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Your search keyword '"Danesh-Azari, Hamid-Reza"' showing total 7 results
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7 results on '"Danesh-Azari, Hamid-Reza"'

1. Mutational Analysis of Linalool Dehydratase-Isomerase (LinD) Suggests Alcohol and Alkene Transformations are Catalyzed Using Non-Covalent Mechanisms

Author

Grogan, Gideon James, Cuetos, Anibal, Danesh-Azari, Hamid-Reza, Dowle, Adam, Zukic, Erna, Iglesias, Javier, and Osuna, Silvia

Abstract

The interconversion of non-activated alkenes and alcohols, catalyzed by (de)hydratases, has great potential in biotechnology for the generation of fine and bulk chemicals. LinD is a cofactor-independent enzyme that catalyzes the reversible (de)hydration of the tertiary alcohol (S)-linalool to the triene beta-myrcene, and also its isomerization to the primary alcohol geraniol. Structure-informed mutagenesis of LinD, followed by activity studies, confirmed essential roles for residues C171, C180 and H129 in water activation for the hydration of beta-myrcene to linalool. However, no evidence of covalent thioterpene intermediates was found using either X-ray crystallography, mass spectrometry, or QM/MM nudged elastic band simula-tions. Labelling and NMR experiments confirmed a role for residue D39 in (de)protonation of the linalool carbon C10 in the isomerization of linalool to geraniol and also the intermediacy of beta-myrcene in this isomerization reaction. X-ray, molecular dynamics and activity studies also suggested a significant role in catalysis for a mobile methionine residue M125, which exists in substantially altered orientations in different mutant structures.

Published
2020

3. Structure-Guided Redesign of CYP153AM.aq for the Improved Terminal Hydroxylation of Fatty Acids

Author

Hoffmann, Sara, Danesh-Azari, Hamid-Reza, Spandolf, Claudia, Weissenborn, Martin, Grogan, Gideon James, and Hauer, Bernhard

Abstract

The structure of a P450 ω-hydroxylase bound to its fatty acid product was determined, which revealed a narrow substrate tunnel that leads to the heme. The introduction of an arginine side chain in proximity to the carboxyl group of the fatty acid led to a reduced KM value for dodecanoic acid, which suggests the importance of an anchoring point in the active site. An increase in the flexibility of the substrate recognition region was also engineered, which resulted in a threefold improved product formation.

Published
2016

7. Structure-Guided Redesign of CYP153A M.aq for the Improved Terminal Hydroxylation of Fatty Acids.

Author

Hoffmann, Sara M., Danesh ‐ Azari, Hamid ‐ Reza, Spandolf, Claudia, WeissENborn, Martin J., Grogan, Gideon, and Hauer, Bernhard

Subjects
*CYTOCHROME P-450, *MOLECULAR structure, *FATTY acids, *HYDROXYLATION, *CARBOXYL group, *MOLECULAR recognition
Abstract

The structure of a P450 ω-hydroxylase bound to its fatty acid product was determined, which revealed a narrow substrate tunnel that leads to the heme. The introduction of an arginine side chain in proximity to the carboxyl group of the fatty acid led to a reduced KM value for dodecanoic acid, which suggests the importance of an anchoring point in the active site. An increase in the flexibility of the substrate recognition region was also engineered, which resulted in a threefold improved product formation. [ABSTRACT FROM AUTHOR]

Published
2016
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