Email this article 
Cytogenetic Homeostasis and Environmental Health (Assessment Practice)
- Authors: Krysanov E.Y.1, Ordzhonikidze K.G.1,2, Simanovsky S.A.1
-
Affiliations:
- Severtsov Institute of Ecology and Evolution, Russian Academy of Sciences
- Vavilov Institute of General Genetics, Russian Academy of Sciences
- Issue: No 7 (2023)
- Pages: 9-12
- Section: УСТОЙЧИВОСТЬ БИОЛОГИЧЕСКИХ СИСТЕМ: ОРГАНИЗМ
- URL: https://journals.rcsi.science/1026-3470/article/view/135541
- DOI: https://doi.org/10.31857/S1026347023600206
- EDN: https://elibrary.ru/VGSCQJ
- ID: 135541
Cite item
Full Text
Abstract
The article discusses possible approaches to cytogenetic homeostasis assessment in natural populations. Various cytogenetic methods, their advantages, disadvantages, and limitations related to the study of animals in their natural habitat are considered. For a reliable characterization of environmental quality, it is recommended to supplement the data obtained in natural populations with laboratory experiments using a test object. Due to a number of features, it is proposed to use the short-living fish Nothobranchius rachovii.
About the authors
E. Yu. Krysanov
Severtsov Institute of Ecology and Evolution, Russian Academy of Sciences
Author for correspondence.
Email: krysanov@sevin.ru
Russia, 119071, Moscow
K. G. Ordzhonikidze
Severtsov Institute of Ecology and Evolution, Russian Academy of Sciences; Vavilov Institute of General Genetics, Russian Academy of Sciences
Email: krysanov@sevin.ru
Russia, 119071, Moscow; Russia, 119991, Moscow
S. A. Simanovsky
Severtsov Institute of Ecology and Evolution, Russian Academy of Sciences
Email: krysanov@sevin.ru
Russia, 119071, Moscow
References
- Бродский И.Б., Брянцева С.А., Ковалева А.М., Урюпова Е.Ф., Гусев С.А., Сергиенко В.И., Матишов Д.Г. Микроядра как маркеры хромосомных изменений клеток // Журн. фундаментальной медицины и биологии. 2012. Т. 1. С. 4–9.
- Ильинских Н.Н., Ксенц А.С., Ильинских Е.Н., Васильев С.А., Манских В.Н., Ильинских И.Н. Микроядерный анализ в оценке цитогенетической нестабильности. Томск: Национальный исследовательский Томский государственный университет, 2011. 312 с.
- Ильинских Н.Н., Медведев М.А., Бессуднова С.С., Ильинских И.Н. Мутагенез при различных функциональных состояниях организма. Томск: Изд-во Том. ун-та, 1990. 227 с.
- Крюков В.И. Вариант методики учета ядерных аномалий в эритроцитах птиц // Вестник аграрной науки. 2020. Т. 1(82). С. 81–100.
- Орджоникидзе К.Г., Симановский С.А., Демидова Т.Б., Крысанов Е.Ю. Цитогенетические методы для оценки состояния окружающей среды. – Экологический мониторинг. Часть Х / Под ред. Гелашвили Д.Б. Нижний Новгород: Нижегородский университет, 2019. 188 с.
- Сычева Л.П. Цитогенетический мониторинг для оценки безопасности среды обитания человека // Гигиена и санитария. 2012. Т. 6. С. 68–72.
- Grisolia C.K. A comparison between mouse and fish micronucleus test using cyclophosphamide, mitomycin C and various pesticides. Mutation Research // Genetic Toxicology and Environmental Mutagenesis. 2002. V. 518(2). P. 145–150. https://doi.org/10.1016/s1383-5718(02)00086-4
- Ilyinskikh N.N., Ilyinskikh E.N., Ilyinskikh I.N. Infectious mutagenesis: Cytogenetic effects in human and animal cells as well as immunoreactivity induced by viruses, bacteria and helminthes. LAP: Lambert Academic Publishing, 2012. 224 p.
- The Micronucleus Assay in Toxicology. Issues in Toxicology / Eds Knasműller S., Fenech M.; UK: Croydon: CPI Group (UK) Ltd., 2019. № 39. 657 p.
- Koppen G., Azqueta A., Pourrut B., Brunborg G., Collins A.R., Langie S.A.S. The next three decades of the comet assay: a report of the 11th International Comet Assay Workshop // Mutagenesis. 2017. V. 32(3). P. 397–408. https://doi.org/10.1093/mutage/gex002
- Krysanov E.Y. Aneuploidy in postnatal ontogenesis of fishes // Acta Zool. Fenn. 1992. V. 191. P. 177–182.
- Krysanov E.Y., Ordzhonikidze K.G., Simanovsky S.A. Cytogenetic indicators in estimation of environmental state // Russ. J. Dev. Biol. 2018. V. 49. P. 36–41. https://doi.org/10.1134/S1062360418010034
- Mateuca R.A., Decordier I., Kirsch–Volders M. Cytogenetic Methods in Human Biomonitoring: Principles and Uses. // Genetic Toxicology. Methods in Molecular Biology / Ed. Parry J., Parry E.; N.Y.: Springer, 2012. V. 817. https://doi.org/10.1007/978-1-61779-421-6_15
- Ordzhonikidze C.G., Demidova T.B., Krysanov E.Yu. Evaluation of genetic homeostasis in animals at different stages of ontogenesis in the environment // Russ. J. Dev. Biol. 2014. V. 45. № 3. P. 134–142. https://doi.org/10.1134/S1062360414030035
- van der Gaag M.A., van de Kerkhoff J.F.J. Mutagenicity testing of water with fish: a step forward to a reliable assay // Sci. Total Environ. 1985. V. 47. P. 293–298. https://doi.org/10.1016/0048-9697(85)90337-7
- Zakharov V.M., Krysanov E.Y., Pronin A.V., Trofimov I.E. Study of developmental homeostasis in natural populations. Health of environment concept: Methodology and practice of estimation. Russ. J. Dev. Biol. 2017. V. 48. № 6. P. 355–368. https://doi.org/10.1134/S1062360417060054
- Zakharov V.M., Trofimov I.E. Developmental Noise and Biological System Condition: Prolegomena // Symmetry. 2022. V. 14(11). P. 2380. https://doi.org/10.3390/sym14112380
Supplementary files
