| Abstract: | To study the role of metallothioneins (MTs) in Zn accumulation,the expression of TcMT2a, TcMT2b, and TcMT3 was analysed inthree accessions and 15 F3 families of two inter-accession crossesof the Cd/Zn hyperaccumulator Thlaspi caerulescens, with differentdegrees of Zn accumulation. The highest expression levels werefound in the shoots of a superior metal-accumulating calamineaccession from St Laurent le Minier, with >10-fold TcMT3expression compared with another calamine accession and a non-metallicolousaccession. Moreover, F3 sibling lines from the inter-accessioncrosses that harboured the MT2a or MT3 allele from St Laurentle Minier had higher expression levels. However, there was noco-segregation of TcMT2a or TcMT3 expression and Zn accumulation.To examine the functions of TcMTs in plants, TcMT2a and TcMT3were ectopically expressed in Arabidopsis. The transformantlines had reduced root length in control medium but not at highmetal concentrations, suggesting that the ectopically expressedproteins interfered with the physiological availability of essentialmetals under limited supply. The Arabidopsis transformant linesdid not show increased tolerance to Cd, Cu, or Zn, nor increasedCd or Zn accumulation. Immunohistochemical analysis indicatedthat in roots, MT2 protein is localized in the epidermis androot hairs of both T. caerulescens and Arabidopsis thaliana.The results suggest that TcMT2a, TcMT2b, and TcMT3 are not primarilyinvolved in Zn accumulation as such. However, the elevated expressionlevels in the metallicolous accessions suggests that they docontribute to the metal-adapted phenotype, possibly throughimproving Cu homeostasis at high Zn and Cd body burdens. Alternatively,they might function as hypostatic enhancers of Zn or Cd tolerance. Key words: Cd, crosses, metallothionein, protein, quantitative real-time PCR, Thlaspi caerulescens, Zn
Received 14 August 2008; Revised 14 October 2008 Accepted 15 October 2008 |
