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Tistrellabactins A and B Are Photoreactive <i>C</i>-Diazeniumdiolate Siderophores from the Marine-Derived Strain <i>Tistrella mobilis</i> KA081020-065

Christina Makris, Jamie K. Leckrone, Alison Butler

2023Journal of Natural Products16 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide The C -diazeniumdiolate group in the amino acid graminine is emerging as a new microbially produced Fe(III) coordinating ligand in siderophores, which is photoreactive. While the few siderophores reported from this class have only been isolated from soil-associated microbes, here we report the first C -diazeniumdiolate siderophores tistrellabactins A and B, isolated from the bioactive marine-derived strain Tistrella mobilis KA081020-065. The structural characterization of the tistrellabactins reveals unique biosynthetic features including an NRPS module iteratively loading glutamine residues and a promiscuous adenylation domain yielding either tistrellabactin A with an asparagine residue or tistrellabactin B with an aspartic acid residue at analogous positions. Beyond the function of scavenging Fe(III) for growth, these siderophores are photoreactive upon irradiation with UV light, releasing the equivalent of nitric oxide (NO) and an H atom from the C -diazeniumdiolate group. Fe(III)-tistrellabactin is also photoreactive, with both the C -diazeniumdiolate and the β-hydroxyaspartate residues undergoing photoreactions, resulting in a photoproduct without the ability to chelate Fe(III).

Topics & Concepts

SiderophoreAdenylylationAsparagineResidue (chemistry)StereochemistryChemistryHydroxamic acidAmino acidCombinatorial chemistryOrganic chemistryBiosynthesisBiochemistryEnzymeGeneProtist diversity and phylogenyPhotosynthetic Processes and MechanismsMicrobial Fuel Cells and Bioremediation
Tistrellabactins A and B Are Photoreactive <i>C</i>-Diazeniumdiolate Siderophores from the Marine-Derived Strain <i>Tistrella mobilis</i> KA081020-065 | Litcius