Bioinformatics and modelling studies of FhuD, the periplasmic siderophore binding protein from the plant pathogen Erwinia amylovora
Sharda Bharti, Lavinia Carlini, Alfonso Esposito, Stefano Benini, Abhijeet Shankar Kashyap, Abhijeet Shankar Kashyap, Abhijeet Shankar Kashyap

TL;DR
This paper studies the FhuD protein in Erwinia amylovora, a plant pathogen, to understand how it helps the bacteria acquire iron through siderophores.
Contribution
The study provides a 3D model of FhuD_Ea and identifies conserved residues and binding flexibility for diverse siderophores.
Findings
FhuD_Ea's structure shows conserved residues and a flexible ligand-binding pocket.
Molecular docking reveals FhuD_Ea preferentially binds hydroxamate-type siderophores like ferrioxamine.
Phylogenetic analysis shows no clear division between Gram-positive and Gram-negative orthologs.
Abstract
Erwinia amylovora, a Gram-negative phytopathogenic bacterium, is the etiological agent of fire blight in apples and pears. Key virulence factors include the exopolysaccharide amylovoran, the type III secretion system, and siderophore-mediated iron uptake. Within the iron uptake pathway, the periplasmic siderophore binding protein FhuD, unique to Erwinia species infecting Rosaceae, plays a vital role in transporting iron-loaded siderophores to the inner periplasmic membrane, making it a crucial target for structural and functional characterization. This article presents the predicted 3D model of FhuD from E. amylovora (FhuD_Ea), along with the sequence analyses and structural comparison of its homologs from eight organisms whose structures are available in the PDB. We also performed bioinformatics analysis on protein sequences of 145 orthologs. Despite the low sequence identity, the…
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Taxonomy
TopicsPlant Pathogenic Bacteria Studies · Legume Nitrogen Fixing Symbiosis · Plant-Microbe Interactions and Immunity
