Nitric Oxide Ameliorates Plant Metal Toxicity by Increasing Antioxidant Capacity and Reducing Pb and Cd Translocation.
Abolghassem EmamverdianYulong DingJames BarkerFarzad MokhberdoranMuthusamy RamakrishnanGuohua LiuYang LiPublished in: Antioxidants (Basel, Switzerland) (2021)
Recently, nitric oxide (NO) has been reported to increase plant resistance to heavy metal stress. In this regard, an in vitro tissue culture experiment was conducted to evaluate the role of the NO donor sodium nitroprusside (SNP) in the alleviation of heavy metal toxicity in a bamboo species ( Arundinaria pygmaea ) under lead (Pb) and cadmium (Cd) toxicity. The treatment included 200 µmol of heavy metals (Pb and Cd) alone and in combination with 200 µM SNP: NO donor, 0.1% Hb, bovine hemoglobin (NO scavenger), and 50 µM L-NAME, N(G)-nitro-L-arginine methyl ester (NO synthase inhibitor) in four replications in comparison to controls. The results demonstrated that the addition of L-NAME and Hb as an NO synthase inhibitor and NO scavenger significantly increased oxidative stress and injured the cell membrane of the bamboo species. The addition of sodium nitroprusside (SNP) for NO synthesis increased antioxidant activity, protein content, photosynthetic properties, plant biomass, and plant growth under heavy metal (Pb and Cd) toxicity. It was concluded that NO can increase plant tolerance for metal toxicity with some key mechanisms, such as increasing antioxidant activities, limiting metal translocation from roots to shoots, and diminishing metal accumulation in the roots, shoots, and stems of bamboo species under heavy metal toxicity (Pb and Cd).
Keyphrases
- heavy metals
- oxidative stress
- nitric oxide
- risk assessment
- health risk assessment
- health risk
- sewage sludge
- plant growth
- genome wide
- nk cells
- hydrogen peroxide
- genetic diversity
- dna damage
- nitric oxide synthase
- anti inflammatory
- wastewater treatment
- heat stress
- signaling pathway
- small molecule
- clinical evaluation
- red blood cell