Litcius/Paper detail

Frankobactin Metallophores Produced by Nitrogen-Fixing <i>Frankia</i> Actinobacteria Function in Toxic Metal Sequestration

Jan Mohr, Florian Baldeweg, Michael Deicke, Cristina F. Morales‐Reyes, Dirk Hoffmeister, Thomas Wichard

2021Journal of Natural Products20 citationsDOI

Abstract

A series of new metallophores, referred to as frankobactins, were extracted from cultures of the symbiotic and nitrogen-fixing actinobacterium Frankia sp. CH37. Structure elucidation revealed a 2-hydroxyphenyl-substituted oxazoline core and a chain composed of five proteinogenic and nonproteinogenic amino acids, suggesting nonribosomal peptide synthesis as the biosynthetic origin. By whole-genome sequencing, bioinformatic analysis, and comparison with other Frankia strains, the genetic locus responsible for the biosynthesis was detected. Spectrophotometric titration of frankobactin with Fe(III) and Cu(II) and mass spectrometry established the 1:1 (metal:frankobactin) coordination. Uptake experiments suggested that frankobactin A1 (1) did not serve to recruit iron, but to detoxify Cu(II). As frankobactin A1 prevents the cellular entry of Cu(II), it could play a crucial role in the symbiosis of Frankia sp. and its host in the reclamation of copper-contaminated soil.

Topics & Concepts

FrankiaNitrogen fixationActinobacteriaBiologyNonribosomal peptideSymbiosisHyperaccumulatorBiosynthesisChemistryMicrobiologyBotanyBiochemistryBacteriaGeneRoot noduleGeneticsPhytoremediation16S ribosomal RNAContaminationEcologyLegume Nitrogen Fixing SymbiosisPlant-Microbe Interactions and ImmunityPlant nutrient uptake and metabolism