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Iron Transport and Metabolism in Escherichia, Shigella, and Salmonella

Alexandra R. Mey, Camilo Gómez-Garzón, Shelley M. Payne

2021EcoSal Plus64 citationsDOIOpen Access PDF

Abstract

species. The acquisition of sufficient amounts of iron is difficult in many environments, including the intestinal tract, where these bacteria usually reside. Members of these genera have multiple iron transport systems to transport both ferrous and ferric iron. These include transporters for free ferrous iron, ferric iron associated with chelators, and heme. The numbers and types of transport systems in any species reflect the diversity of niches that it can inhabit. Many of the iron transport genes are found on mobile genetic elements or pathogenicity islands, and there is evidence of the spread of the genes among different species and pathotypes. This is notable among the pathogenic members of the genera in which iron transport systems acquired by horizontal gene transfer allow the bacteria to overcome host innate defenses that act to restrict the availability of iron to the pathogen. The need for iron is balanced by the need to avoid iron overload since excess iron is toxic to the cell. Genes for iron transport and metabolism are tightly regulated and respond to environmental cues, including iron availability, oxygen, and temperature. Master regulators, the iron sensor Fur and the Fur-regulated small RNA (sRNA) RyhB, coordinate the expression of iron transport and cellular metabolism genes in response to the availability of iron.

Topics & Concepts

FerrousBacteriaMetabolismSiderophoreGeneBiologyFerricSalmonellaDMT1BiochemistryIron deficiencyChemistryPathogenicity islandMicrobiologyIron-binding proteinsEscherichia coliHorizontal gene transferTransporterEnterobactinGene expressionIron supplementCell biologyGeneticsRegulation of gene expressionMembrane transport proteinGene poolFerroportinBacterial Genetics and BiotechnologyMicrobial Fuel Cells and BioremediationChromium effects and bioremediation