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pubmed:abstractText |
Warburganal, a unique dialdehyde sesquiterpene isolated from East African Warburgia plants, showed a strong antifungal activity. However, this growth inhibition in Saccharomyces cerevisiae was reversed with L-cysteine. In addition, warburganal inhibited the alcoholic fermentation of S. cerevisiae while L-cysteine reversed this inhibition. When alcohol dehydrogenase, a sulfhydryl enzyme, was incubated with warburganal, the enzyme activity decreased with time. The decrease was more rapid at alkaline pH. L-Cysteine prevented this enzyme inhibition by warburganal but could not restore the enzyme activity lost already due to warburganal. Warburganal lost its characteristic ultraviolet absorption spectrum in the presence of L-cysteine. The change in absorbance was favored at alkaline pH, indicating Michael reaction type addition of L-cysteine to warburganal. Based on these observations, a variety of physiological activities due to warburganal appear to result from its irreversible reactivity with sulfhydryl groups.
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