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4 Publications visible to you, out of a total of 4

Abstract (Expand)

The congested nature of quaternary carbons hinders their preparation, most notably when stereocontrol is required. Here we report a biocatalytic method for the creation of quaternary carbon centers with broad substrate scope, leading to different compound classes bearing this structural feature. The key step comprises the aldol addition of 3,3-disubstituted 2-oxoacids to aldehydes catalyzed by metal dependent 3-methyl-2-oxobutanoate hydroxymethyltransferase from E. coli (KPHMT) and variants thereof. The 3,3,3-trisubstituted 2-oxoacids thus produced were converted into 2-oxolactones and 3-hydroxy acids and directly to ulosonic acid derivatives, all bearing gem-dialkyl, gem-cycloalkyl, and spirocyclic quaternary centers. In addition, some of these reactions use a single enantiomer from racemic nucleophiles to afford stereopure quaternary carbons. The notable substrate tolerance and stereocontrol of these enzymes are indicative of their potential for the synthesis of structurally intricate molecules.

Authors: Roser Marín-Valls, Karel Hernández, Michael Bolte, Teodor Parella, Jesús Joglar, Jordi Bujons, Pere Clapés

Date Published: 18th Nov 2020

Publication Type: Journal

Abstract

Not specified

Authors: Marion Lorillière, Christine Guérard‐Hélaine, Thierry Gefflaut, Wolf‐Dieter Fessner, Pere Clapés, Franck Charmantray, Laurence Hecquet

Date Published: 12th Dec 2019

Publication Type: Journal

Abstract (Expand)

Chiral 2-substituted 3-hydroxycarboxylic acid derivatives are valuable building blocks for the preparation of naturally occurring and synthetic biologically active molecules. Current methodologies for the preparation of these compounds are still limited for large-scale production due to the high costs, limited microbial strains, low yields, difficult downstream processing, and limited range of structures. We report an effective chemoenzymatic method for the synthesis of enantiomerically pure 2 substituted 3 hydroxycarboxylic esters. The strategy comprises: i) a stereoselective aldol addition of 2 oxoacids to methanal catalyzed by two enantiocomplementary 2 oxoacid aldolases, ii) oxidative decarboxylation, and iii) esterification. Compounds with S-configuration were obtained in 69-80% isolated yields (94-99% ee), and the R enantiomers in 57-88% (88-95% ee), using a substrate concentration range of 0.1-1.0 M. The method developed offers a versatile alternative route to this important class of chiral building blocks, and highlights the exciting opportunities available for using natural enzymes with minimal active site modification.

Authors: Roser Marín-Valls, Karel Hernández, Michael Bolte, Jesús Joglar, Jordi Bujons, Pere Clapés

Date Published: 8th Jul 2019

Publication Type: Not specified

Abstract (Expand)

Nitrogen heterocycles are structural motifs found in many bioactive natural products and of utmost importance in pharmaceutical drug development. In this work, a stereoselective synthesis of functionalized N‐heterocycles was accomplished in two steps, comprising the biocatalytic aldol addition of ethanal and simple aliphatic ketones such as propanone, butanone, 3‐pentanone, cyclobutanone, and cyclopentanone to N‐Cbz‐protected aminoaldehydes using engineered variants of d‐fructose‐6‐phosphate aldolase from Escherichia coli (FSA) or 2‐deoxy‐d‐ribose‐5‐phosphate aldolase from Thermotoga maritima (DERATma) as catalysts. FSA catalyzed most of the additions of ketones while DERATma was restricted to ethanal and propanone. Subsequent treatment with hydrogen in the presence of palladium over charcoal, yielded low‐level oxygenated N‐heterocyclic derivatives of piperidine, pyrrolidine and N‐bicyclic structures bearing fused cyclobutane and cyclopentane rings, with stereoselectivities of 96–98 ee and 97:3 dr in isolated yields ranging from 35 to 79%.

Authors: Raquel Roldán, Karel Hernández, Jesús Joglar, Jordi Bujons, Teodor Parella, Wolf-Dieter Fessner, Pere Clapés

Date Published: 6th Jun 2019

Publication Type: Not specified

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