Genotoxicity assessment of amino zinc nanoparticles in wheat (Triticum aestivum L.) as cytogenetical perspective

•Using and impact of nanoparticles in agriculture.•Genotoxicity of nanoparticles in plant.•Effect of commercial amino zinc nanoparticles on cell division.•The harmful effect of commercial amino zinc nanoparticles in chromosomal structure. Nanoparticles have a positive impact in several subjects espe...

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Published inSaudi journal of biological sciences Vol. 29; no. 4; pp. 2306 - 2313
Main Authors Abdelsalam, Nader R., Abdel-Megeed, Ahmed, Ghareeb, Rehab Y., Ali, Hayssam M., Salem, Mohamed Z.M., Akrami, Mohammad, Al-Hayalif, Muwafaq F.A., Desoky, El-Sayed M.
Format Journal Article
LanguageEnglish
Published Saudi Arabia Elsevier B.V 01.04.2022
Elsevier
Subjects
Amino zinc NPs
Chromosomal aberrations
Cytogenetics
Mitosis
Mitotic index
Original
Root elongation
Treatments
Wheat
Amino zinc NPs
Mitotic index
Root elongation
Mitosis
Chromosomal aberrations
Cytogenetics
Treatments
Wheat
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Abstract •Using and impact of nanoparticles in agriculture.•Genotoxicity of nanoparticles in plant.•Effect of commercial amino zinc nanoparticles on cell division.•The harmful effect of commercial amino zinc nanoparticles in chromosomal structure. Nanoparticles have a positive impact in several subjects especially in agriculture, while their safety is still being debated. Numerous commercial nano pesticide, insecticides, and fertilizers products are found in the local markets without any intensely studies on the side effect of these products on plant, human as well as environmental effects. The present study aimed to evaluate the genotoxicity of commercial amino zinc nanoparticles (AZ NPs) on Triticum aestivum L. during seeds germination and root elongation using concentration ranges (50, 100, and 150 ppm) at different exposure times (8, 16 and 24 hrs). Long term exposure to AZ NPs, exhibited only slight variation in germination rates and the elongation of roots was affected by AZ NPs treatment ranged from 97.66 to 100%. Significant reduction in the mitotic index was 35.33% after 24 hrs and 150 ppm of AZ NPs, was also observed comparing with control which was 88.0%. Genotoxicity was evaluated at a cytological level in root meristems that revealed sever variations in mitotic activity, chromosomal aberrations, and micronuclei release. Results exhibited that nano amino zinc could enter effortlessly into the cells and inhibit the normal cellular function. The decrease in the emergence of chromosomal aberrations resulting from AZ NPs exposure in a dose-dependent manner was clearly indicated that AZ NPs has induced genotoxic effect on wheat root tips.
AbstractList Nanoparticles have a positive impact in several subjects especially in agriculture, while their safety is still being debated. Numerous commercial nano pesticide, insecticides, and fertilizers products are found in the local markets without any intensely studies on the side effect of these products on plant, human as well as environmental effects. The present study aimed to evaluate the genotoxicity of commercial amino zinc nanoparticles (AZ NPs) on L. during seeds germination and root elongation using concentration ranges (50, 100, and 150 ppm) at different exposure times (8, 16 and 24 hrs). Long term exposure to AZ NPs, exhibited only slight variation in germination rates and the elongation of roots was affected by AZ NPs treatment ranged from 97.66 to 100%. Significant reduction in the mitotic index was 35.33% after 24 hrs and 150 ppm of AZ NPs, was also observed comparing with control which was 88.0%. Genotoxicity was evaluated at a cytological level in root meristems that revealed sever variations in mitotic activity, chromosomal aberrations, and micronuclei release. Results exhibited that nano amino zinc could enter effortlessly into the cells and inhibit the normal cellular function. The decrease in the emergence of chromosomal aberrations resulting from AZ NPs exposure in a dose-dependent manner was clearly indicated that AZ NPs has induced genotoxic effect on wheat root tips.
Nanoparticles have a positive impact in several subjects especially in agriculture, while their safety is still being debated. Numerous commercial nano pesticide, insecticides, and fertilizers products are found in the local markets without any intensely studies on the side effect of these products on plant, human as well as environmental effects. The present study aimed to evaluate the genotoxicity of commercial amino zinc nanoparticles (AZ NPs) on Triticum aestivum L. during seeds germination and root elongation using concentration ranges (50, 100, and 150 ppm) at different exposure times (8, 16 and 24 hrs). Long term exposure to AZ NPs, exhibited only slight variation in germination rates and the elongation of roots was affected by AZ NPs treatment ranged from 97.66 to 100%. Significant reduction in the mitotic index was 35.33% after 24 hrs and 150 ppm of AZ NPs, was also observed comparing with control which was 88.0%. Genotoxicity was evaluated at a cytological level in root meristems that revealed sever variations in mitotic activity, chromosomal aberrations, and micronuclei release. Results exhibited that nano amino zinc could enter effortlessly into the cells and inhibit the normal cellular function. The decrease in the emergence of chromosomal aberrations resulting from AZ NPs exposure in a dose-dependent manner was clearly indicated that AZ NPs has induced genotoxic effect on wheat root tips.Nanoparticles have a positive impact in several subjects especially in agriculture, while their safety is still being debated. Numerous commercial nano pesticide, insecticides, and fertilizers products are found in the local markets without any intensely studies on the side effect of these products on plant, human as well as environmental effects. The present study aimed to evaluate the genotoxicity of commercial amino zinc nanoparticles (AZ NPs) on Triticum aestivum L. during seeds germination and root elongation using concentration ranges (50, 100, and 150 ppm) at different exposure times (8, 16 and 24 hrs). Long term exposure to AZ NPs, exhibited only slight variation in germination rates and the elongation of roots was affected by AZ NPs treatment ranged from 97.66 to 100%. Significant reduction in the mitotic index was 35.33% after 24 hrs and 150 ppm of AZ NPs, was also observed comparing with control which was 88.0%. Genotoxicity was evaluated at a cytological level in root meristems that revealed sever variations in mitotic activity, chromosomal aberrations, and micronuclei release. Results exhibited that nano amino zinc could enter effortlessly into the cells and inhibit the normal cellular function. The decrease in the emergence of chromosomal aberrations resulting from AZ NPs exposure in a dose-dependent manner was clearly indicated that AZ NPs has induced genotoxic effect on wheat root tips.
