We present results of combined studies of the enzyme human aldose reductase (h-AR, 36 kDa) using single-crystal x-ray data (0.66 A, 100K; 0.80 A, 15K; 1.75 A, 293K), neutron Laue data (2.2 A, 293K), and quantum mechanical modeling. These complementary techniques unveil the internal organization and mobility of the hydrogen bond network that defines the properties of the catalytic engine, explaining how this promiscuous enzyme overcomes the simultaneous requirements of efficiency and promiscuity offering a general mechanistic view for this class of enzymes.
Quantum model of catalysis based on a mobile proton revealed by subatomic x-ray and neutron diffraction studies of h-aldose reductase.
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作者:Blakeley Matthew P, Ruiz Federico, Cachau Raul, Hazemann Isabelle, Meilleur Flora, Mitschler Andre, Ginell Stephan, Afonine Pavel, Ventura Oscar N, Cousido-Siah Alexandra, Haertlein Michael, Joachimiak Andrzej, Myles Dean, Podjarny Alberto
| 期刊: | Proceedings of the National Academy of Sciences of the United States of America | 影响因子: | 9.100 |
| 时间: | 2008 | 起止号: | 2008 Feb 12; 105(6):1844-8 |
| doi: | 10.1073/pnas.0711659105 | ||
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