P.E.Klebba, Three Paradoxes of Ferric Enterobactin Uptake Phillip E. Klebba* Department of Chemistry - Enterobactin - Document - PDFSEARCH.IO - Document Search Engine

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	P.E.Klebba, Three Paradoxes of Ferric Enterobactin Uptake Phillip E. Klebba* Department of Chemistry & Biochemistry, Add to Reading List Document Date: 2003-02-04 15:12:02 Open Document File Size: 1,82 MB Share Result on Facebook City Met / Norman / / Company FepA / Protein Data Bank / Ball / Ligand / / Country United States / / Currency USD / / / Facility terminus of FepA / FepA vestibule / University of Oklahoma / TonB-ExbBExbD complex / / / IndustryTerm metal / procaryotic systems / cellular energy fall / energy-dependent conformational changes / metal complex / metal transport / chemical properties / hydroxamate metal complexes / cellular energy / inappropriate metal complexes / elaborate cell envelope systems / iron acquisition systems / energy-dependence / adsorption site / basic residues / metal center / energy generation / cell envelope iron uptake systems / chemical / metal complexes / aqueous solution / metal transporters / chemical modifications / energy / / OperatingSystem L3 / / Organization University of Oklahoma / Institut Necker / Ferric Enterobactin Uptake Phillip E. Klebba* Department of Chemistry & Biochemistry / / Person Phillip E. Klebba / Enfants Malades / / / Position *Corresponding author / general / specific and ligand-gated porins / / Product FhuA / FepA FhuA / / ProvinceOrState Oklahoma / / Technology thermodynamics / DNA synthesis / antibodies / directed mutagenesis / / URL http / SocialTag Protein domains Protein families TonB-dependent receptors Macrocycles Protein structure Peripheral membrane proteins Transmembrane protein Siderophore Enterobactin Biology