Addressing the diversity of the mechanisms involved in metal hyperaccumulation in plants - CEA - Université Paris-Saclay
Communication Dans Un Congrès Année : 2024

Addressing the diversity of the mechanisms involved in metal hyperaccumulation in plants

Résumé

The extraordinary ability to accumulate and tolerate tremendous amounts of metals such as nickel, zinc, or manganese in their leaves has been observed in about 700 plant species belonging to more than 50 families. For many years, these metal hyperaccumulator species have attracted the attention of scientists interested in understanding the evolution of this complex and peculiar trait. In the context of the decarbonization of energy, metal hyperaccumulators appear as an opportunity to develop phytotechnologies aimed at limiting the metal pollution associated with to the growing demand for metals. However, our knowledge of the molecular mechanisms involved in metal hyperaccumulation, which is key to the development of these technologies, is still very limited. To extend our knowledge of the diversity of hyperaccumulator species, we participated in a global effort to identify new hyperaccumulator species using the X-ray fluorescence technology focusing on the flora of the neotropical region. Our herbarium and field studies revealed the first example of a zinc hyperaccumulator from the Amazonas region, as well as new nickel hyperaccumulators originating from Cuba. The identification of nickel hyperaccumulators and closely related non-hyperaccumulator species from different families has opened the possibility to perform comparative cross-species transcriptomic studies to identify orthologous genes whose expression is linked to nickel hyperaccumulation. Among candidate genes, our analyses revealed that the high expression in leaves of metal transporters of the IREG/ferroportin family is a highly conserved mechanism involved in nickel hyperaccumulation across distant plant species. We are now developing the multi-metal hyperaccumulator Noccaea caerulescens of the Brassicaceae family as a genetic model to validate and study the role of candidate genes in metal hyperaccumulation.
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Dates et versions

hal-04712386 , version 1 (27-09-2024)

Identifiants

  • HAL Id : hal-04712386 , version 1

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Sylvain Merlot, Célestine Belloeil, Mélina Gallopin, Vanesa S. Garcia de la Torre, Dubiel Alfonso Gonzalez, et al.. Addressing the diversity of the mechanisms involved in metal hyperaccumulation in plants. XX International botanical congress, Jul 2024, Madrid, Spain. ⟨hal-04712386⟩
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