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Iron acquisition in the marine actinomycete genus Salinispora is controlled by the desferrioxamine family of siderophores.


ABSTRACT: Many bacteria produce siderophores for sequestration of growth-essential iron. Analysis of the Salinispora genomes suggests that these marine actinomycetes support multiple hydroxamate- and phenolate-type siderophore pathways. We isolated and characterized desferrioxamines (DFOs) B and E from all three recognized Salinispora species and linked their biosyntheses in S. tropica CNB-440 and S. arenicola CNS-205 to the des locus through PCR-directed mutagenesis. Gene inactivation of the predicted iron-chelator biosynthetic loci sid2-4 did not abolish siderophore chemistry. Additionally, these pathways could not restore the native growth characteristics of the des mutants in iron-limited media, although differential iron-dependent regulation was observed for the yersiniabactin-like sid2 pathway. Consequently, this study indicates that DFOs are the primary siderophores in laboratory cultures of Salinispora.

SUBMITTER: Roberts AA 

PROVIDER: S-EPMC4209017 | biostudies-literature | 2012 Oct

REPOSITORIES: biostudies-literature

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Iron acquisition in the marine actinomycete genus Salinispora is controlled by the desferrioxamine family of siderophores.

Roberts Alexandra A AA   Schultz Andrew W AW   Kersten Roland D RD   Dorrestein Pieter C PC   Moore Bradley S BS  

FEMS microbiology letters 20120814 2


Many bacteria produce siderophores for sequestration of growth-essential iron. Analysis of the Salinispora genomes suggests that these marine actinomycetes support multiple hydroxamate- and phenolate-type siderophore pathways. We isolated and characterized desferrioxamines (DFOs) B and E from all three recognized Salinispora species and linked their biosyntheses in S. tropica CNB-440 and S. arenicola CNS-205 to the des locus through PCR-directed mutagenesis. Gene inactivation of the predicted ir  ...[more]

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