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Biomimetic S-adenosylmethionine Regeneration Starting from Multiple Byproducts Enables Biocatalytic Alkylation with Radical Sam Enzymes
Lukas Gericke
Dipali Mhaindarkar
Lukas Christian Karst
Sören Jahn
Marco Kuge
Michael Mohr
Jana Gagsteiger
Nicolas Vincent Cornelissen
Xiaojin Wen
Silja Mordhorst
Henning Jacob Jessen
Andrea Rentmeister
Florian Peter Seebeck
Gunhild Layer
Christoph Lönarz
Jennifer Nina Andexer
出版
Universität
, 2023
URL
http://books.google.com.hk/books?id=yW8I0AEACAAJ&hl=&source=gbs_api
註釋
Abstract: S-Adenosylmethionine (SAM) is an enzyme cofactor involved in methylation, aminopropyl transfer, and radical reactions. This versatility renders SAM-dependent enzymes of great interest in biocatalysis. The usage of SAM analogues adds to this diversity. However, high cost and instability of the cofactor impedes the investigation and usage of these enzymes. While SAM regeneration protocols from the methyltransferase (MT) byproduct S-adenosylhomocysteine are available, aminopropyl transferases and radical SAM enzymes are not covered. Here, we report a set of efficient one-pot systems to supply or regenerate SAM and SAM analogues for all three enzyme classes. The systems' flexibility is showcased by the transfer of an ethyl group with a cobalamin-dependent radical SAM MT using S-adenosylethionine as a cofactor. This shows the potential of SAM (analogue) supply and regeneration for the application of diverse chemistry, as well as for mechanistic studies using cofactor analogues
