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  • Title: Identification of Biosynthetic and Metabolic Genes of 2-Azahypoxanthine in Lepista sordida Based on Transcriptomic Analysis.
    Author: Kotajima M, Choi JH, Suzuki H, Suzuki T, Wu J, Hirai H, Nelson DC, Ouchi H, Inai M, Dohra H, Kawagishi H.
    Journal: J Nat Prod; 2023 Apr 28; 86(4):710-718. PubMed ID: 36802627.
    Abstract:
    2-Azahypoxanthine was isolated from the fairy ring-forming fungus Lepista sordida as a fairy ring-inducing compound. 2-Azahypoxanthine has an unprecedented 1,2,3-triazine moiety, and its biosynthetic pathway is unknown. The biosynthetic genes for 2-azahypoxanthine formation in L. sordida were predicted by a differential gene expression analysis using MiSeq. The results revealed that several genes in the purine and histidine metabolic pathways and the arginine biosynthetic pathway are involved in the biosynthesis of 2-azahypoxanthine. Furthermore, nitric oxide (NO) was produced by recombinant NO synthase 5 (rNOS5), suggesting that NOS5 can be the enzyme involved in the formation of 1,2,3-triazine. The gene encoding hypoxanthine-guanine phosphoribosyltransferase (HGPRT), one of the major phosphoribosyltransferases of purine metabolism, increased when 2-azahypoxanthine content was the highest. Therefore, we hypothesized that HGPRT might catalyze a reversible reaction between 2-azahypoxanthine and 2-azahypoxanthine-ribonucleotide. We proved the endogenous existence of 2-azahypoxanthine-ribonucleotide in L. sordida mycelia by LC-MS/MS for the first time. Furthermore, it was shown that recombinant HGPRT catalyzed reversible interconversion between 2-azahypoxanthine and 2-azahypoxanthine-ribonucleotide. These findings demonstrate that HGPRT can be involved in the biosynthesis of 2-azahypoxanthine via 2-azahypoxanthine-ribonucleotide generated by NOS5.
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