Substrate profiling of anion methyltransferases for promiscuous synthesis of S-adenosylmethionine analogs from haloalkanes
Schülke KH, Ospina Sánchez F, Hörnschemeyer K, Gergel S, Hammer S (2022)
ChemBioChem 23(4): e202100632.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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Autor*in
Schülke, Kai HannesUniBi;
Ospina Sánchez, FelipeUniBi;
Hörnschemeyer, Kathrin;
Gergel, SebastianUniBi;
Hammer, StephanUniBi
Einrichtung
Projekt
DBU PhD Kai Schülke: Deutsche Bundesstiftung Umwelt: Erweiterte Cosubstrat-Biochemie: Enzymatische Synthese und Rezyklierung von SAM-Analoga für hochselektive Alkylierungschemie (Sachmittel Kai Schülke)
Emmy Noether Phase 1: New catalytic reaction development by laboratory evolution of protein-based catalysts (Emmy Noether Research Group Phase 1)
Emmy Noether Phase 1: New catalytic reaction development by laboratory evolution of protein-based catalysts (Emmy Noether Research Group Phase 1)
Abstract / Bemerkung
Biocatalytic alkylation reactions can be performed with high chemo-, regio- and stereoselectivity using S -adenosyl-l-methionine (SAM)-dependent methyltransferases (MTs) and SAM analogs. Currently, however, this methodology is limited in application due to the rather laborious protocols to access SAM analogs. It has recently been shown that halide methyltransferases (HMTs) enable synthesis and recycling of SAM analogs with readily available haloalkanes as starting material. Here we expand this work by using substrate profiling of the anion MT enzyme family to explore promiscuous SAM analog synthesis. Our study shows that anion MTs are in general very promiscuous with respect to the alkyl chain as well as the halide leaving group. Substrate profiling further suggests that promiscuous anion MTs cluster in sequence space. Next to iodoalkanes, cheaper, less toxic and more available bromoalkanes have been converted and several haloalkanes bearing short alkyl groups, alkyl rings, and functional groups such as alkene, alkyne and aromatic moieties are accepted as substrates. Further, we applied the SAM analogs as electrophiles in enzyme-catalyzed regioselective pyrazole allylation with 3-bromopropene as starting material. © 2021 Wiley-VCH GmbH.
Erscheinungsjahr
2022
Zeitschriftentitel
ChemBioChem
Band
23
Ausgabe
4
Art.-Nr.
e202100632
Urheberrecht / Lizenzen
eISSN
1439-7633
Finanzierungs-Informationen
Open-Access-Publikationskosten wurden durch die Universität Bielefeld im Rahmen des DEAL-Vertrags gefördert.
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https://pub.uni-bielefeld.de/record/2960307
Zitieren
Schülke KH, Ospina Sánchez F, Hörnschemeyer K, Gergel S, Hammer S. Substrate profiling of anion methyltransferases for promiscuous synthesis of S-adenosylmethionine analogs from haloalkanes. ChemBioChem . 2022;23(4): e202100632.
Schülke, K. H., Ospina Sánchez, F., Hörnschemeyer, K., Gergel, S., & Hammer, S. (2022). Substrate profiling of anion methyltransferases for promiscuous synthesis of S-adenosylmethionine analogs from haloalkanes. ChemBioChem , 23(4), e202100632. https://doi.org/10.1002/cbic.202100632
Schülke, Kai Hannes, Ospina Sánchez, Felipe, Hörnschemeyer, Kathrin, Gergel, Sebastian, and Hammer, Stephan. 2022. “Substrate profiling of anion methyltransferases for promiscuous synthesis of S-adenosylmethionine analogs from haloalkanes”. ChemBioChem 23 (4): e202100632.
Schülke, K. H., Ospina Sánchez, F., Hörnschemeyer, K., Gergel, S., and Hammer, S. (2022). Substrate profiling of anion methyltransferases for promiscuous synthesis of S-adenosylmethionine analogs from haloalkanes. ChemBioChem 23:e202100632.
Schülke, K.H., et al., 2022. Substrate profiling of anion methyltransferases for promiscuous synthesis of S-adenosylmethionine analogs from haloalkanes. ChemBioChem , 23(4): e202100632.
K.H. Schülke, et al., “Substrate profiling of anion methyltransferases for promiscuous synthesis of S-adenosylmethionine analogs from haloalkanes”, ChemBioChem , vol. 23, 2022, : e202100632.
Schülke, K.H., Ospina Sánchez, F., Hörnschemeyer, K., Gergel, S., Hammer, S.: Substrate profiling of anion methyltransferases for promiscuous synthesis of S-adenosylmethionine analogs from haloalkanes. ChemBioChem . 23, : e202100632 (2022).
Schülke, Kai Hannes, Ospina Sánchez, Felipe, Hörnschemeyer, Kathrin, Gergel, Sebastian, and Hammer, Stephan. “Substrate profiling of anion methyltransferases for promiscuous synthesis of S-adenosylmethionine analogs from haloalkanes”. ChemBioChem 23.4 (2022): e202100632.
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2022-07-11T07:13:46Z
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