Asymmetric Synthesis of Nodulones C & D by Chemoenzymatic Approach gives Insight into their Biosynthesis

ChemRxiv : the preprint server for chemistry Pub Date : 2021-09-24 DOI:10.33774/chemrxiv-2021-3hr0t
T. Manna, Anshul Rajput, N. Saha, A. Mondal, S. Husain
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Abstract

The first asymmetric total synthesis of fungal secondary metabolites, (R)-nodulone C (4) and trans-nodulone D (5) has been reported through the chemoenzymatic approach. The strategy utilizes NADPH-dependent naphthol reductases of Magnaporthe grisea for the reduction of putative biosynthetic substrates, synthesized non-enzymatically in multiple steps. A dihydronaphthalenone 32 and cis-nodulone D (30) has also been synthesized chemoenzymatically. The work implies for similar steps during the biosynthesis of nodulones and their analogs with the involvement of tetrahydroxynaphthalene reductase related enzyme(s).
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化学酶法不对称合成结节酮C和D的研究为其生物合成提供了新的视角
首次报道了真菌次生代谢产物(R)-结节隆C(4)和反式结节隆D(5)的不对称全合成。该策略利用稻瘟病菌的NADPH依赖性萘酚还原酶来还原假定的生物合成底物,这些底物是通过多个步骤非酶合成的。化学酶法合成了二氢萘酮32和顺式结节酮D(30)。这项工作意味着在四羟基萘还原酶相关酶的参与下,在根瘤菌素及其类似物的生物合成过程中也有类似的步骤。
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ChemRxiv : the preprint server for chemistry
ChemRxiv : the preprint server for chemistry
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