Vestnik On-line
Orenburg State University december 22, 2024   RU/EN
Headings of Vestnik
Pedagogics
Psychology
Other

Search
Vak
Антиплагиат
Orcid
Viniti
ЭБС Лань
Rsl
Лицензия Creative Commons

October 2015, № 10 (185)



Korotkovа A.M., Lebedev S.V., Rusakovа E.A. DNA-DAMAGING EFFECTS OF NANOPARTICLES NI° AND NIO FOR EXAMPLE A PLANT SPECIES TRITICUM VULGAREThe effects of spherical nanoparticles of nickel Ni˚ diameter of 70 ± 0,3 nm and nickel oxide NiO diameter of 94 ± 0,3 nm in three dilutions — 0.025, 0.05 and 0.1 M at the root of the 4-day seedlings of Triticum vulgare. After 48 hour incubation with nanoparticles plants recorded dose dependent increase in DNA fragmentation. Electrophoretic separation of DNA showed the change in mobility from the perspective of reducing the amount of content the least migratory agarose gel closest to the start of the fragments form I (1000 bp), constituting the largest amount in the control samples, and the transition of the bulk of the DNA fragments from -flowing nucleotides (form II — less than 1 000 bp). Thus, under the influence of NPs Ni° and NiO in concentrations 0.025–0.1 M there was an increase of less than 1 000 bp fragment (form II) to 53–59 % and 55–59,8 % with simultaneous reduction of form I at 16,6–20,9 % and 15,6–22 %, respectively, compared to the control. The calculated results for the coefficient electrophoretogram of DNA damage in the case of 0.025, 0.05 and 0.1 M nickel nanoparticles was 1.052 ± 0.009, 1.126 ± 0.043 and 1.2 ± 0.03, and nickel oxide nanoparticles — 0.982 ± 0.02, 1.053 ± 0.013 and 1.192 ± 0.21 (against the background of the control 0.398 ± 0.05), respectively. Linear DNA profile electrophoregrams testified that nanoparticles at low concentrations (0.025 and 0.05 M) cause system degradation to discrete DNA fragments from the nucleotide-flowing transition from the bulk of the DNA in the region of less than 1 000 bp and the concentration is 0.1 M appearance of apoptotic "steps" represented by a group of split peaks located descending area, in which a multiple number of DNA 180 bp.Key words: Triticum vulgare — nickel nanoparticles — reactive oxygen species — oxidative stress — the degradation of DNA.

Download
References:

1. Du W., Sun Y., Ji R., Zhu J., Wu J., Guo H. TiO2 and ZnO nanoparticles negatively affect wheat growth and soil enzyme activities in agricultural soil // J. Environ. Monit. — 2011. — №13. — P. 822-828.

2. Lebedev S.V., Korotkova A.M., Osipova E.A. Influence of Fe˚ nanoparticles, magnetite Fe3O4 nanoparticles, and iron (II) sulfate (FeSO4) solutions on the content of photosynthetic pigments in Triticum vulgare // Russian Journal of Plant Physiology. — 2014. — V. 61. — №4. — Р. 564-569.

3. Siddiqui M.H., Al-Whaibi M.H., Mohammad F. Nanotechnology and plant sciences: nanoparticles and their impact on plants. New York: Springer, 2015. 305 p.

4. Rico C.M., Morales MI, McCreary R et al. Cerium oxide nanoparticles modify the antioxidative stress enzyme activities and macromolecule composition in rice seedlings // Environ Sci Technol. — 2013. — №47. — Р. 14110-14118.

5. Vanyushin B.F. Apoptosis in plants // Advances of Biological Chemistry. — 2001. — T. 41. Р. 3-38.

6. Kinsella J.M., Ivanisovie A. Fabrication of powdered metallic and magnetic heterostructured DNA-nanoparticle hybrids // Colloids surf. Biointerfaces. — 2008. — V. 63(2). — P. 296-300.


About this article

Authors: Korotkova A.M., Rusakova E.A., Lebedev S.V.

Year: 2015


Editor-in-chief
Sergey Aleksandrovich
MIROSHNIKOV

Crossref
Cyberleninka
Doi
Europeanlibrary
Googleacademy
scienceindex
worldcat
© Электронное периодическое издание: ВЕСТНИК ОГУ on-line (VESTNIK OSU on-line), ISSN on-line 1814-6465
Зарегистрировано в Федеральной службе по надзору в сфере связи, информационных технологий и массовых коммуникаций
Свидетельство о регистрации СМИ: Эл № ФС77-37678 от 29 сентября 2009 г.
Учредитель: Оренбургский государственный университет (ОГУ)
Главный редактор: С.А. Мирошников
Адрес редакции: 460018, г. Оренбург, проспект Победы, д. 13, к. 2335
Тел./факс: (3532)37-27-78 E-mail: vestnik@mail.osu.ru
1999–2024 © CIT OSU