Overexpression of a novel Arabidopsis gene related to putative zinc-transporter genes from animals can lead to enhanced zinc resistance and accumulation.

Microbial Biotechnolog

Cyanotypic frequencies in adjacent and mixed populations of Trifolium occidentale Coombe and Trifolium repens L. are regulated by different mechanisms.

The cyanogenic polymorphism in Trifolium repens is caused by the variation in two genes, the interaction of which produces four distinct cyanotypes. Along the Atlantic coasts of Bretagne, T. repens is sometimes found in populations mixed with the related species Trifolium occidentale, although the latter species usually occurs only in a narrow fringe along the coast, whereas T. repens is a more inland species. No plants of T. occidentale have ever been reported to have linamarase activity. Indeed, of 763 T. occidentale plants studied, none contained linamarase activity. However, the variation in the proportion of cyanotypes in T. repens was enormous, even between sites less than 2 km apart. Our results confirm the presumption that T. repens and T. occidentale are indeed separate species. Both the fact that T. occidentale plants never contain linamarase activity, and the difference in proportion of plants with cyanoglucosides in mixed stands show that gene flow between the species must be rare. These dissimilar distributions strongly indicate that cyanotypic frequencies in adjacent and mixed populations of the very closely related species T. occidentale and T. repens are regulated by different mechanisms. (C) 2000 Elsevier Science Ltd

Distribution of cadmium in leaves of cadmium tolerant and sensitive ecotypes of Silene vulgaris.

It has been postulated that vacuolar compartmentation might play an important role in naturally selected cadmium tolerance in Silene vulgaris (Moench.) Garcke (Bladder campion). Additionally, a tendency of heavy metals to accumulate in the epidermis has been reported. Since these factors would affect the distribution of cadmium in leaves, we determined the distribution of cadmium in leaves of cadmium tolerant and sensitive ecotypes of Silene vulgaris at different levels of exposure and at different time intervals. Cadmium concentrations were higher in leaves of sensitive plants than in those of cadmium tolerant ones after identical exposure to cadmium for a period of 8 days. The highest cadmium concentrations were found in the lower epidermis of plants of both ecotypes. The amount of cadmium located at the lower epidermis was highest for sensitive plants, although the stomatal density was lower in the sensitive ecotype than in the tolerant one. A possible explanation for this phenomenon is the weak relationship between transpiration (water flow) and element allocation. Our results support the hypothesis that vacuolar storage of cadmium plays an important role in the mechanism of cadmium tolerance in Silene vulgaris