- Unexpected Reactions of α,β-Unsaturated Fatty Acids Provide Insight into the Mechanisms of CYP152 Peroxygenases
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CYP152 peroxygenases catalyze decarboxylation and hydroxylation of fatty acids using H2O2 as cofactor. To understand the molecular basis for the chemo- and regioselectivity of these unique P450 enzymes, we analyze the activities of three CYP152 peroxygenases (OleTJE, P450SPα, P450BSβ) towards cis- and trans-dodecenoic acids as substrate probes. The unexpected 6S-hydroxylation of the trans-isomer and 4R-hydroxylation of the cis-isomer by OleTJE, and molecular docking results suggest that the unprecedented selectivity is due to OleTJE’s preference of C2?C3 cis-configuration. In addition to the common epoxide products, undecanal is the unexpected major product of P450SPα and P450BSβ regardless of the cis/trans-configuration of substrates. The combined H218O2 tracing experiments, MD simulations, and QM/MM calculations unravel an unusual mechanism for Compound I-mediated aldehyde formation in which the active site water derived from H2O2 activation is involved in the generation of a four-membered ring lactone intermediate. These findings provide new insights into the unusual mechanisms of CYP152 peroxygenases.
- Jiang, Yuanyuan,Li, Shengying,Li, Zhong,Peng, Wei,Tang, Dandan,Wang, Binju,You, Cai,Zhao, Yue
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supporting information
p. 24694 - 24701
(2021/10/14)
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- Light-Driven Kinetic Resolution of α-Functionalized Carboxylic Acids Enabled by an Engineered Fatty Acid Photodecarboxylase
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Chiral α-functionalized carboxylic acids are valuable precursors for a variety of medicines and natural products. Herein, we described an engineered fatty acid photodecarboxylase (CvFAP)-catalyzed kinetic resolution of α-amino acids and α-hydroxy acids, which provides the unreacted R-configured substrates with high yields and excellent stereoselectivity (ee up to 99 %). This efficient light-driven process requires neither NADPH recycling nor prior preparation of esters, which were required in previous biocatalytic approaches. The structure-guided engineering strategy is based on the scanning of large amino acids at hotspots to narrow the substrate binding tunnel. To the best of our knowledge, this is the first example of asymmetric catalysis by an engineered CvFAP.
- Xu, Jian,Hu, Yujing,Fan, Jiajie,Arkin, Mamatjan,Li, Danyang,Peng, Yongzhen,Xu, Weihua,Lin, Xianfu,Wu, Qi
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supporting information
p. 8474 - 8478
(2019/05/24)
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- Clarification of the binding mode of teleocidin and benzolactams to the Cys2 domain of protein kinase Cδ by synthesis of hydrophobically modified, teleocidin-mimicking benzolactams and computational docking simulation
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Phorbol esters (12-O-tetradecanoylphorbol 13-acetate; TPA) and teleocidins are known to be potent tumor promoters and to activate protein kinase C (PKC) by binding competitively to the enzyme. The relationship between the chemical structures and the activities of these compounds has attracted much attention because of the marked structural dissimilarities. The benzolactam 5, with an eight-membered lactam ring and benzene ring instead of the nine-membered lactam ring and indole ring of teleocidins, reproduces the active ring conformation and biological activities of teleocidins. Herein we describe the synthesis of benzolactams with hydrophobic substituents at various positions. Structure-activity data indicate that the existence of a hydrophobic region between C-2 and C-9 and the steric factor at C-8 play critical roles in the appearance of biological activities. We also computationally simulated the docking of teleocidin and the modified benzolactam molecules to the Cys2 domain structure observed in the crystalline complex of PKCδ with phorbol 13-acetate. Teleocidin and benzolactams fitted well into the same cavity as phorbol 13-acetate. Of the three functional groups hydrogenbonding to the protein, two hydrogen-bonded with protein atoms in common with phorbol 13-acetate, but the third one hydrogen-bonded with a different protein atom from that in the case of phorbol 13-acetate. The model explains well the remarkable difference in activity between 5 and its analogue having a bulky substituent at C-8.
- Endo, Yasuyuki,Takehana, Shunji,Ohno, Michihiro,Driedger, Paul E.,Stabel, Silvia,Mizutani, Miho Y.,Tomioka, Nobuo,Itai, Akiko,Shudo, Koichi
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p. 1476 - 1496
(2007/10/03)
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- Role of the hydrophobic moiety of tumor promoters. Synthesis and activity of benzolactams with alkyl substituents at various positions
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We synthesized benzolactams with hydrophobic substituents at various positions as analogs of (-)-benzolactam-V8-310 ((-)-BL-V8-310, 1) which reproduces the active conformation and biological activity of teleocidins. Structure-activity data indicate that the existence of a hydrophobic region between C-2 and C-9, and the steric factor at C-8 play critical roles in the appearance of biological activities.
- Endo, Yasuyuki,Ohno, Michihiro,Takehana, Shunji,Driedger, Paul E.,Stabel, Silvia,Shudo, Koichi
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p. 424 - 426
(2007/10/03)
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- Enantioselective α hydroxylation of carboxylic acids with molecular oxygen catalyzed by the α oxidation enzyme system of young pea leaves (Pisum sativum): A substrate selectivity study
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The substrate selectivity of the α oxidation of carboxylic acids 1 by crude homogenate of young pea leaves was investigated. Saturated fatty acids with 7 to 16 carbon atoms and oleic acid were transformed to the enantiomerically pure (R)-2-hydroxy acids 2 in the presence of molecular oxygen.
- Adam, Waldemar,Lazarus, Michael,Saha-Moeller, Chantu R.,Schreier, Peter
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p. 2287 - 2292
(2007/10/03)
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