Abstract
We have subcloned a portion of the Escherichia coli mtlA gene encoding the hydrophilic, C-terminal domain of the mannitol-specific enzyme II (mannitol permease; molecular mass, 68 kilodaltons [kDa]) of the phosphoenolpyruvate-dependent carbohydrate phosphotransferase system. This mtlA fragment, encoding residues 379 to 637 (residue 637 = C terminus), was cloned in frame into the expression vector pCQV2 immediately downstream from the lambda pr promoter of the vector, which also encodes a temperature-sensitive lambda repressor. E. coli cells carrying a chromosomal deletion in mtlA (strain LGS322) and harboring this recombinant plasmid, pDW1, expressed a 28-kDa protein cross-reacting with antipermease antibody when grown at 42 degrees C but not when grown at 32 degrees C. This protein was relatively stable and could be phosphorylated in vitro by the general phospho-carrier protein of the phosphotransferase system, phospho-HPr. Thus, this fragment of the permease, when expressed in the absence of the hydrophobic, membrane-bound N-terminal domain, can apparently fold into a conformation resembling that of the C-terminal domain of the intact permease. When transformed into LGS322 cells harboring plasmid pGJ9-delta 137, which encodes a C-terminally truncated and inactive permease (residues 1 to ca. 480; molecular mass, 51 kDa), pDW1 conferred a mannitol-positive phenotype to this strain when grown at 42 degrees C but not when grown at 32 degrees C. This strain also exhibited phosphoenolpyruvate-dependent mannitol phosphorylation activity only when grown at the higher temperature. In contrast, pDW1 could not complement a plasmid encoding the complementary N-terminal part of the permease (residues 1 to 377). The pathway of phosphorylation of mannitol by the combined protein products of pGJ9-delta 137 and pDPW1 was also investigated by using N-ethylmaleimide to inactivate the second phosphorylation sites of these permease fragments (proposed to be Cys-384). These results are discussed with respect to the domain structure of the permease and its mechanism of transport and phosphorylation.