Genotoxic endpoints in a Pb-accumulating pea cultivar: insights into Pb2+ contamination limits
2019
Rodríguez, Eleazar | Sousa, Márcia | Gomes, Anicia | Azevedo, Raquel | Mariz-Ponte, Nuno | Sario, Sara | Mendes, Rafael José | Santos, Conceição
Lead (Pb) persists among the most hazardous contaminant metals. Pb-induced genotoxic effects remain a matter of debate as they are a major cause of plant growth impairment, but assessing Pb genotoxicity requires the selection of Pb-sensitive genotoxic biomarkers. Seedlings of the ecotoxicological model species Pisum sativum L. were exposed to Pb²⁺ (≤ 2000 mg L⁻¹). Flow cytometry (FCM) revealed that 28 days after, Pb²⁺ arrested root cell cycle at G₂ but no eu/aneuploidies were found. Comet assay and FCM-clastogenicity assays showed that Pb²⁺ increased DNA breaks in roots at concentrations as low as 20 mg L⁻¹. Leaves showed no variation in DNA-ploidy or cell cycle progression but had increased DNA breaks at the highest Pb²⁺ dose. We conclude that both Comet assay and the full-peak coefficient of variation (FPCV) were the most relevant endpoints of Pb-phytogenotoxicity. Also, the Pb-induced DNA breaks may be related with the arrest at the G₂-checkpoint. Data will be relevant to better define Pb²⁺ ecogenotoxicological effects and their measuring tools and may contribute to a regulatory debate of this pollutant limits.
Show more [+] Less [-]AGROVOC Keywords
Bibliographic information
This bibliographic record has been provided by National Agricultural Library