Molecular Recognition of the Substrate Diphosphate Group Governs Product Diversity in Trichodiene Synthase Mutants

The X-ray crystal structures of Y305F trichodiene synthase and its complex with coproduct inorganic pyrophosphate (PPi) and of Y305F and D100E trichodiene synthases in ternary complexes with PPi and aza analogues of the bisabolyl carbocation intermediate are reported. The Y305F substitution in the b...

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Published in:Biochemistry (Easton) 2005-04, Vol.44 (16), p.6153-6163
Main Authors: Vedula, L. Sangeetha, Rynkiewicz, Michael J, Pyun, Hyung-Jung, Coates, Robert M, Cane, David E, Christianson, David W
Format: Article
Language:English
Subjects:
Amino Acid Substitution
BASIC BIOLOGICAL SCIENCES
BIOCHEMISTRY
Carbon-Carbon Lyases - chemistry
Carbon-Carbon Lyases - genetics
Carbon-Carbon Lyases - metabolism
Catalytic Domain - genetics
Crystallography, X-Ray
Diphosphates - metabolism
Fusarium - enzymology
Fusarium - genetics
Hydrogen Bonding
Kinetics
Models, Molecular
Mutagenesis, Site-Directed
MUTANTS
national synchrotron light source
Substrate Specificity
SUBSTRATES
Terpenes - chemistry
Terpenes - metabolism
Thermodynamics
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cited_by cdi_FETCH-LOGICAL-a443t-48dbbae9b49d3f3fca25d8d9b24ec969aa05eae0b3f9c147b1ac4be9a7e0105c3
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container_title Biochemistry (Easton)
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creator Vedula, L. Sangeetha
Rynkiewicz, Michael J
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Cane, David E
Christianson, David W
description The X-ray crystal structures of Y305F trichodiene synthase and its complex with coproduct inorganic pyrophosphate (PPi) and of Y305F and D100E trichodiene synthases in ternary complexes with PPi and aza analogues of the bisabolyl carbocation intermediate are reported. The Y305F substitution in the basic D302RRYR motif does not cause large changes in the overall structure in comparison with the wild-type enzyme in either the uncomplexed enzyme or its complex with PPi. However, the loss of the Y305F−PPi hydrogen bond appears to be compensated by a very slight shift in the position of the side chain of R304. The putative bisabolyl carbocation mimic, R-azabisabolene, binds in a conformation and orientation that does not appear to mimic that of the actual carbocation intermediate, suggesting that the avid inhibition by R- and S-azabisabolenes arises more from favorable electrostatic interactions with PPi rather than any special resemblance to a reaction intermediate. Greater enclosed active-site volumes result from the Y305F and D100E mutations that appear to confer greater variability in ligand-binding conformations and orientations, which results in the formation of aberrant cyclization products. Because the binding conformations and orientations of R-azabisabolene to Y305F and D100E trichodiene synthases do not correspond to binding conformations required for product formation and because the binding conformations and orientations of diverse substrate and carbocation analogues to other cyclases such as 5-epi-aristolochene synthase and bornyl diphosphate synthase generally do not correspond to catalytically productive complexes, we conclude that the formation of transient carbocation intermediates in terpene cyclization reactions is generally under kinetic rather than thermodynamic control.
doi_str_mv 10.1021/bi050059o
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ispartof Biochemistry (Easton), 2005-04, Vol.44 (16), p.6153-6163
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source ScienceDirect®; American Chemical Society:Jisc Collections:American Chemical Society Read & Publish Agreement 2022-2024 (Reading list); PubMed Central
subjects Amino Acid Substitution
BASIC BIOLOGICAL SCIENCES
BIOCHEMISTRY
Carbon-Carbon Lyases - chemistry
Carbon-Carbon Lyases - genetics
Carbon-Carbon Lyases - metabolism
Catalytic Domain - genetics
Crystallography, X-Ray
Diphosphates - metabolism
Fusarium - enzymology
Fusarium - genetics
Hydrogen Bonding
Kinetics
Models, Molecular
Mutagenesis, Site-Directed
MUTANTS
national synchrotron light source
Substrate Specificity
SUBSTRATES
Terpenes - chemistry
Terpenes - metabolism
Thermodynamics
title Molecular Recognition of the Substrate Diphosphate Group Governs Product Diversity in Trichodiene Synthase Mutants
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