2011
DOI: 10.1002/ange.201105164
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A Simple Enantioconvergent and Chemoenzymatic Synthesis of Optically Active α‐Substituted Amides

Abstract: Enantiopure amides 1, substituted in the a position with an azide or a simple N, O, or S substituent (Scheme 1), form an important class of compounds and are key intermediates in medicinal chemistry. The a-azidoamide motif (1, Nu = N 3 ) is found in bioactive molecules, such as the antibiotic azidocillin (Scheme 1). The azide group is considered to be an isostere of the amino group, however, it has increased bulkiness and is not positively charged at physiological pH values. [1] The introduction of an azide fu… Show more

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Cited by 9 publications
(7 citation statements)
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“…In some cases, a weak leaving group has to be converted into a better one via an additional activation step. This process has been verified for haloalkane dehalogenases [19].…”
Section: Single Enantiomers From Racematesmentioning
confidence: 59%
See 1 more Smart Citation
“…In some cases, a weak leaving group has to be converted into a better one via an additional activation step. This process has been verified for haloalkane dehalogenases [19].…”
Section: Single Enantiomers From Racematesmentioning
confidence: 59%
“…The protocol is of high interest because it presents a DKR procedure that is not dependent on environmentally questionable heavy metal complexes. The first enantioconvergent process (Figure 2, type 4) based on haloalkane dehalogenases was recently developed for the chemoenzymatic synthesis of α-substituted amides, which are key intermediates in the production of pharmacologically active compounds [19]. In the first enzymatic kinetic resolution step, a homochiral mixture of α-bromo- and α-hydroxyamide was obtained using an inverting dehalogenase.…”
Section: Dehalogenasesmentioning
confidence: 99%
“…Haloalkane dehalogenases (HLDs) are bacterial enzymes that catalyze the hydrolytic dehalogenation of various halogenated compounds [1][2][3]. As a result of their broad specificity, HLDs have potential applica-tions in biocatalysis, bioremediation and biosensing [4][5][6][7][8]. Structurally, the HLDs belong to the a/b hydrolase superfamily.…”
Section: Introductionmentioning
confidence: 99%
“… 1 – 3 Enantioconvergent processes are based on the transformation of a pair of enantiomers through opposite stereochemical pathways affecting retention and inversion of configuration. Depending on the stereochemical course of enzymatic and chemical reactions, three types of deracemization protocols were recently classified by Feringa et al 4 Two chemoenzymatic methods start with a biocatalytic kinetic resolution step, which yields a hetero- or homochiral 1:1 mixture of the formed product and nonconverted substrate enantiomer. The latter is subjected to a second (non-enzymatic) transformation with retention or inversion of configuration to yield a single stereoisomeric product.…”
mentioning
confidence: 99%
“…For enzymes, the ability to act by retention or inversion is a rare feature, which has been found among epoxide hydrolases, 8 dehalogenases, 4 , 9 and sulfatases. 10 The latter catalyze the hydrolytic cleavage of (alkyl) sulfate esters by breakage of the S–O or the C–O bond leading to retention or inversion at the chiral carbon atom, 10b and thus makes them prime candidates for enantioconvergent processes.…”
mentioning
confidence: 99%