Architecture of a single membrane spanning cytochrome P450 suggests constraints that orient the catalytic domain relative to a bilayer

Brian C. Monk; Thomas M. Tomasiak; Mikhail V. Keniya; Franziska U. Huschmann; Joel D A Tyndall; Joseph D. O'Connell; Richard D. Cannon; Jeffrey G. McDonald; Andrew Rodriguez; Janet S. Finer-Moore; Robert M. Stroud

doi:10.1073/pnas.1324245111

Architecture of a single membrane spanning cytochrome P450 suggests constraints that orient the catalytic domain relative to a bilayer

Brian C. Monk, Thomas M. Tomasiak, Mikhail V. Keniya, Franziska U. Huschmann, Joel D A Tyndall, Joseph D. O'Connell, Richard D. Cannon, Jeffrey G. McDonald, Andrew Rodriguez, Janet S. Finer-Moore, Robert M. Stroud

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217 Scopus citations

Abstract

Bitopic integral membrane proteins with a single transmembrane helix play diverse roles in catalysis, cell signaling, and morphogenesis. Complete monospanning protein structures are needed to show how interaction between the transmembrane helix and catalytic domain might influence association with the membrane and function. We report crystal structures of full-length Saccharomyces cerevisiae lanosterol 14α-demethylase, a membrane monospanning cytochrome P450 of the CYP51 family that catalyzes the first postcyclization step in ergosterol biosynthesis and is inhibited by triazole drugs. The structures reveal a well-ordered N-terminal amphipathic helix preceding a putative transmembrane helix that would constrain the catalytic domain orientation to lie partly in the lipid bilayer. The structures locate the substrate lanosterol, identify putative substrate and product channels, and reveal constrained interactions with triazole antifungal drugs that are important for drug design and understanding drug resistance.

Original language	English (US)
Pages (from-to)	3865-3870
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	111
Issue number	10
DOIs	https://doi.org/10.1073/pnas.1324245111
State	Published - Mar 11 2014

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Monk, B. C., Tomasiak, T. M., Keniya, M. V., Huschmann, F. U., Tyndall, J. D. A., O'Connell, J. D., Cannon, R. D., McDonald, J. G., Rodriguez, A., Finer-Moore, J. S., & Stroud, R. M. (2014). Architecture of a single membrane spanning cytochrome P450 suggests constraints that orient the catalytic domain relative to a bilayer. Proceedings of the National Academy of Sciences of the United States of America, 111(10), 3865-3870. https://doi.org/10.1073/pnas.1324245111

Architecture of a single membrane spanning cytochrome P450 suggests constraints that orient the catalytic domain relative to a bilayer. / Monk, Brian C.; Tomasiak, Thomas M.; Keniya, Mikhail V. et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 111, No. 10, 11.03.2014, p. 3865-3870.

Research output: Contribution to journal › Article › peer-review

Monk, BC, Tomasiak, TM, Keniya, MV, Huschmann, FU, Tyndall, JDA, O'Connell, JD, Cannon, RD, McDonald, JG, Rodriguez, A, Finer-Moore, JS & Stroud, RM 2014, 'Architecture of a single membrane spanning cytochrome P450 suggests constraints that orient the catalytic domain relative to a bilayer', Proceedings of the National Academy of Sciences of the United States of America, vol. 111, no. 10, pp. 3865-3870. https://doi.org/10.1073/pnas.1324245111

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abstract = "Bitopic integral membrane proteins with a single transmembrane helix play diverse roles in catalysis, cell signaling, and morphogenesis. Complete monospanning protein structures are needed to show how interaction between the transmembrane helix and catalytic domain might influence association with the membrane and function. We report crystal structures of full-length Saccharomyces cerevisiae lanosterol 14α-demethylase, a membrane monospanning cytochrome P450 of the CYP51 family that catalyzes the first postcyclization step in ergosterol biosynthesis and is inhibited by triazole drugs. The structures reveal a well-ordered N-terminal amphipathic helix preceding a putative transmembrane helix that would constrain the catalytic domain orientation to lie partly in the lipid bilayer. The structures locate the substrate lanosterol, identify putative substrate and product channels, and reveal constrained interactions with triazole antifungal drugs that are important for drug design and understanding drug resistance.",

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AU - Tyndall, Joel D A

AU - O'Connell, Joseph D.

AU - Cannon, Richard D.

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AU - Rodriguez, Andrew

AU - Finer-Moore, Janet S.

AU - Stroud, Robert M.

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AB - Bitopic integral membrane proteins with a single transmembrane helix play diverse roles in catalysis, cell signaling, and morphogenesis. Complete monospanning protein structures are needed to show how interaction between the transmembrane helix and catalytic domain might influence association with the membrane and function. We report crystal structures of full-length Saccharomyces cerevisiae lanosterol 14α-demethylase, a membrane monospanning cytochrome P450 of the CYP51 family that catalyzes the first postcyclization step in ergosterol biosynthesis and is inhibited by triazole drugs. The structures reveal a well-ordered N-terminal amphipathic helix preceding a putative transmembrane helix that would constrain the catalytic domain orientation to lie partly in the lipid bilayer. The structures locate the substrate lanosterol, identify putative substrate and product channels, and reveal constrained interactions with triazole antifungal drugs that are important for drug design and understanding drug resistance.

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Architecture of a single membrane spanning cytochrome P450 suggests constraints that orient the catalytic domain relative to a bilayer

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