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Emergence of Ferrichelatase Activity in a Siderophore-Binding Protein Supports an Iron Shuttle in Bacteria

Nathaniel P. Endicott, Gerry Sann M. Rivera, Jinping Yang, Timothy A. Wencewicz

2020ACS Central Science29 citationsDOIOpen Access PDF

Abstract

-SBPs to non-reductively extract ferric iron directly from host metalloproteins with so-called "ferrichelatase" activity. The resulting SBP-bound ferric siderophore complex is ready for import through an associated membrane permease and enzymatic turnover is achieved through cofactor replacement from the readily available pool of extracellular siderophores. This new "iron shuttle" model closes a major knowledge gap in microbial iron acquisition and defines new roles of the siderophore and SBP as cofactor and enzyme, respectively, in addition to the classically accepted roles as a transport substrate and receptor pair. We propose the formal name "siderophore-dependent ferrichelatases" for this new class of catalytic SBPs.

Topics & Concepts

SiderophorePermeaseFerricBiochemistryBacteriaCofactorEnterobactinFerrichromeBiologyCell envelopeChemistryBacterial outer membraneMicrobiologyEnzymeEscherichia coliGeneticsOrganic chemistryGeneBacterial Genetics and BiotechnologyAntibiotic Resistance in BacteriaLegume Nitrogen Fixing Symbiosis
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