Oxydation biocatalytique de liaison C-H non activée pour la synthèse de dérivés bêta-hydroxylamines (application à la synthèse d'acides aminés non protéinogènes)

Le travail présenté dans ce manuscrit porte sur la recherche de nouveaux membres de la famille des dioxygénases a-cétoglutarate et fer dépendantes (a-KAO) et leur application en synthèse organique. Dans un premier, ce travail a consisté à chercher de nouvelles enzymes selon une approche génomique basée sur l homologie de séquence et le partage d un motif InterPro. Deux criblages haut débit avec 79 et 127 enzymes candidates ont ensuite été effectués sur des panels constitués respectivement de 23 et 36 substrats, structurellement plus ou moins proches des substrats métaboliques. Huit nouvelles a-KAO ont ainsi pu être découvertes. Parmi ces huit nouvelles a-KAO, quatre ont été étudiées plus en détail. Après optimisation des conditions de réaction pour chaque enzyme, des montées en échelle ont été réalisées pour caractériser les produits formés. A partir de ces quatre enzymes, la (3S)-3-hydroxy-L-lysine, un dérivé cyclisé de la (4R)-4-hydroxy-L-lysine, (3S)-3-hydroxy-L-ornithine et un dérivé de la (3S)-3-hydroxy-L-arginine ont pu être produits. Nous avons proposé une synthèse biocatalytique de mono et dihydroxydiamines en couplant une ou deux a-KAO avec une décarboxylase. Les (2S)-1,5-diamino-2-pentanol, 1,5-diamino-3-pentanol, (2S)-1,4-diamino-2-butanol et (2S,3S)-1,5-diamino-2,3-pentanediol ont ainsi été obtenus avec de bonnes conversions.The work described in this manuscript deals with the search of new members of the a-ketoglutarate and Iron-dependent dioxygenases family (a-KAO) and their applications in organic synthesis. The first part of this work presents the search of new enzymes through a genomic approach based on sequence homology and InterPro motif sharing. Two high-throughput screenings with 79 and 127 candidate enzymes have been performed on 23 and 36 substrates more or less structurally close to known metabolic substrates. 8 new a-KAOs have been discovered. Among these new enzymes, four were studied in more details. After optimization of the enzymatic reaction conditions for each enzyme, scale-up allowed to obtain compounds for isolation and characterization. With these four enzymes, (3S)-3-hydroxy-L-lysine, (4R)-4-hydroxy-L-lysine as its cyclic derivative, (3S)-3-hydroxy-L-ornithine and a derivative of (3S)-3-hydroxy-L-arginine were produced. Two of the new a-KAO were combined in a cascade process to afford the (3R,4R)-3,4-dihydroxy-L-lysine as its cyclic derivative. We proposed a biocatalytic synthesis of mono and hydroxydiamines by coupling one or two a-KAO with a decarboxylase enzyme. (2S)-1,5-diamino-2-pentanol, 1,5-diamino-3-pentanol, (2S)-1,4-diamino-2-butanol and (2S,3S)-1,5-diamino-2,3-pentanediol were obtained with good overall conversions.EVRY-Bib. électronique (912289901) / SudocSudocFranceF

Epimerization and desaturation by carbapenem synthase (CarC). A hybrid DFT study.

The mechanism of the unusual epimerization and desaturation reactions catalyzed by carbapenem synthase was investigated using the hybrid density functional method B3LYP. Several different models have been used in the calculations to study five component reactions. Both protonated and deprotonated models for the substrate have been explored so that the effects of hydrogen bonds could be characterized. Besides the iron site, it is proposed that a some tyrosine residue, possibly Tyr67, is involved in the hydrogen abstraction step. The calculated energetics and barrier heights support this hypothesis, and are consistent with the known experimental data concerning CarC and other 2-oxoglutarate dependent dioxygenases

Epimerization and desaturation by carbapenem synthase (CarC). A hybrid DFT study.

The mechanism of the unusual epimerization and desaturation reactions catalyzed by carbapenem synthase was investigated using the hybrid density functional method B3LYP. Several different models have been used in the calculations to study five component reactions. Both protonated and deprotonated models for the substrate have been explored so that the effects of hydrogen bonds could be characterized. Besides the iron site, it is proposed that a some tyrosine residue, possibly Tyr67, is involved in the hydrogen abstraction step. The calculated energetics and barrier heights support this hypothesis, and are consistent with the known experimental data concerning CarC and other 2-oxoglutarate dependent dioxygenases