Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
10822723 | Current Opinion in Structural Biology | 2005 | 7 Pages |
Abstract
The import of essential organometallic micronutrients (such as iron-siderophores and vitamin B12) across the outer membrane of Gram-negative bacteria proceeds via TonB-dependent outer membrane transporters (TBDTs). The TBDT couples to the TonB protein, which is part of a multiprotein complex in the plasma (inner) membrane. Five crystal structures of TBDTs illustrate clearly the architecture of the protein in energy-independent substrate-free and substrate-bound states. In each of the TBDT structures, an N-terminal hatch (or plug or cork) domain occludes the lumen of a 22-stranded β barrel. The manner by which substrate passes through the transporter (the 'hatch-barrel problem') is currently unknown. Solution NMR and X-ray crystallographic structures of various TonB domains indicate a striking structural plasticity of this protein. Thermodynamic, biochemical and bacteriological studies of TonB and TBDTs indicate further that existing structures do not yet capture critical energy-dependent and in vivo conformations of the transport cycle. The reconciliation of structural and non-structural experimental data, and the unambiguous experimental elucidation of a detailed molecular mechanism of transport are current challenges for this field.
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Authors
Michael C Wiener,