Structural basis of the L-carnitine/ -butyrobetaine transport in CaiT

Specialized transport proteins in the lipid bilayer perform the translocation of solutes across biological membranes. The prokaryotic L-carnitine/Gamma-butyrobetaine transporter CaiT is a member of the betaine/carnitine/choline transporter (BCCT) family. However, CaiT is an interesting exception within the BCCT family since the transporter functions as a Na+- and H+- independent antiporter, while most members of the BCCT family require either an additional sodium ion or a proton to transport substrates into the cell. The three-dimensional X-ray crystal structure of CaiT reveals two different substrate-binding sites within the protein and provides insights into important residues that directly interact with the two substrates L-carnitine and Gamma-butyrobetaine and enable substrate binding and transport without the need of an additional cation. The comparison of two three-dimension CaiT structures in two different states together with results obtained from functional studies allowed the formulation of a model for the allosterically regulated substrate/product antiport mechanism in CaiT, which is also very likely conserved in eukaryotic L-carnitine transporters.

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Curriculum Vitae: 2005-2010 PhD Thesis at the MPI of Biophysics, Dep. Structural Biology, and Johann-Wolfgang Goethe University, Frankfurt; Supervisor: Prof. Dr. Werner Kühlbrandt2004-2005 Diploma Thesis at the MPI of Physiology, Dep. Structural Biology, Dortmund, and Ruhr-University Bochum; Supervisor: Prof. Dr. Alfred Wittinghofer