Wechler Kerstin scite author profile

Wechler Kerstin

3Publications

19Citation Statements Received

46Citation Statements Given

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133

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TU Dresden

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Biocatalytical production of (5S)-hydroxy-2-hexanone

et al. 2009

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Biocatalytical approaches have been investigated in order to improve accessibility of the bifunctional chiral building block (5S)-hydroxy-2-hexanone ((S)-2). As a result, a new synthetic route starting from 2,5-hexanedione (1) was developed for (S)-2, which is produced with high enantioselectivity (ee >99%). Since (S)-2 can be reduced further to furnish (2S,5S)-hexanediol ((2S,5S)-3), chemoselectivity is a major issue. Among the tested biocatalysts the whole-cell system S. cerevisiae L13 surpasses the bacterial dehydrogenase ADH-T in terms of chemoselectivity. The use of whole-cells of S. cerevisiae L13 affords (S)-2 from prochiral 1 with 85% yield, which is 21% more than the value obtained with ADH-T. This is due to the different reaction rates of monoreduction (1-->2) and consecutive reduction (2-->3) of the respective biocatalysts. In order to optimise the performance of the whole-cell-bioreduction 1 2 with S. cerevisiae, the system was studied in detail, revealing interactions between cell-physiology and xenobiotic substrate and by-products, respectively. This study compares the whole-cell biocatalytic route with the enzymatic route to enantiopure (S)-2 and investigates factors determining performance and outcome of the bioreductions.

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Biosimulation of drug metabolism—A yeast based model

Pieper

Kerstin

Katzberg

et al. 2009

European Journal of Pharmaceutical Sciences

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Biosimulation of drug metabolism—A yeast based model

et al. 2009

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Wechler Kerstin

Biocatalytical production of (5S)-hydroxy-2-hexanone

Biosimulation of drug metabolism—A yeast based model

Biosimulation of drug metabolism—A yeast based model

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