Abstract
Natural products containing nitrogen-nitrogen (N-N) bonds have attracted much attention because of their bioactivities and chemical features. Several recent studies have revealed the nitrous acid-dependent N-N bond-forming machinery. However, the catalytic mechanisms of hydrazide synthesis using nitrous acid remain unknown. Herein, we focused on spinamycin, a hydrazide-containing aryl polyene produced by Streptomyces albospinus JCM3399. In the S. albospinus genome, we discovered a putative spinamycin biosynthetic gene (spi) cluster containing genes that encode a type II polyketide synthase and genes for the secondary metabolism-specific nitrous acid biosynthesis pathway. A gene inactivation experiment showed that this cluster was responsible for spinamycin biosynthesis. A feeding experiment using stable isotope-labeled sodium nitrite and analysis of nitrous acid-synthesizing enzymes in vitro strongly indicated that one of the nitrogen atoms of the hydrazide group was derived from nitrous acid. In vitro substrate specificity analysis of SpiA3, which is responsible for loading a starter substrate onto polyketide synthase, indicated that N-N bond formation occurs after starter substrate loading. In vitro analysis showed that the AMP-dependent ligase SpiA7 catalyzes the diazotization of an amino group on a benzene ring without a hydroxy group, resulting in a highly reactive diazo intermediate, which may be the key step in hydrazide group formation. Therefore, we propose the overall biosynthetic pathway of spinamycin. This study expands our knowledge of N-N bond formation in microbial secondary metabolism.
Published Version
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