Biosynthesis and Cellular Distribution of the Two Superoxide Dismutases of Dactylium dendroides

Autor: Shatzman, Allan R., Kosman, Daniel J.
Zdroj: Journal of Bacteriology; January 1979, Vol. 137 Issue: 1 p313-320, 8p
Abstrakt: The synthesis and subcellular localization of the two superoxide dismutases of Dactylium dendroideswere studied in relation to changes in copper and manganese availability. Cultures grew normally at all medium copper concentrations used (10 nM to 1 mM). In the presence of high (10 μM) copper, manganese was poorly absorbed in comparison to the other metals in the medium. However, cells grown at 10 nM copper exhibited a 3.5-fold increase in manganese content, while the concentration of the other metals remained constant. Cultures grown at 10 nM copper or more had 80% Cu/Zn enzyme and 20% mangani enzyme; the former was entirely in the cytosol, and the latter was mitochondrial. Removal of copper from the medium resulted in decreased Cu/Zn superoxide dismutase synthesis with a concomitant increase in the mangani enzyme such that total cellular superoxide dismutase activity remained constant. The mangani enzyme in excess of the 20% was present in the non-mitochondrial fraction. The mitochondria, therefore, show no variability with respect to superoxide dismutase content, whereas the soluble fraction varies from 100 to 13% Cu/Zn superoxide dismutase. Copper-starved cells that were synthesizing predominantly mangani superoxide dismutase could be switched over to mostly Cu/Zn superoxide dismutase synthesis by supplementing the medium with copper during growth. Immunoprecipitation experiments suggest that the decrease in Cu/Zn activity at low copper concentration is a result of decreased synthesis of that protein rather than the production of an inactive apoprotein.
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