AI Article Synopsis
- The outer membranes of Gram-negative bacteria contain transport proteins that help in absorbing limited nutrients, specifically through the TonB-dependent transporters that interact with an inner membrane protein to facilitate active transport.
- A key process in this transport mechanism is the structural change that occurs in the Ton box upon substrate binding, which enhances its affinity for the TonB protein.
- Researchers have determined the crystal structures of the BtuB transporter in different states, revealing that calcium ions play an essential role in stabilizing the protein's structure and enhancing the binding of cyanocobalamin (vitamin B12).
Article Abstract
The outer membranes of Gram-negative bacteria possess transport proteins essential for uptake of scarce nutrients. In TonB-dependent transporters, a conserved sequence of seven residues, the Ton box, faces the periplasm and interacts with the inner membrane TonB protein to energize an active transport cycle. A critical mechanistic step is the structural change in the Ton box of the transporter upon substrate binding; this essential transmembrane signaling event increases the affinity of the transporter for TonB and enables active transport to proceed. We have solved crystal structures of BtuB, the outer membrane cobalamin transporter from Escherichia coli, in the absence and presence of cyanocobalamin (vitamin B(12)). In these structures, the Ton box is ordered and undergoes a conformational change in the presence of bound substrate. Calcium has been implicated as a necessary factor for the high-affinity binding (K(d) approximately 0.3 nM) of cyanocobalamin to BtuB. We observe two bound calcium ions that order three extracellular loops of BtuB, thus providing a direct (and unusual) structural role for calcium.
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| http://dx.doi.org/10.1038/nsb914 | DOI Listing |
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