Crystal structures of EfeB and EfeO in a bacterial siderophore-independent iron transport system

Abstract

EfeUOB is a siderophore-independent iron uptake mechanism in bacteria. EfeU, EfeO, and EfeB are a permease, an iron-binding or electron-transfer protein, and a peroxidase, respectively. A Gram-negative bacterium, Sphingomonas sp. strain A1, encodes EfeU, EfeO, EfeB together with alginate-binding protein Algp7, a truncated EfeO-like protein (EfeOII), in the genome. The typical EfeO (EfeOI) consists of N-terminal cupredoxin and C-terminal M75 peptidase domains. Here, we detail the structure and function of bacterial EfeB and EfeO. Crystal structures of strain A1 EfeB and Escherichia coli EfeOI were determined at 2.30 Å and 1.85 Å resolutions, respectively. A molecule of heme involved in oxidase activity was bound to the C-terminal Dyp peroxidase domain of EfeB. Two domains of EfeOI were connected by a short loop, and a zinc ion was bound to four residues, Glu156, Glu159, Asp173, and Glu255, in the C-terminal M75 peptidase domain. These residues formed tetrahedron geometry suitable for metal binding and are well conserved among various EfeO proteins including Algp7 (EfeOII), although the metal-binding site (HxxE) is proposed in the C-terminal M75 peptidase domain. This is the first report on structure of a typical EfeO with two domains, postulating a novel metal-binding motif “ExxE-//-D-//-E” in the EfeO C-terminal M75 peptidase domain.