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March 14, 2011 - Volume 89, Number 11
- p. 38
Science & Technology Concentrates
More Science & Technology Concentrates
- Fluoride Blocks For Enzyme
- Blocked active site allows scientists to visualize enzyme-inhibitor complexes that couldn’t be seen before
- Study Suggests New Criteria For Electrocatalysts
- Theoretical findings on O2 reduction energetics should help the selection of better-performing fuel-cell catalysts
- Rhodium-Catalyzed Reaction Pinned Down
- Calculations suggest the C–H activation/Cope rearrangement combo can be customized to deliver multiple chiral products
- Mycobacteria Have A System For Acquiring Iron From Heme
- In addition to using iron-chelating siderophores, the tuberculosis microbe uses a heme-binding protein to grab iron
- … And Can Now Enter The Spotlight For In-Cell Detection
- Scientists unveil the first molecular probe for live, in-cell detection of the pathogenic bacterium
- Nanotube Confinement Boosts Catalysis
- Platinum nanoparticles inside carbon nanotubes are effective catalysts for asymmetric hydrogenations
- Laser-Induced Shock Wave Chromatography
- Proteins and quantum dots can be separated for analysis by the impact induced by a laser shock wave
- Forster Reaction Delivers Generic Drug
- A novel synthetic route to make a hyperparathyroidism drug uses a century-old, unexplored method
Topics Covered
J. Am. Chem. Soc.
Fluoride Hog Fluoride in the active site of fatty acid amide hydrolase keeps an α-ketooxadiazole inhibitor noncovalently bound nearby.
With a single fluoride ion, scientists have made it possible to visualize the structure of a noncovalent enzyme-inhibitor complex that couldn’t be seen before (J. Am. Chem. Soc., DOI: 10.1021/ja110877y). Inhibitors and many substrates often bind enzyme active sites covalently after first binding noncovalently at areas just outside those sites. But covalent bonding is such a strong interaction compared with noncovalent binding that the initial noncovalent states cannot be observed when enzyme-inhibitor complexes are crystallized for structural analysis. Raymond C. Stevens, Dale L. Boger, and coworkers at Scripps Research Institute found a way around this dilemma. They were able to crystallize and structurally analyze a noncovalent complex—an α-ketooxadiazole inhibitor bound to fatty acid amide hydrolase—by plugging the enzyme active site’s “oxyanion hole” with fluoride so the inhibitor couldn’t bind covalently. The enzyme adopts an “in action” state in which its active site is poised to catalyze a reaction, suggesting many other applications of the approach, including examining other enzyme structures with active-site residues in action or enzyme complexes with unreacted substrate.
- Chemical & Engineering News
- ISSN 0009-2347
- Copyright © 2011 American Chemical Society
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