves J. Am. Chem. Soc. 126 2004 7464 7475
    • (2004) J. Am. Chem. Soc. , vol.126 , pp. 7464-7475
    • Spies, M.A.1    Woodward, J.J.2    Watnik, M.R.3    Toney, M.D.4

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.