期刊
STRUCTURE WITH FOLDING & DESIGN
卷 8, 期 1, 页码 57-66出版社
CURRENT BIOLOGY LTD
DOI: 10.1016/S0969-2126(00)00079-4
关键词
beta propeller; E colicins; protein-protein interaction; TolB; translocation
Background: E colicin proteins have three functional domains, each of which is implicated in one of the stages of killing Escherichia coli cells: receptor binding, translocation and cytotoxicity. The central (R) domain is responsible for receptor-binding activity whereas the N-terminal (T) domain mediates translocation, the process by which the C-terminal cytotoxic domain is transported from the receptor to the site of its cytotoxicity. The translocation of enzymatic E colicins like colicin E9 is dependent upon TolB but the details of the process are not known. Results: We have demonstrated a protein-protein interaction between the T domain of colicin E9 and TolB, an essential component of the tol-dependent translocation system in E. coli, using the yeast two-hybrid system. The crystal structure of TolB, a procaryotic tryptophan-aspartate (WD) repeat protein, reveals an N-terminal alpha+beta domain based on a five-stranded mixed beta sheet and a C-terminal six-bladed beta-propeller domain. Conclusions: The results suggest that the TolB-box residues of the T domain of colicin ES interact with the beta-propeller domain of TolB. The protein-protein interactions of other beta-propeller-containing proteins, the yeast yPrp4 protein and G proteins, are mediated by the loops or outer sheets of the propeller blades. The determination of the three-dimensional structure of the T domain-TolB complex and the isolation of mutations in TolB that abolish the interaction with the T domain will reveal fine details of the protein-protein interaction of TolB and the T domain of E colicins.
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