| Autor: |
Timina MF; Subtropical Scientific Center of the Russian Academy of Sciences, 2/28 Jan Fabricius str., Sochi 354002, Krasnodar Territory, Russian Federation, e-mail: subplod@mail.ru., Pavlova LE; Subtropical Scientific Center of the Russian Academy of Sciences, 2/28 Jan Fabricius str., Sochi 354002, Krasnodar Territory, Russian Federation, e-mail: subplod@mail.ru., Kirgintsev RM; Subtropical Scientific Center of the Russian Academy of Sciences, 2/28 Jan Fabricius str., Sochi 354002, Krasnodar Territory, Russian Federation, e-mail: subplod@mail.ru., Agumava AA; Subtropical Scientific Center of the Russian Academy of Sciences, 2/28 Jan Fabricius str., Sochi 354002, Krasnodar Territory, Russian Federation, e-mail: subplod@mail.ru. |
| Abstrakt: |
Telomeres are specialized terminal sections of chromosomes that ensure the stability of the latter. DNA duplication during cell division is associated with telomere shortening due to the phenomenon of terminal underreplication. As cells divide, shortening of telomere length is considered to be one of the most important causes of cell aging. Estimation of telomere length still remains the subject of scientific research in gerontology and it is not used in clinical practice. Most often, rodents are used as a model object for studying the aging process, but the neuroendocrine mechanisms that influence, among other things, the regulation of the aging process differ in rodents and humans. The model objects closest in phylogenetic relation to humans are monkeys. In particular, Rhesus macaques is one of the representatives of the Old World most often used in biomedical research. However, data on age-related changes in telomere length in monkeys are extremely scarce. We studied the absolute average length of telomeres in DNA from blood leukocytes of 29 clinically healthy male rhesus monkeys aged from 4 to 24 years using quantitative PCR-method. The data obtained did not correspond to the normal distribution and the correlation analysis showed the absence of a significant dependence of telomere length on the age of the animals (rs=0,27; p>0,05). Thus, our study does not confirm the dependence of changes in the average length of telomeres of blood leukocytes with age. |
