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Abstract Selenium-containing nucleosides are the building blocks of the Se-nucleic acids useful for structure-and-function study, drug discovery and for targeting nucleic acids and their protein complexes. However, chemical synthesis of… Click to show full abstract
Abstract Selenium-containing nucleosides are the building blocks of the Se-nucleic acids useful for structure-and-function study, drug discovery and for targeting nucleic acids and their protein complexes. However, chemical synthesis of these Se-containing nucleosides is labor-intensive and provides low overall yields. Thus, we decided to explore biocatalytic synthesis of the modified nucleosides (such as Se-nucleosides) by employing thermostable nucleoside phosphorylases from thermophilic microorganisms. We were surprised to discover that these enzymes can still recognize the nucleobases containing rather larger atoms, Se vs O atom. These enzymes also showed excellent adaptability to some modified purines with high substrate conversion (up to 97%).
Journal Title: Catalysis Communications
Year Published: 2019
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