CRYSTAL STRUCTURE OF THE AEROBICALLY FREEZE TRAPPED RATE-DETERMINING CATALYTIC INTERMEDIATE OF E. COLI COPPER-CONTAINING AMINE OXIDASE.
Accession | 1d6z |
Experiment type | X-ray |
Resolution | 2.1 Å |
Chains | A, B |
Released | 2 February 2000 |
References
1. Visualization of dioxygen bound to copper during enzyme catalysis. Wilmot, C.M., Hajdu, J., McPherson, M.J., Knowles, P.F., Phillips, S.E. Science 286, 1724-1728, (1999). View articlePMID: 10576737
2. The Active Site Base Controls Cofactor Reactivity in Escherichia coli Amine Oxidase: X-ray Crystallographic Studies with Mutational Variants. Murray, J.M., Saysell, C.G., Wilmot, C.M., Tambyrajah, W.S., Jaeger, J., Knowles, P.F., Phillips, S.E., McPherson, M.J. Biochemistry 38, 8217-8227, (1999). View article
3. Catalytic Mechanism of the Quinoenzyme Amine Oxidase from Escherichia coli: Exploring the Reductive Half-Reaction. Wilmot, C.M., Murray, J.M., Alton, G., Parsons, M.R., Convery, M.A., Blakeley, V., Corner, A.S., Palcic, M.M., Knowles, P.F., McPherson, M.J., Knowles, P.F. Biochemistry 36, 1608-1620, (1997). View article
4. Crystal Structure of a Quinoenzyme: Copper Amine Oxidase of Escherichia coli at 2 Angstroms Resolution. Parsons, M.R., Convery, M.A., Wilmot, C.M., Yadav, K.D.S., Blakeley, V., Corner, A.S., Phillips, S.E., McPherson, M.J., Knowles, P.F. Structure 3, 1171-1184, (1995).