Article (Scientific journals)
Evolution of metal hyperaccumulation required cis-regulatory changes and triplication of HMA4
Hanikenne, Marc; Talke, Ina N.; Haydon, Michael J. et al.
2008In Nature, 453, p. 391-395
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Abstract :
[en] Little is known about the types of mutations underlying the evolution of species-specific traits. The metal hyperaccumulator Arabidopsis halleri has the rare ability to colonize heavy-metal-polluted soils, and, as an extremophile sister species of Arabidopsis thaliana, it is a powerful model for research on adaptation. A. halleri naturally accumulates and tolerates leaf concentrations as high as 2.2% zinc and 0.28% cadmium in dry biomass. On the basis of transcriptomics studies, metal hyperaccumulation in A. halleri has been associated with more than 30 candidate genes that are expressed at higher levels in A. halleri than in A. thaliana. Some of these genes have been genetically mapped to broad chromosomal segments of between 4 and 24 cM co-segregating with Zn and Cd hypertolerance. However, the in planta loss-of-function approaches required to demonstrate the contribution of a given candidate gene to metal hyperaccumulation or hypertolerance have not been pursued to date. Using RNA interference to downregulate HMA4 (HEAVY METAL ATPASE 4) expression, we show here that Zn hyperaccumulation and full hypertolerance to Cd and Zn in A. halleri depend on the metal pump HMA4. Contrary to a postulated global trans regulatory factor governing high expression of numerous metal hyperaccumulation genes, we demonstrate that enhanced expression of HMA4 in A. halleri is attributable to a combination of modified cis-regulatory sequences and copy number expansion, in comparison to A. thaliana. Transfer of an A. halleri HMA4 gene to A. thaliana recapitulates Zn partitioning into xylem vessels and the constitutive transcriptional upregulation of Zn deficiency response genes characteristic of Zn hyperaccumulators. Our results demonstrate the importance of cis-regulatory mutations and gene copy number expansion in the evolution of a complex naturally selected extreme trait. The elucidation of a natural strategy for metal hyperaccumulation enables the rational design of technologies for the clean-up of metal-contaminated soils and for bio-fortification.
Disciplines :
Phytobiology (plant sciences, forestry, mycology...)
Author, co-author :
Hanikenne, Marc  ;  Max Planck Institute of Molecular Plant Physiology, Potsdam, Germany
Talke, Ina N.;  Max Planck Institute of Molecular Plant Physiology, Postdam, Germany
Haydon, Michael J.;  Max Planck Institute of Molecular Plant Physiology, Potsdam, Germany
Lanz, Christa;  Max Planck Institute for Developmental Biology, Tübingen, Germany
Nolte, Andrea;  Max Planck Institute of Molecular Plant Physiology, Postdam, Germany
Motte, Patrick ;  Université de Liège - ULiège > Department of Life Sciences > Plant Cell Biology
Kroymann, Juergen;  Max Planck Institute for Chemical Ecology, Jena, Germany
Weigel, Detlef;  Max Planck Institute for Developmental Biology, Tübingen, Germany
Krämer, Ute;  Max Planck Institute of Molecular Plant Physiology, Potsdam, Germany
Language :
English
Title :
Evolution of metal hyperaccumulation required cis-regulatory changes and triplication of HMA4
Publication date :
2008
Journal title :
Nature
ISSN :
0028-0836
eISSN :
1476-4687
Publisher :
Nature Publishing Group, Basingstoke, United Kingdom
Volume :
453
Pages :
391-395
Peer reviewed :
Peer Reviewed verified by ORBi
Funders :
DFG - Deutsche Forschungsgemeinschaft [DE]
EC - European Commission [BE]
BMBF - Bundesministerium für Bildung und Forschung [DE]
MPG - Max-Planck-Gesellschaft zur Förderung der Wissenschaften [DE]
F.R.S.-FNRS - Fonds de la Recherche Scientifique [BE]
ULiège - Université de Liège [BE]
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since 19 July 2008

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