Robin B Kinnel1, Eduardo Esquenazi, Tiago Leao, Nathan Moss, Emily Mevers, Alban R Pereira, Emily A Monroe2, Anton Korobeynikov3, Thomas F Murray4, David Sherman5, Lena Gerwick, Pieter C Dorrestein, William H Gerwick. 1. Department of Chemistry, Hamilton College , Clinton, New York 13323, United States. 2. Department of Biology, William Paterson University of New Jersey , Wayne, New Jersey 07470, United States. 3. Faculty of Mathematics and Mechanics and Center for Algorithmic Biotechnology, Saint Petersburg State University , Saint Petersburg 199034, Russia. 4. School of Medicine, Department of Pharmacology, Creighton University , Omaha, Nebraska 68178, United States. 5. Life Sciences Institute, University of Michigan , Ann Arbor, Michigan 48109, United States.
Abstract
Genome sequencing of microorganisms has revealed a greatly increased capacity for natural products biosynthesis than was previously recognized from compound isolation efforts alone. Hence, new methods are needed for the discovery and description of this hidden secondary metabolite potential. Here we show that provision of heavy nitrogen 15N-nitrate to marine cyanobacterial cultures followed by single-filament MALDI analysis over a period of days was highly effective in identifying a new natural product with an exceptionally high nitrogen content. The compound, named cryptomaldamide, was subsequently isolated using MS to guide the purification process, and its structure determined by 2D NMR and other spectroscopic and chromatographic methods. Bioinformatic analysis of the draft genome sequence identified a 28.7 kB gene cluster that putatively encodes for cryptomaldamide biosynthesis. Notably, an amidinotransferase is proposed to initiate the biosynthetic process by transferring an amidino group from arginine to serine to produce the first residue to be incorporated by the hybrid NRPS-PKS pathway. The maldiisotopic approach presented here is thus demonstrated to provide an orthogonal method by which to discover novel chemical diversity from Nature.
Genome sequencing of microorganisms has revealed a greatly increased capacity for natural products biosynthesis than was previously recognized from compound isolation efforts alone. Hence, new methods are needed for the discovery and description of this hidden secondary metabolite potential. Here we show that provision of heavy n class="Chemical">nitrogen15N-nitrate to marine cyanobacterial cultures followed by single-filament MALDI analysis over a period of days was highly effective in identifying a new natural product with an exceptionally high nitrogen content. The compound, named cryptomaldamide, was subsequently isolated using MS to guide the purification process, and its structure determined by 2D NMR and other spectroscopic and chromatographic methods. Bioinformatic analysis of the draft genome sequence identified a 28.7 kB gene cluster that putatively encodes for cryptomaldamide biosynthesis. Notably, an amidinotransferase is proposed to initiate the biosynthetic process by transferring an amidino group from arginine to serine to produce the first residue to be incorporated by the hybrid NRPS-PKS pathway. The maldiisotopic approach presented here is thus demonstrated to provide an orthogonal method by which to discover novel chemical diversity from Nature.
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