Dominique Bixel scite author profile

Coupling of C9 - 14 (4) and C15 - 21 (5a) fragments to produce the cis-trisubstituted olefin was achieved using Suzuki-type coupling conditions employed by Marshall (5a/tert-BuLi/B-OMe-9-BBN added to 4/Cs2CO3/Pd(dppf)2). The terminal (Z)-diene moiety was attached to aldehyde 10 by using a sequential Nozaki−Hiyama allylation and Peterson olefination sequence; careful monitoring of the disappearance of both diastereomeric β-hydroxysilanes was found to be essential for achieving a high yield. In the oxidation of alcohols 12 and 16 to 13 and 7, respectively, using iodobenzene diacetate and TEMPO, addition of a trace of water was found to be crucial for complete conversion. The C8 - 9 (Z)-olefin functionality was introduced on to aldehyde 13 using a Still−Gennari HWE reaction. Subsequent carbamate installation at C-19 followed by a reduction/oxidation sequence gave the title fragment C7 - 24 (7) ready to be coupled with the C1 - 6 fragment, which is described in Part 2 of this series.

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Toward a Scalable Synthesis and Process for EMA401, Part III: Using an Engineered Phenylalanine Ammonia Lyase Enzyme to Synthesize a Non-natural Phenylalanine Derivative

Hardegger

Beney

Bixel

et al. 2020

Org. Process Res. Dev.

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A process using an engineered phenylalanine ammonia lyase (PAL) enzyme was developed as part of an alternative route to a key intermediate of olodanrigan (EMA401). In the first part of this report, the detailed results from a screening for the optimal reaction conditions are presented, followed by a discussion of several workup strategies investigated. In the PAL-catalyzed reaction, 70−80% conversion of a cinnamic acid derivative to the corresponding phenylalanine derivative could be achieved. The phenylalanine derivative was subsequently telescoped to a Pictet−Spengler reaction with formaldehyde, and the corresponding tetrahydroisoquinoline derivative was isolated in 60−70% yield with >99.9:0.1 er. On the basis of our screenings, carbonate/ carbamate-buffered ammonia at an NH 3 concentration of 9−10 M and pH 9.5−10.5 was found to be optimal. Enzyme loadings down to 2.5 wt % (E:S = 1:40 w/w) could be achieved, and substrate concentrations between 3−9 v/w (1.17−0.39 M) were found to be compatible with the reaction conditions. A temperature gradient was applied in the final process: a pre-equilibrium was established at 45 °C, before making use of the temperature dependence of the entropy term with subsequent cooling to 20 °C to achieve maximum conversion. This temperature gradient also allowed balancing of the enzyme stability (low at 45 °C, high at 20 °C) with the activity (high at 45 °C, low at 20 °C) in order to achieve optimal conversion (low at 45 °C, high at 20 °C). From the various workup operations investigated, a sequence consisting of denaturation of the enzyme, NH 3 /CO 2 removal by distillation, acidification, and telescoping to the subsequent Pictet−Spengler cyclization was our preferred approach. The process presented in this study is a more sustainable, shorter, and more cost-effective alternative to the previous process.

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Carry Over of Impurities: A Detailed Exemplification for Glycopyrrolate (NVA237)

Allmendinger

Bixel

Clarke

et al. 2012

Org. Process Res. Dev.

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The original synthesis of glycopyrrolate (NVA237) was revised and shortened into an essentially one-pot process. Without isolating the intermediates, their purification became obsolete, thereby increasing the possibility of the carry over of impurities. For that reason, the actual, potential, and theoretical impurities of the starting materials cyclopentyl mandelic acid and 1-methyl-pyrrolidin-3-ol as well as byproducts which may occur during the synthesis were thoroughly investigated; furthermore, their transformation to possible impurities in the drug substance along the new synthetic route was performed to exclude them as actual impurities in the drug substance with certainty. The question is raised how detailed such investigationwhich are fairly manageable for a simple product like glycopyrrolateneed to be.

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9‐epi‐Artemisinin – How a Single Stereo Center Affects Chemical Reactivity under Reductive Conditions

Anokwah

Furet

Denay

et al. 2022

Helvetica Chimica Acta

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Artemisinin occurs as a minor by-product when artemisinin is obtained from natural or semi-synthetic sources. The preparation of β-artemether from artemisinin by reduction with sodium borohydride proceeds normally even when the 9-epimer is present. However, the 9-epimer undergoes rearrangement to peroxy acetals. The results are ascribed to the different stabilities of the corresponding dihydro-intermediates due to steric hindrance as suggested by quantum mechanical calculations.

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Dominique Bixel

Large-Scale Synthesis of the Anti-Cancer Marine Natural Product (+)-Discodermolide. Part 4: Preparation of Fragment C₇_-₂₄

Toward a Scalable Synthesis and Process for EMA401, Part III: Using an Engineered Phenylalanine Ammonia Lyase Enzyme to Synthesize a Non-natural Phenylalanine Derivative

Carry Over of Impurities: A Detailed Exemplification for Glycopyrrolate (NVA237)

9‐epi‐Artemisinin – How a Single Stereo Center Affects Chemical Reactivity under Reductive Conditions

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Dominique Bixel

Large-Scale Synthesis of the Anti-Cancer Marine Natural Product (+)-Discodermolide. Part 4: Preparation of Fragment C7-24

Toward a Scalable Synthesis and Process for EMA401, Part III: Using an Engineered Phenylalanine Ammonia Lyase Enzyme to Synthesize a Non-natural Phenylalanine Derivative

Carry Over of Impurities: A Detailed Exemplification for Glycopyrrolate (NVA237)

9‐epi‐Artemisinin – How a Single Stereo Center Affects Chemical Reactivity under Reductive Conditions

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Large-Scale Synthesis of the Anti-Cancer Marine Natural Product (+)-Discodermolide. Part 4: Preparation of Fragment C₇_-₂₄