•Using and impact of nanoparticles in agriculture.•Genotoxicity of nanoparticles in plant.•Effect of commercial amino zinc nanoparticles on cell division.•The harmful effect of commercial amino zinc nanoparticles in chromosomal structure. Nanoparticles have a positive impact in several subjects especially in agriculture, while their safety is still being debated. Numerous commercial nano pesticide, insecticides, and fertilizers products are found in the local markets without any intensely studies on the side effect of these products on plant, human as well as environmental effects. The present study aimed to evaluate the genotoxicity of commercial amino zinc nanoparticles (AZ NPs) on Triticum aestivum L. during seeds germination and root elongation using concentration ranges (50, 100, and 150 ppm) at different exposure times (8, 16 and 24 hrs). Long term exposure to AZ NPs, exhibited only slight variation in germination rates and the elongation of roots was affected by AZ NPs treatment ranged from 97.66 to 100%. Significant reduction in the mitotic index was 35.33% after 24 hrs and 150 ppm of AZ NPs, was also observed comparing with control which was 88.0%. Genotoxicity was evaluated at a cytological level in root meristems that revealed sever variations in mitotic activity, chromosomal aberrations, and micronuclei release. Results exhibited that nano amino zinc could enter effortlessly into the cells and inhibit the normal cellular function. The decrease in the emergence of chromosomal aberrations resulting from AZ NPs exposure in a dose-dependent manner was clearly indicated that AZ NPs has induced genotoxic effect on wheat root tips.
• Using and impact of nanoparticles in agriculture. • Genotoxicity of nanoparticles in plant. • Effect of commercial amino zinc nanoparticles on cell division. • The harmful effect of commercial amino zinc nanoparticles in chromosomal structure. Nanoparticles have a positive impact in several subjects especially in agriculture, while their safety is still being debated. Numerous commercial nano pesticide, insecticides, and fertilizers products are found in the local markets without any intensely studies on the side effect of these products on plant, human as well as environmental effects. The present study aimed to evaluate the genotoxicity of commercial amino zinc nanoparticles (AZ NPs) on Triticum aestivum L. during seeds germination and root elongation using concentration ranges (50, 100, and 150 ppm) at different exposure times (8, 16 and 24 hrs). Long term exposure to AZ NPs, exhibited only slight variation in germination rates and the elongation of roots was affected by AZ NPs treatment ranged from 97.66 to 100%. Significant reduction in the mitotic index was 35.33% after 24 hrs and 150 ppm of AZ NPs, was also observed comparing with control which was 88.0%. Genotoxicity was evaluated at a cytological level in root meristems that revealed sever variations in mitotic activity, chromosomal aberrations, and micronuclei release. Results exhibited that nano amino zinc could enter effortlessly into the cells and inhibit the normal cellular function. The decrease in the emergence of chromosomal aberrations resulting from AZ NPs exposure in a dose-dependent manner was clearly indicated that AZ NPs has induced genotoxic effect on wheat root tips.
Author Desoky, El-Sayed M.
Akrami, Mohammad
Salem, Mohamed Z.M.
Ghareeb, Rehab Y.
Abdelsalam, Nader R.
Abdel-Megeed, Ahmed
Ali, Hayssam M.
Al-Hayalif, Muwafaq F.A.
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  givenname: Hayssam M.
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  organization: Department of Engineering, University of Exeter, Exeter EX4 4QF, UK
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  givenname: El-Sayed M.
  surname: Desoky
  fullname: Desoky, El-Sayed M.
  email: desoky_s@yahoo.com
  organization: Botany Department, Faculty of Agriculture, Zagazig University, Zagazig, 44511, Egypt
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Issue 4
Keywords Amino zinc NPs
Mitotic index
Root elongation
Mitosis
Chromosomal aberrations
Cytogenetics
Treatments
Wheat
Language English
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Snippet •Using and impact of nanoparticles in agriculture.•Genotoxicity of nanoparticles in plant.•Effect of commercial amino zinc nanoparticles on cell division.•The...
Nanoparticles have a positive impact in several subjects especially in agriculture, while their safety is still being debated. Numerous commercial nano...
• Using and impact of nanoparticles in agriculture. • Genotoxicity of nanoparticles in plant. • Effect of commercial amino zinc nanoparticles on cell division....
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SubjectTerms Amino zinc NPs
Chromosomal aberrations
Cytogenetics
Mitosis
Mitotic index
Original
Root elongation
Treatments
Wheat
Title Genotoxicity assessment of amino zinc nanoparticles in wheat (Triticum aestivum L.) as cytogenetical perspective
URI https://dx.doi.org/10.1016/j.sjbs.2021.11.059
https://www.ncbi.nlm.nih.gov/pubmed/35531222
https://www.proquest.com/docview/2661482826
https://pubmed.ncbi.nlm.nih.gov/PMC9073051
Volume 29
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