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Enzymatic synthesis of -adenosyl--homocysteine and its nucleoside analogs from racemic homocysteine thiolactone

S -Adenosyl methionine (SAM)-dependent methyltransferases hold significant potential as tools for the biocatalytic synthesis of complex molecules due to their ability to methylate or alkylate substrates with high regio-, chemo-, and stereoselectivity. Recent advancements in enzyme-catalyzed S -methy...

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Published in:Chemical science (Cambridge) 2024-10, Vol.15 (38), p.159-1596
Main Authors: Wen, Xiaojin, Leopold, Viviane, Seebeck, Florian P
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Summary:S -Adenosyl methionine (SAM)-dependent methyltransferases hold significant potential as tools for the biocatalytic synthesis of complex molecules due to their ability to methylate or alkylate substrates with high regio-, chemo-, and stereoselectivity. Recent advancements in enzyme-catalyzed S -methylation and S -alkylation of S -adenosyl homocysteine (SAH) using synthetic alkylation agents have expanded the scope of methyltransferases in preparative biocatalysis. This development has transformed SAH from an unwanted byproduct into a crucial - and currently expensive - reagent. In this report, we present a simple and scalable one-pot synthesis of SAH, starting from racemic homocysteine thiolactone and adenosine. This process is catalyzed by recombinant α-amino- -caprolactam racemase, bleomycin hydrolase, and SAH hydrolase. The reaction proceeds to completion with near-stoichiometric mixtures of reactants, driven by the irreversible and stereoselective hydrolysis of thiolactone, followed by the thermodynamically favorable condensation of homocysteine with adenosine. We demonstrate that this method can be utilized to supplement preparative methylation reactions with SAH as a cofactor, as well as to synthesize and screen S -nucleosyl homocysteine derivatives in the search for stabilized SAM analogs. One-pot enzyme-catalyzed synthesis of S -adenosyl homocysteine and derivatives thereof from racemic homocysteine thiolactone and adenosine or other nucleosides provides simple and scalable access to cofactors for methyltransferase biocatalysis.
ISSN:2041-6520
2041-6539
DOI:10.1039/d4sc03801k