Frontiers in Plant Science (Apr 2015)

Jacks of metal(loid) chelation trade in plants – an overview

  • Naser A. Anjum,
  • Mirza eHasanuzzaman,
  • Mohammad A. Hossain,
  • THANGAVEL ePALANISWAMY,
  • Aryadeep eRoychoudhury,
  • Sarvajeet Singh Gill,
  • Miguel A.M. Rodrigo,
  • Miguel A.M. Rodrigo,
  • Vojtěch eAdam,
  • Vojtěch eAdam,
  • Masayuki eFujita,
  • Rene eKizek,
  • Rene eKizek,
  • Armando Da Costa Duarte,
  • Eduarda ePereira,
  • Iqbal eAhmad

DOI
https://doi.org/10.3389/fpls.2015.00192
Journal volume & issue
Vol. 6

Abstract

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Varied environmental compartments including soils are being contaminated by a myriad toxic metal(loid)s (hereafter termed as ‘metal/s’) mainly through anthropogenic activities. These metals may contaminate food chain and bring irreparable consequences in human. Plant-based approach (phytoremediation) stands second to none among bioremediation technologies meant for sustainable cleanup of soils/sites with metal-contamination. In turn, the capacity of plants to tolerate potential consequences caused by the extracted/accumulated metals decides the effectiveness and success of phytoremediation system. Chelation is among the potential mechanisms that largely govern metal-tolerance in plant cells by maintaining low concentrations of free metals in cytoplasm. Metal-chelation can be performed by compounds of glutathione (GSH) (reduced GSH; phytochelatins, PCs; metallothioneins, MTs) and non-GSH (histidine, nicotianamine, organic acids) origin. This paper presents an appraisal of recent reports on both GSH and non-GSH associated compounds in an effort to shed light on the significance of these compounds in metal-plant tolerance, as well as to provide scientific clues for the development of phytoextraction strategies.

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