Structural basis for the inhibition of firefly luciferase by a general anesthetic

NP Franks, A Jenkins, E Conti, WR Lieb, P Brick - Biophysical journal, 1998 - cell.com
NP Franks, A Jenkins, E Conti, WR Lieb, P Brick
Biophysical journal, 1998cell.com
The firefly luciferase enzyme from Photinus pyralis is probably the best-characterized model
system for studying anesthetic-protein interactions. It binds a diverse range of general
anesthetics over a large potency range, displays a sensitivity to anesthetics that is very
similar to that found in animals, and has an anesthetic sensitivity that can be modulated by
one of its substrates (ATP). In this paper we describe the properties of bromoform acting as a
general anesthetic (in Rana temporaria tadpoles) and as an inhibitor of the firefly luciferase …
Abstract
The firefly luciferase enzyme from Photinus pyralis is probably the best-characterized model system for studying anesthetic-protein interactions. It binds a diverse range of general anesthetics over a large potency range, displays a sensitivity to anesthetics that is very similar to that found in animals, and has an anesthetic sensitivity that can be modulated by one of its substrates (ATP). In this paper we describe the properties of bromoform acting as a general anesthetic (in Rana temporaria tadpoles) and as an inhibitor of the firefly luciferase enzyme at high and low ATP concentrations. In addition, we describe the crystal structure of the low-ATP form of the luciferase enzyme in the presence of bromoform at 2.2-Å resolution. These results provide a structural basis for understanding the anesthetic inhibition of the enzyme, as well as an explanation for the ATP modulation of its anesthetic sensitivity.
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