The cell envelope structure and properties of Mycobacterium smegmatis mc 2 155: is there a clue for the unique transformability of the strain? Mycobacterium smegmatis is often used as a surrogate host for pathogenic mycobacteria, especially since the isolation of the transformable smooth morphotype strain mc 2 155 from the isogenic rough wild-type strain ATCC 607. Biochemical analysis of the cell envelope components revealed a lack of polar glycolipids, namely the lipooligosaccharides and the polar subfamilies of glycopeptidolipids, in the mc 2 155 strain. In addition, the latter strain differs from its parent by the distribution of various species of glycolipids and phospholipids between the outermost and deeper layers of the cell envelope. The presence of filamentous and rope-like structures at the cell surface of mc 2 155 cells grown in complex media further supported an ultrastructural change in the cell envelope of the mutant. Importantly, a significantly more rapid uptake of the hydrophobic chenodeoxycholate was observed for the mutant compared to wild-type cells. Taken together, these data indicate that the nature of the surface-exposed and envelope constituents is crucial for the surface properties, cell wall permeability and bacterial phenotype, and suggest that the transformable character of the mc 2 155 strain may be in part explained by these profound modifications of its cell envelope.
The gene encoding of an alcohol dehydrogenase C (ADHC) from Mycobacterium smegmatis was cloned and sequenced. The protein encoded by this gene has 78% identity with Mycobacterium tuberculosis and Mycobacterium bovis BCG ADHC. The M. smegmatis ADHC was purified from M. smegmatis and the kinetic parameters of this enzyme showed that using NADPH as electron donor it has a strong preference for aliphatic and aromatic aldehyde substrates. Like the M. bovis BCG ADHC, this enzyme is more likely to act as an aldehyde reductase than as an alcohol dehydrogenase. The discovery of such an ADHC in a fast-growing, and easily engineered mycobacterial species opens the way to the utilisation of this M. smegmatis enzyme as a convenient model for the study of the physiological role of this alcohol dehydrogenase in mycobacteria.
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