1985 Volume 49 Issue 9 Pages 2597-2603
An Escherichia coli C600 mutant having an altered D-xylose uptake activity was isolated. The growth rate and D-xylose uptake activity of the mutant grown on the minimal medium with D-xylose at 25°C were much lower than those of the parental strain grown under the same conditions, although the activities of D-xylose-binding proteins and the enzymes involved in D-xylose metabolism were almost the same for the two strains. An uptake study on sugars at the low temperature (25°C) indicated that the mutant was deficient in D-xylose uptake activity. A gene responsible for the D-xylose uptake activity at the low temperature was isolated and cloned onto vector plasmid pBR322. The gene specifically improved the D-xylose uptake activity of the mutant at the low temperature when it was introduced into the mutant cells. Based on these results, it was suggested that another D-xylose transport system other than the D-xylose-binding protein mediated system might be functioning in E. coli cells.
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