INFLUENCE OF NANOPARTICLES (Ti, Ni, Si) ON INDICATORS OF INDUCED MUTATIONS OF DROSOPHILA MELANOGASTER

Authors

DOI:

https://doi.org/10.58407/bht.1.23.3

Keywords:

Drosophila, induced mutations, mutational effect, nanoparticles

Abstract

In recent years, interest in the role of nanoparticles has increased significantly, in particular, their ability to influence mutagenesis is being studied. Studying the effect of nanoparticles on the functioning of eukaryotes using the example of a test object Drosophila melanogaster Meigen is used to assess the possible ecological consequences of their practical use.

The purpose: to investigate the effect of nanoparticles of Titanium, Nickel and Silicon on the features of development and mutagenesis in D. melanogaster. The object of the study: peculiarities of the development of flies of the species D. melanogaster line Canton S. The subject of the study: the effect of nanoparticles of Titanium, Nickel and Silicon on the development of flies of the species D. melanogaster line Canton S.

Methodology. To assess the genetic variability of experimental populations of drosophila, standard methods of accounting for the dynamics of adaptation were used based on numbers and sex ratios; fertility; statistical methods of information processing.

The scientific novelty of the work lies in the fact that for the first time the effect of Titanium, Nickel and Silicon nanoparticles on the occurrence of mutations in D. melanogaster and general biological indicators of animals.

Conclusions. The main requirements for nanoparticles in relation to their use in industry and provenance are: low or no toxicity, high biocompatibility, the ability to biodegrade or be removed from the body naturally. With the presence of nanoparticles in the nutrient medium, mutations were observed in flies: reduced wings and a discolored body and additional antennae and an elongated proboscis. In the second generation, the percentage of mutant individuals becomes smaller compared to the first generation. This is explained by the induction of repair systems in individuals that were developing in the presence of the investigated substances. In all recorded cases of mutagenesis, the number of females is statistically significantly greater than the number of males. When studying the mutational effect of nanoparticles in the offspring of both generations (F1 and F2), differences in the number of mutant individuals in males and females under the influence of the same substances are unlikely. Titanium nanoparticles have a more pronounced mutagenic effect. Taking into account the percentage value of mutations, we can conclude that there is a positive correlation between the concentration of the studied substances and the quantitative indicators of mutations.

 

Downloads

Download data is not yet available.

References

Chekman, I. (2011). Nanogenotoxicology: the effect of nanoparticles on the cell. Ukraine medical magazine,

(81), I/II, 30–35. (in Ukrainian)

Чекман І. С. Наногенотоксикологія: вплив наночастинок на клітину. Укр. мед. часопис. 2011. № 1 (81), I/II.

С. 30–35.

Chekman, I. S. (2009). Nanoparticles: properties and application prospects. Ukraine biochemical journal,

(1), 122–129. (in Ukrainian)

Чекман І. С. Наночастинки: властивості та перспективи застосування. Укр. біохім. журн. 2009. 81, № 1. С. 122–

Kimak-Holub, N., Smyk, M., & Chernyk, Ya. (2012). Role of antioxidants in X-ray induced mutagenesis

of Drosophila melanogaster. Bulletin of Lviv University. Biological series, 27, 114–120 (in Ukrainian)

Кімак-Голуб Н., Смик М., Черник Я. Роль антиоксидантів у індукованому рентгенівським опроміненням

мутагенезі Drosophila melanogaster. Вісник Львівського університету. Серія біологічна. 2012. №27. С.114–120

Protsenko, O., & Kozeretska, I. (2006). Mutational processes in natural populations of Drosophila

melanogaster in Ukraine. Factors of experimental evolution of organisms (Vol.3, pp 49-53.). Kyiv: Ukraine.

(in Ukrainian)

Проценко О.В., Козерецька І.А. Мутаційні процеси в природних популяціях Drosophila melanogaster України.

Фактори експериментальної еволюції організмів. Збірник наукових праць. Київ. 2006. Т.3. С.49–53.

Selivon, M., Mekhed, O., & Tretiak, O. (2012). The effect of imidazoazepine derivatives on the

biological parameters of Drosophila melanogaster. Chemical and environmental education: state and prospects of

development: Collection of materials of the II All–Ukrainian scientific and practical conference.

Vinnytsia: Ukraine. 179 –181. (in Ukrainian)

Селівон М. В., Мехед О. Б., Третяк О. П. Вплив похідних імідазоазепінію на біологічні показники Drosophila

melanogaster. Хімічна та екологічна освіта: стан і перспективи розвитку: Збірник матеріалів ІІ Всеукраїнської науково–

практичної конференції. Вінниця: ФОП Корзун Д.Ю., 2012. С. 179 –181.

Solodovnyk, P., Mekhed, O., Tretiak, O. (2011). Influence of imidazoazepinium heterocyclic

compounds on some biochemical indicators of Drosophila melanogaster imago. Falzfein readings. Collection of

scientific papers. Kherson: Ukraine. 128 –129. (in Ukrainian)

Солодовник П. В., Мехед О. Б., Третяк О. П. Вплив гетероциклічних сполук імідазоазепінію на деякі

біохімічні показники імаго Drosophila melanogaster. Фальцфейнівські читання. Збірник наукових праць. Херсон : ПП

Вишемирський, 2011. С. 128 –129.

Syvolob, A., Rushkovskyi, S., Kyriachenko, S. (2018). Genetics: a textbook. Kyiv: Ukraine. 320. (in

Ukrainian)

Сиволоб А. В., Рушковський С. Р., Кир’яченко С. С. Генетика: підручник. Київ: Видавничо–поліграфічний

центр «Київський університет», 2018. 320 с.

Trakhtenberh, I. (2013). Metal nanoparticles, production methods, fields of application, physicochemical and toxic properties. Ukrainian journal on problems of occupational medicine, 4(37), 62–74. (in

Ukrainian)

Трахтенберг І. М. Наночастинки металів, методи отримання, сфери застосування, фізико-хімічні та

токсичні властивості. Укр. журн. з проблем медицини праці. 2013. 4 (37). С. 62–74.

Downloads

Published

2023-07-20

How to Cite

Yaschenko, A., Yachna, M., Mekhed, O., & Tretyak, O. (2023). INFLUENCE OF NANOPARTICLES (Ti, Ni, Si) ON INDICATORS OF INDUCED MUTATIONS OF DROSOPHILA MELANOGASTER. Biota. Human. Technology, (1). https://doi.org/10.58407/bht.1.23.3

Issue

Section

ENVIRONMENTAL POLLUTION STRESSES AND ORGANISMS' RESPONSE