Enterobactin
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- Three Paradoxes of Ferric Enterobactin Uptake
- The Esterase Pfee, the Achilles' Heel in the Battle for Iron Between
- Bacillus Anthracis ͉ Petrobactin ͉ Siderocalin Order of 1048, BB Exhibits a Phenomenally High and Selective Affinity for Iron (15)
- Interplay Between Enterobactin, Myeloperoxidase and Lipocalin 2 Regulates E
- Enterobactin Export in Escherichia Coli Via P43 (Ents) and Associated Components
- Nickel Exposure Reduces Enterobactin Production in Escherichia Coli
- Characterization of a Catechol-Type Siderophore and the Detection of a Possible Outer Membrane Receptor Protein from Rhizobium Leguminosarum Strain IARI 312
- Binding of Ferric Enterobactin by the Escherichia Coli Periplasmic Protein Fepb CATHY SPRENCEL,1 ZHENGHUA CAO,1 ZENGBIAO QI,1 DANIEL C
- Table S1. Primers Used in This Study
- ATP-Binding Cassette Transporters in Escherichia Coli Biochimica Et
- ROS-Based Lethality of Caenorhabditis Elegans Mitochondrial Electron Transport Mutants Grown on Escherichia Coli Siderophore Iron Release Mutants
- Tricatecholamide Analogs of Enterobactin As Gallium- and Indium-Binding
- The Siderocalin/Enterobactin Interaction: a Link Between Mammalian Immunity and Bacterial Iron Transport1
- Native Electrospray-Based Metabolomics Enables the Detection of Metal-Binding 2 Compounds 3 4 Allegra Aron1,2, Daniel Petras1,2,3, Robin Schmid4, Julia M
- Coordination Chemistry of Siderophores: the Intersection of Bacterial Iron Acquisition and Host Defense
- Production and Characterization of Enterobactin-Specific Antibodies Induced by Novel Enterobactin Conjugate Vaccines
- Microbial Iron Transport Via a Siderophore Shuttle: a Membrane Ion Transport Paradigm
- Siderophore Protection Against Colicins M, B, V, and Ia in Escherichia Coli RUSH WAYNE, KEVIN FRICK, and J