Abstract
Fifty-three strains of M. avium and related species all produced one or more exochelins, the extracellular iron-binding compounds of the mycobacteria, when grown iron deficiently. Only those strains which could grow without the addition of mycobactin (i.e., mycobactin independent) produced mycobactin, the intracellular iron-binding compound of the mycobacteria. Exochelins varied from 20 to 2,000 micrograms per g of cell dry weight; mycobactins were between 1 and 10 mg per g of cell dry weight. M. paratuberculosis (13 strains) and 13 strains of M. avium, both species dependent upon mycobactin for growth, failed to produce spectrophotometrically detectable amounts of mycobactin (less than 0.2 microgram per g of cell dry weight), although mycobactin could be recognized in one strain of M. avium grown with an additional supply of salicylate and examined by a radiolabeling technique. On repeated subculture three of the mycobactin-dependent strains of M. avium, but none of those of M. paratuberculosis, lost their mycobactin dependence and on reexamination were found to produce their own mycobactin at 0.3 mg per g of cell dry weight. It is concluded that mycobactin biosynthesis is probably strongly repressed in the mycobactin-dependent strains rather than being a genetic deletion. The exochelins, when examined by high-pressure thin-layer chromatography were revealed as being multiples of similar compounds, with up to 20 individual iron-binding compounds being recognizable with some strains. It is argued that the exochelins represent the single most important means of iron acquisition in mycobacteria growing in vitro and in vivo, and their elaboration by the fastidious M. paratuberculosis and related species explains how these organisms are able to grow in vivo in the absence of an external supply of mycobactin.
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