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Plant Response to Engineered Metal Oxide Nanoparticles.

Khwaja Salahuddin SiddiqiAzamal Husen
Published in: Nanoscale research letters (2017)
All metal oxide nanoparticles influence the growth and development of plants. They generally enhance or reduce seed germination, shoot/root growth, biomass production and physiological and biochemical activities. Some plant species have not shown any physiological change, although significant variations in antioxidant enzyme activity and upregulation of heat shock protein have been observed. Plants have evolved antioxidant defence mechanism which involves enzymatic as well as non-enzymatic components to prevent oxidative damage and enhance plant resistance to metal oxide toxicity. The exact mechanism of plant defence against the toxicity of nanomaterials has not been fully explored. The absorption and translocation of metal oxide nanoparticles in different parts of the plant depend on their bioavailability, concentration, solubility and exposure time. Further, these nanoparticles may reach other organisms, animals and humans through food chain which may alter the entire biodiversity. This review attempts to summarize the plant response to a number of metal oxide nanoparticles and their translocation/distribution in root/shoot. The toxicity of metal oxide nanoparticles has also been considered to see if they affect the production of seeds, fruits and the plant biomass as a whole.
Keyphrases
  • oxide nanoparticles
  • heat shock protein
  • oxidative stress
  • cell wall
  • cell proliferation
  • poor prognosis
  • risk assessment
  • anaerobic digestion
  • climate change
  • molecular dynamics
  • heat shock