Structure and mechanism of galactose oxidase: The free radical site

Andrew J. Baron; Conrad Stevens; Carrie Wilmot; Kanjula D. Seneviratne; Veronica Blakeley; David M. Dooley; Simon E V Phillips; Peter F. Knowles; Michael J. McPherson

Structure and mechanism of galactose oxidase: The free radical site

Andrew J. Baron, Conrad Stevens, Carrie Wilmot, Kanjula D. Seneviratne, Veronica Blakeley, David M. Dooley, Simon E V Phillips, Peter F. Knowles, Michael J. McPherson

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Abstract

Crystallographic and spectroscopic studies on galactose oxidase have shown that the active site involves a free radical on tyrosine 272, one of the ligands coordinated to the Cu²⁺ cofactor. A novel thioether bond between tyrosine 272 and cysteine 228, and a stacking tryptophan 290, over this bond, are features of the crystal structure. The present study describes the development of a high level heterologous expression system for galactose oxidase and the construction of mutational variants at these key active site residues. The expressed wildtype enzyme and mutational variants (W290H and C228G) have been characterized by x-ray crystallography, visible spectroscopy, and catalytic activity measurements. A further variant protein, Y272F, could not be purified. The data establish that the thioether bond and stacking tryptophan are essential for activity and further support a role for tryptophan 290 as a component of the free radical site.

Original language	English (US)
Pages (from-to)	25095-25105
Number of pages	11
Journal	Journal of Biological Chemistry
Volume	269
Issue number	40
State	Published - Oct 7 1994

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@article{7be47fc2f42143e8b19d1eb00718669f,

title = "Structure and mechanism of galactose oxidase: The free radical site",

abstract = "Crystallographic and spectroscopic studies on galactose oxidase have shown that the active site involves a free radical on tyrosine 272, one of the ligands coordinated to the Cu2+ cofactor. A novel thioether bond between tyrosine 272 and cysteine 228, and a stacking tryptophan 290, over this bond, are features of the crystal structure. The present study describes the development of a high level heterologous expression system for galactose oxidase and the construction of mutational variants at these key active site residues. The expressed wildtype enzyme and mutational variants (W290H and C228G) have been characterized by x-ray crystallography, visible spectroscopy, and catalytic activity measurements. A further variant protein, Y272F, could not be purified. The data establish that the thioether bond and stacking tryptophan are essential for activity and further support a role for tryptophan 290 as a component of the free radical site.",

author = "Baron, \{Andrew J.\} and Conrad Stevens and Carrie Wilmot and Seneviratne, \{Kanjula D.\} and Veronica Blakeley and Dooley, \{David M.\} and Phillips, \{Simon E V\} and Knowles, \{Peter F.\} and McPherson, \{Michael J.\}",

year = "1994",

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language = "English (US)",

volume = "269",

pages = "25095--25105",

journal = "Journal of Biological Chemistry",

issn = "0021-9258",

publisher = "American Society for Biochemistry and Molecular Biology Inc.",

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TY - JOUR

T1 - Structure and mechanism of galactose oxidase

T2 - The free radical site

AU - Baron, Andrew J.

AU - Stevens, Conrad

AU - Wilmot, Carrie

AU - Seneviratne, Kanjula D.

AU - Blakeley, Veronica

AU - Dooley, David M.

AU - Phillips, Simon E V

AU - Knowles, Peter F.

AU - McPherson, Michael J.

PY - 1994/10/7

Y1 - 1994/10/7

N2 - Crystallographic and spectroscopic studies on galactose oxidase have shown that the active site involves a free radical on tyrosine 272, one of the ligands coordinated to the Cu2+ cofactor. A novel thioether bond between tyrosine 272 and cysteine 228, and a stacking tryptophan 290, over this bond, are features of the crystal structure. The present study describes the development of a high level heterologous expression system for galactose oxidase and the construction of mutational variants at these key active site residues. The expressed wildtype enzyme and mutational variants (W290H and C228G) have been characterized by x-ray crystallography, visible spectroscopy, and catalytic activity measurements. A further variant protein, Y272F, could not be purified. The data establish that the thioether bond and stacking tryptophan are essential for activity and further support a role for tryptophan 290 as a component of the free radical site.

AB - Crystallographic and spectroscopic studies on galactose oxidase have shown that the active site involves a free radical on tyrosine 272, one of the ligands coordinated to the Cu2+ cofactor. A novel thioether bond between tyrosine 272 and cysteine 228, and a stacking tryptophan 290, over this bond, are features of the crystal structure. The present study describes the development of a high level heterologous expression system for galactose oxidase and the construction of mutational variants at these key active site residues. The expressed wildtype enzyme and mutational variants (W290H and C228G) have been characterized by x-ray crystallography, visible spectroscopy, and catalytic activity measurements. A further variant protein, Y272F, could not be purified. The data establish that the thioether bond and stacking tryptophan are essential for activity and further support a role for tryptophan 290 as a component of the free radical site.

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M3 - Article

C2 - 7929198

AN - SCOPUS:0028096768

SN - 0021-9258

VL - 269

SP - 25095

EP - 25105

JO - Journal of Biological Chemistry

JF - Journal of Biological Chemistry

IS - 40

ER -

Structure and mechanism of galactose oxidase: The free radical site

Abstract

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