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Identification of Transport-critical Residues in a Folate Transporter from the Folate-Biopterin Transporter (FBT) Family
Authors:Aymerick Eudes   Edmund R. S. Kunji   Alexandre Noiriel   Sebastian M. J. Klaus   Tim J. Vickers   Stephen M. Beverley   Jesse F. Gregory   III     Andrew D. Hanson
Affiliation:From the Horticultural Sciences and ;Food Science and Human Nutrition Departments, University of Florida, Gainesville, Florida 32611, ;the §Mitochondrial Biology Unit, Medical Research Council, Hills Road, Cambridge CB2 0XY, United Kingdom, and ;the Department of Molecular Microbiology, Washington University School of Medicine, St. Louis, Missouri 63110
Abstract:The Synechocystis Slr0642 protein and its plastidial Arabidopsis (Arabidopsis thaliana) ortholog At2g32040 belong to the folate-biopterin transporter (FBT) family within the major facilitator superfamily. Both proteins transport folates when expressed in Escherichia coli. Because the structural requirements for transport activity are not known for any FBT protein, we applied mutational analysis to identify residues that are critical to transport and interpreted the results using a comparative structural model based on E. coli lactose permease. Folate transport was assessed via the growth of an E. coli pabA abgT strain, which cannot synthesize or take up folates or p-aminobenzoylglutamate. In total, 47 residues were replaced with Cys or Ala. Mutations at 22 positions abolished folate uptake without affecting Slr0642 expression in membranes, whereas other mutations had no effect. Residues important for function mostly line the predicted central cavity and are concentrated in the core α-helices H1, H4, H7, and H10. The essential residue locations are consistent with a folate-binding site lying roughly equidistant from both faces of the transporter. Arabidopsis has eight FBT proteins besides At2g32040, often lacking conserved critical residues. When six of these proteins were expressed in E. coli or in Leishmania folate or pterin transporter mutants, none showed evidence of folate or pterin transport activity, and only At2g32040 was isolated by functional screening of Arabidopsis cDNA libraries in E. coli. Such negative data could reflect roles in transport of other substrates. These studies provide the first insights into the native structure and catalytic mechanism of FBT family carriers.
Keywords:Membrane/Proteins   Organisms/Bacteria   Organisms/Plant   Organisms/Protozoan   Transport   Transport/Folates
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