We describe the identification of the gene encoding an immunodominant 32-kilodalton (kDa) protein of Mycobacterium tuberculosis. The 32-kDa antigen is abundantly secreted into the culture supernatant of a variety of mycobacteria and appears to be a major stimulant of cellular and humoral immunity against mycobacteria. Recombinant clones expressing a 140or 125-kDa j8-galactosidase fusion protein reactive with rabbit polyclonal anti-32 kDa protein serum were detected. The corresponding DNA sequence contains a 1,008-base-pair coding region. The deduced amino acid sequence corresponds to a 336-residue protein including the previously determined NH2-terminal sequence of the 32-kDa protein (Microb. Pathog. 2:351-366, 1987). Upstream of this NH2-terminal region, the gene codes for a signal peptide required for the secretion of a 294-amino-acid-long mature protein. A putative promotor sequence could be located upstream of the open reading frame. Comparison of the M. tuberculosis 32-kDa antigen with the Mycobacterium bovis BCG a-antigen (K. 170:3847-3854, 1988) revealed 73.8% homology between DNA sequences and 72.8% homology between amino acid sequences (signal and mature protein). Finally, the 140-kDa fusion protein could selectively be recognized by human tuberculous sera. This result confirms our previous finding that the 32-kDa antigen could be a valuable tool for the serological diagnosis of tuberculosis. Moreover, the availability of recombinant proteins opens perspectives for the localization of relevant B-and T-cell epitope regions on the 32-kDa antigen.
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