Enantioselektive allylische Hydroxylierung von ω‐Alkensäuren und ‐estern mittels der P450‐BM3‐Monooxygenase

Neufeld, Katharina; Henßen, Birgit; Pietruszka, Jörg

doi:10.1002/ange.201403537

Cited by 4 publications

(4 citation statements)

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“…Both enantiomers were obtained with an excellent ee of >99% (Scheme A). Next to the application of ADHs for the synthesis of allylic alcohols, an elegant alternative is the P450 BM3 monooxygenase-catalyzed enantioselective allylic hydroxylation of ethyl 6-heptenoate ( 6 ), where the best results were obtained with the P450 BM3 variant A74G L188Q . Ester 6 was synthesized by esterification of the acid 17 with EtOH with catalytic amounts of H 2 SO 4 and microwave irradiation in a quantitative yield.…”

Section: Resultsmentioning

confidence: 99%

“…The P450 BM3 A74G L188Q-catalyzed hydroxylation of ester 6 yielded allylic alcohol ( S )- 4 in 25% yield (40% conversion) and 91% ee (Scheme B). A possible explanation of the low conversion of substrate 6 could stem from the enzyme’s instability and decreased activity in purified samples . However, so far this monooxygenase strategy only gives access to the ( S )-configured allylic alcohol 4 .…”

Section: Resultsmentioning

confidence: 99%

“…For heterologous protein expression, the Escherichia coli strain BL21 (DE3) was used. The P450 BM3 A74G L188Q (GQ) variant was obtained as described before . Expression, purification, and quantification of the monooxygenase, and production and activity measurements of LbADH and TbADH, were performed as described earlier. , …”

Section: Experimental Sectionmentioning

confidence: 99%

“…Chiral homoallylic alcohols are well-known motifs for a variety of natural products and can be synthesized by “chemical” allyl addition to an aldehyde or by enzymatic transformations in terms of asymmetric reduction of a prochiral ketone or kinetic resolution of the respective racemic alcohol. − A decision in favor of one route over the other in terms of practicability, efficiency, and convenience is often not obvious. Chemical methods for the synthesis of chiral homoallylic alcohols often rely on complex ligands. − Additionally, excellent enantioselectivity is still not easy to achieve when dealing with linear alkyl-substituted aldehydes (i.e., hexanal). , In previous studies, we presented alcohol dehydrogenases (ADHs) as convenient biocatalysts for the synthesis of chiral alcohols (e.g., homoallylic and allylic alcohols) via oxidative kinetic resolutions (OKRs) as well as asymmetric reductions. , In addition, aiming at the synthesis of chiral allylic alcohols, the P450 BM3 monooxygenase variant A74G L188Q was described for stereoselective hydroxylations of linear terminal olefins representing a short and elegant route toward these compounds . At the same time, known chemical methods for direct C–H activations are limited and often result in low selectivity.…”

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confidence: 96%

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Chemoenzymatic Total Synthesis of the Proposed Structures of Putaminoxins B and D

et al. 2017

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Different enzymatic and nonenzymatic approaches were tested and compared to afford enantiopure homoallylic and allylic alcohols as building blocks in a total synthesis showcase. Thereby, highly enantioselective alcohol dehydrogenases and the P450 BM3 monooxygenase variant A74G L188Q were compared to classical asymmetric reagent-controlled allyl additions. Thus, the first total syntheses of the proposed structures for putaminoxins B/D and their respective enantiomers were accomplished. Detailed spectroscopic analysis of the newly synthesized compounds unraveled a discrepancy with respect to the reported structures of putaminoxins B/D. Furthermore, it was demonstrated that total synthesis is generally required for unequivocal assignment of configuration, because purely comparative NMR studies and judgment by analogy can lead to false predictions.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Experimental Sectionmentioning

confidence: 99%

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confidence: 96%

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Chemoenzymatic Total Synthesis of the Proposed Structures of Putaminoxins B and D

et al. 2017

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P450 BM3 Monooxygenase as an Efficient NAD(P)H‐Oxidase for Regeneration of Nicotinamide Cofactors in ADH‐Catalysed Preparative Scale Biotransformations

2016

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Enzymatic oxidations of primary and secondary alcohols catalysed by nicotinamide dependent alcohol dehydrogenases on the preparative scale require cofactor regeneration systems. Of critical value from an economic and ecologicalp erspective is the applicationo fN AD(P)H-oxidases,w hich utilise molecular oxygena sacost-effective,a tom-efficient and environmentally benign oxidant to regenerate the cofactorN AD(P) + + .H erein, the P450 BM3 monooxygenase from Bacillus megaterium is presented as an NAD(P)H-oxidase for the successful regenerationo fb oth NADP + + andN AD + + on the preparative scale.T his enzyme was exemplarily applied for ADH-catalysed oxidative kinetic resolutionso fr acemic secondary alcohols and the desymmetrisation of a meso-diol leading to enantiomericallye nriched secondary alcohols in both cases.F urthermore,t he ADH-catalysed oxidation of ap rimary alcohol targeting the corresponding aldehyde was performed. Theo btained results significantly broadent he scope of feasible oxidative biotransformations,t hereby increasing the number of synthetic reactions complying with key challenges of am odern and sustainable chemistry such as mild reactionc onditions,e nvironmentally benign solvents,a nd biodegradable nontoxic catalysts.

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P450 BM3‐Catalyzed Regio‐ and Stereoselective Hydroxylation Aiming at the Synthesis of Phthalides and Isocoumarins

et al. 2017

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Cytochrome P450 BM3 monooxygenases are able to catalyze the regio- and stereoselective oxygenation of a broad range of substrates, with promising potential for synthetic applications. To study the suitability of P450 BM3 variants for stereoselective benzylic hydroxylation of 2-alkylated benzoic acid esters, the biotransformation of methyl 2-ethylbenzoate, resulting in both enantiomeric forms of 3-methylphthalide, was investigated. In the case of methyl 2-propylbenzoate as a substrate the regioselectivity of the reaction was shifted towards β-hydroxylation, resulting in the synthesis of enantioenriched R- and S-configured 3-methylisochroman-1-one. The potential of P450 BM3 variants for regio- and stereoselective synthesis of phthalides and isocoumarins offers a new route to a class of compounds that are valuable synthons for a variety of natural compounds.

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Enantioselektive allylische Hydroxylierung von ω‐Alkensäuren und ‐estern mittels der P450‐BM3‐Monooxygenase

Cited by 4 publications

References 61 publications

Chemoenzymatic Total Synthesis of the Proposed Structures of Putaminoxins B and D

Chemoenzymatic Total Synthesis of the Proposed Structures of Putaminoxins B and D

P450 BM3 Monooxygenase as an Efficient NAD(P)H‐Oxidase for Regeneration of Nicotinamide Cofactors in ADH‐Catalysed Preparative Scale Biotransformations

P450 BM3‐Catalyzed Regio‐ and Stereoselective Hydroxylation Aiming at the Synthesis of Phthalides and Isocoumarins

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