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in: A Clooser Look at the Comet Assay, Keith H. Harmon, Editor, Nova, New York, pp.171-186, 2019
DETERMINATION of GENOTOXIC EFFECTS of
ORGANOCHLORINE PESTICIDES in WHEAT (Triticum
aestivum L.) by COMET ASSAY
Melek Adiloğlu Öztürk1,Yıldız
Aydın1*
1Department of Biology, Faculty of Science and Letters,
Marmara University, Istanbul, Turkey
Due to the detection of pesticides in underground and
surface waters in many agricultural regions of the world, the environmental
dimension of pesticide use is an important issue discussed today. Continuous
use of pesticides in agriculture causes genetic resistance to pests. Pesticides
threaten the ecosystem by altering the structure and species distribution of
the ecosystem and disrupting the normal balance between food chains and
therefore need to be monitored under strict supervision.
In this study, our aim was to determine the genotoxic
effects of endosulfan (ES) pesticide at different time and concentrations in
wheat (Triticum aestivum L.). Leaf
samples were taken from two-week old wheat seedlings of the negative control
(Hoagland solution), positive control (Hoagland solution containing 0.1% H2O2)
and different concentrations (1 g/L, 2 g/L and 4 g/ L) of ES in treated groups
at 6h, 12h and 18h and were examined by comet technique (single cell gel
electrophoresis).
DNA
damage levels were found that increase significantly after the ES application
to wheat seedling at all the time and the concentrations that evaluated by
comet analysis. In wheat seedlings, the highest DNA damage (% Tail DNA:50,
Olive tail moment: 0.34) were determined at 12h of 2 g/L ES concentration
(p<0.001).
While a non-linear decrease with time in the level of DNA damage were
detected in all groups at the end of the 6h, 12h, and 18h of ES treatment by
comparing with comet data, the DNA damage was increased in 2 g/L ES at 12h (%
Tail DNA:50, Olive tail moment: 0.34) comparing with 6h.
The obtained results of this study demonstrated
that the ES is a genotoxic agent causing DNA breaks in wheat. Also, the results
related with decrease in the level of DNA damage obtained from this study will
contribute to the determination of the spraying and harvesting time as well as
the determination of the appropriate concentrations in the countries using this
pesticide. This work was supported by the Research Foundation of Marmara
University (BAPKO no. FEN-C-031210-0285).