[No authors listed]
Enzyme I (EI) is the first protein in the phosphotransfer sequence of the bacterial phosphoenolpyruvate:glycose phosphotransferase system. This system catalyzes sugar phosphorylation/transport and is stringently regulated. Since EI homodimer accepts the phosphoryl group from phosphoenolpyruvate (PEP), whereas the monomer does not, EI may be a major factor in controlling sugar uptake. Previous work from this and other laboratories (e.g. Dimitrova, M. N., Szczepanowski, R. H., Ruvinov, S. B., Peterkofsky, A., and Ginsburg A. (2002) Biochem. 41, 906-913), indicate that K(a) is sensitive to several parameters. We report here a systematic study of K(a) determined by sedimentation equilibrium, which showed that it varied by 1000-fold, responding to virtually every parameter tested, including temperature, phosphorylation, pH (6.5 versus 7.5), ionic strength, and especially the ligands Mg(2+) and PEP. This variability may be required for a regulatory protein. Further insight was gained by analyzing EI by sedimentation velocity, by near UV CD spectroscopy, and with a nonphosphorylatable active site mutant, EI-H189Q, which behaved virtually identically to EI. The singular properties of EI are explained by a model consistent with the results reported here and in the accompanying paper (Patel, H. V., Vyas, K. A., Mattoo, R. L., Southworth, M., Perler, F. B., Comb, D., and Roseman, S. (2006) J. Biol. Chem. 281, 17579-17587). We suggest that EI and EI-H189Q each comprise a multiplicity of conformers and progressively fewer conformers as they dimerize and bind Mg(2+) and finally PEP. Mg(2+) alone induces small or no detectable changes in structure, but large conformational changes ensue with Mg(2+)/PEP. This effect is explained by a "swiveling mechanism" (similar to that suggested for pyruvate phosphate dikinase (Herzberg, O., Chen, C. C., Kapadia, G., McGuire, M., Carroll, L. J., Noh, S. J., and Dunaway-Mariano, D. (1996) Proc. Natl. Acad. Sci. U. S. A. 93, 2652-2657)), which brings the C-terminal domain with the two bound ligands close to the active site His(189).
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