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Backdoor opening mechanism in acetylcholinesterase based on X-ray crystallography and molecular dynamics simulations

✍ Scribed by Benoît Sanson; Jacques-Philippe Colletier; Yechun Xu; P. Therese Lang; Hualiang Jiang; Israel Silman; Joel L. Sussman; Martin Weik

Publisher: Cold Spring Harbor Laboratory Press
Year: 2011
Tongue: English
Weight: 255 KB
Volume: 20
Category: Article
ISSN: 0961-8368
DOI: 10.1002/pro.661

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✦ Synopsis

The transient opening of a backdoor in the active-site wall of acetylcholinesterase, one of nature's most rapid enzymes, has been suggested to contribute to the efficient traffic of substrates and products. A crystal structure of Torpedo californica acetylcholinesterase in complex with the peripheral-site inhibitor aflatoxin is now presented, in which a tyrosine at the bottom of the active-site gorge rotates to create a 3.4-Å wide exit channel. Molecular dynamics simulations show that the opening can be further enlarged by movement of Trp84. The crystallographic and molecular dynamics simulation data thus point to the interface between Tyr442 and Trp84 as the key element of a backdoor, whose opening permits rapid clearance of catalysis products from the active site. Furthermore, the crystal structure presented provides a novel template for rational design of inhibitors and reactivators, including anti-Alzheimer drugs and antidotes against organophosphate poisoning.

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