Synthetic Processes toward Nitriles without the Use of Cyanide: A Biocatalytic Concept Based on Dehydration of Aldoximes in Water

Hinzmann, Alessa; Betke, Tobias; Asano, Yasuhisa; Gröger, Harald

Synthetic Processes toward Nitriles without the Use of Cyanide: A Biocatalytic Concept Based on Dehydration of Aldoximes in Water

Hinzmann A, Betke T, Asano Y, Gröger H (2021)
Chemistry – A European Journal 27(17): 5313-5321.

Zeitschriftenaufsatz | Veröffentlicht | Englisch

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DOI

https://doi.org/10.1002/chem.202001647

URN

urn:nbn:de:0070-pub-29531124

Autor*in

Hinzmann, Alessa^UniBi ; Betke, Tobias^UniBi; Asano, Yasuhisa; Gröger, Harald^UniBi

Einrichtung

Fakultät für Chemie > Industrielle Organische Chemie und Biotechnologie

Abstract / Bemerkung

While belonging to the most fundamental functional groups, nitriles represent a class of compound that still raises challenges in terms of an efficient, cost‐effective, general and, at the same time, sustainable way for their synthesis. Complementing existing chemical routes, recently a cyanide‐free enzymatic process technology based on the use of an aldoxime dehydratase (Oxd) as a biocatalyst component has been developed and successfully applied for the synthesis of a range of nitrile products. In these biotransformations, the Oxd enzymes catalyze the dehydration of aldoximes as readily available substrates to the nitrile products. Herein, these developments with such enzymes are summarized, with a strong focus on synthetic applications. It is demonstrated that this biocatalytic technology has the potential to “cross the bridge” between the production of fine chemicals and pharmaceuticals, on one hand, and bulk and commodity chemicals, on the other.

Erscheinungsjahr

2021

Zeitschriftentitel

Chemistry – A European Journal

Band

Ausgabe

Seite(n)

5313-5321

Urheberrecht / Lizenzen

Creative Commons Namensnennung 4.0 International Public License (CC-BY 4.0)

ISSN

0947-6539

eISSN

1521-3765

Finanzierungs-Informationen

Open-Access-Publikationskosten wurden durch die Universität Bielefeld im Rahmen des DEAL-Vertrags gefördert.

Page URI

https://pub.uni-bielefeld.de/record/2953112

Zitieren

Hinzmann A, Betke T, Asano Y, Gröger H. Synthetic Processes toward Nitriles without the Use of Cyanide: A Biocatalytic Concept Based on Dehydration of Aldoximes in Water. Chemistry – A European Journal. 2021;27(17):5313-5321.

Hinzmann, A., Betke, T., Asano, Y., & Gröger, H. (2021). Synthetic Processes toward Nitriles without the Use of Cyanide: A Biocatalytic Concept Based on Dehydration of Aldoximes in Water. Chemistry – A European Journal, 27(17), 5313-5321. https://doi.org/10.1002/chem.202001647

Hinzmann, Alessa, Betke, Tobias, Asano, Yasuhisa, and Gröger, Harald. 2021. “Synthetic Processes toward Nitriles without the Use of Cyanide: A Biocatalytic Concept Based on Dehydration of Aldoximes in Water”. Chemistry – A European Journal 27 (17): 5313-5321.

Hinzmann, A., Betke, T., Asano, Y., and Gröger, H. (2021). Synthetic Processes toward Nitriles without the Use of Cyanide: A Biocatalytic Concept Based on Dehydration of Aldoximes in Water. Chemistry – A European Journal 27, 5313-5321.

Hinzmann, A., et al., 2021. Synthetic Processes toward Nitriles without the Use of Cyanide: A Biocatalytic Concept Based on Dehydration of Aldoximes in Water. Chemistry – A European Journal, 27(17), p 5313-5321.

A. Hinzmann, et al., “Synthetic Processes toward Nitriles without the Use of Cyanide: A Biocatalytic Concept Based on Dehydration of Aldoximes in Water”, Chemistry – A European Journal, vol. 27, 2021, pp. 5313-5321.

Hinzmann, A., Betke, T., Asano, Y., Gröger, H.: Synthetic Processes toward Nitriles without the Use of Cyanide: A Biocatalytic Concept Based on Dehydration of Aldoximes in Water. Chemistry – A European Journal. 27, 5313-5321 (2021).

Hinzmann, Alessa, Betke, Tobias, Asano, Yasuhisa, and Gröger, Harald. “Synthetic Processes toward Nitriles without the Use of Cyanide: A Biocatalytic Concept Based on Dehydration of Aldoximes in Water”. Chemistry – A European Journal 27.17 (2021): 5313-5321.

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