Genetics and molecular biology of siderophore-mediated iron transport in bacteria.

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Microbiol Mol Biol Rev. 1989 December; 53(4): 517-530

Genetics and molecular biology of siderophore-mediated iron transport in bacteria.

J H Crosa

SUMMARY

The possession of specialized iron transport systems may becrucial for bacteria to override the iron limitation imposedby the host or the environment. One of the most commonly foundstrategies evolved by microorganisms is the production of siderophores,low-molecular-weight iron chelators that have very high constantsof association for their complexes with iron. Thus, siderophoresact as extracellular solubilizing agents for iron from mineralsor organic compounds, such as transferrin and lactoferrin inthe host vertebrate, under conditions of iron limitation. Transportof iron into the cell cytosol is mediated by specific membranereceptor and transport systems which recognize the iron-siderophorecomplexes. In this review I have analyzed in detail three siderophore-mediatediron uptake systems: the plasmid-encoded anguibactin systemof Vibrio anguillarum, the aerobactin-mediated iron assimilationsystem present in the pColV-K30 plasmid and in the chromosomesof many enteric bacteria, and the chromosomally encoded enterobactiniron uptake system, found in Escherichia coli, Shigella spp.,Salmonella spp., and other members of the family Enterobacteriaceae.The siderophore systems encoded by Pseudomonas aeruginosa, namely,pyochelin and pyoverdin, as well as the siderophore amonabactin,specified by Aeromonas hydrophila, are also discussed. The potentialrole of siderophore-mediated systems as virulence determinantsin the specific host-bacteria interaction leading to diseaseis also analyzed with respect to the influence of these systemsin the expression of other factors, such as toxins, in the bacterialvirulence repertoire.

Microbiol Mol Biol Rev. 1989 December; 53(4): 517-530

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