Exploring cadmium phyto-extraction with Brassica napus and Nicotiana tabacum; breeding and selection versus genetic engineering

Koes, R.E. [Promotor

Phytoextraction with Brassica napus L.: A tool for sustainable management of heavy metal contaminated soils.

Phytoextraction is a promising tool to extract metals from contaminated soils and Brassica napus L. seems to be a possible candidate species for this purpose. To select accessions with the ability to accumulate cadmium, hydroponically grown 21 day old seedlings of 77 B. napus L. accessions were exposed to 0.2 μM CdS

Combined expression of the Arabidopsis metallothionein MT2b and the heavy metal transporting ATPase HMA4 enhances cadmium tolerance and the root to shoot translocation of cadmium and zinc in tobacco

We expressed the AtMt2b and AtHMA4 genes under the 35S cauliflower mosaic virus promoter simultaneously in Nicotiana tabacum (SR1), using leaf disc transformation. A single AtMT2b tobacco T2 line was used for re-transformation with AtHMA4 to obtain the double transformant. Cadmium (Cd) and zinc (Zn) tolerance, uptake and translocation were measured in the double transformant, and compared to untransformed ('wild type') tobacco and single gene transformants. The double transformant exhibited enhanced Cd-tolerance, enhanced Cd and Zn root to shoot transport, but unaltered Zn tolerance and Cd and Zn uptake, compared with wild type.The single transformant lines did not show significant phenotypes. Our results suggest that the phenotypes of the double transformant are due to synergistic interaction between the transgenes. Except for Cd tolerance, the phenotypes were moderate for Cd and Zn root to shoot transport, which may be due to use of the 35S promotor, resulting in incorrect tissue-specificity. © 2010 Elsevier B.V

Expression of the Arabidopsis metallothionein 2b enhances arsenite sensitivity and root to shoot translocation in tobacco.

We expressed the AtMT2b gene under the 35 S cauliflower mosaic virus promoter in Nicotiana tabacum (Sr1), using leaf disc transformation. Arsenite tolerance and uptake, as well as arsenite-induced phytochelatin (PC) accumulation in roots were measured in transgenic lines, and compared to untransformed ('wild type') tobacco. Measured after 5 days of exposure, arsenite tolerance was slightly but significantly decreased in the transgenic lines compared to wild type. The highest AtMT2b expressing line exhibited a significantly decreased arsenic accumulation in roots, but an increased accumulation in shoots, while the total amount of arsenic taken up remained unchanged, suggesting that AtMT2b expression enhanced the arsenic root to shoot transport. The same transformant line also exhibited a decreased rate of phytochelatin accumulation in the roots, but the phytochelatin-SH to As molar ratio was higher than in wild type, suggesting that the lower arsenite tolerance in the transformant lines was not due to a potential shortage of cysteine for PC synthesis, imposed by expression of the transgene. © 2009 Elsevier B.V. All rights reserved