ЭПИГЕНЕТИЧЕСКИЕ МОДИФИКАЦИИ ПРИ ВЫПОЛНЕНИИ ФИЗИЧЕСКИХ НАГРУЗОК

Standard

ЭПИГЕНЕТИЧЕСКИЕ МОДИФИКАЦИИ ПРИ ВЫПОЛНЕНИИ ФИЗИЧЕСКИХ НАГРУЗОК. / Golberg, N. D.; Astratenkova, I. V.; Akhmetov, I. I.; Rogozkin, V. A.

In: ТЕОРИЯ И ПРАКТИКА ФИЗИЧЕСКОЙ КУЛЬТУРЫ, No. 2, 01.02.2018, p. 51-53.

Research output: Contribution to journal › Article › peer-review

Harvard

Golberg, ND, Astratenkova, IV, Akhmetov, II & Rogozkin, VA 2018, 'ЭПИГЕНЕТИЧЕСКИЕ МОДИФИКАЦИИ ПРИ ВЫПОЛНЕНИИ ФИЗИЧЕСКИХ НАГРУЗОК', ТЕОРИЯ И ПРАКТИКА ФИЗИЧЕСКОЙ КУЛЬТУРЫ, no. 2, pp. 51-53.

APA

Golberg, N. D., Astratenkova, I. V., Akhmetov, I. I., & Rogozkin, V. A. (2018). ЭПИГЕНЕТИЧЕСКИЕ МОДИФИКАЦИИ ПРИ ВЫПОЛНЕНИИ ФИЗИЧЕСКИХ НАГРУЗОК. ТЕОРИЯ И ПРАКТИКА ФИЗИЧЕСКОЙ КУЛЬТУРЫ, (2), 51-53.

Vancouver

Golberg ND, Astratenkova IV, Akhmetov II, Rogozkin VA. ЭПИГЕНЕТИЧЕСКИЕ МОДИФИКАЦИИ ПРИ ВЫПОЛНЕНИИ ФИЗИЧЕСКИХ НАГРУЗОК. ТЕОРИЯ И ПРАКТИКА ФИЗИЧЕСКОЙ КУЛЬТУРЫ. 2018 Feb 1;(2):51-53.

Author

Golberg, N. D. ; Astratenkova, I. V. ; Akhmetov, I. I. ; Rogozkin, V. A. / ЭПИГЕНЕТИЧЕСКИЕ МОДИФИКАЦИИ ПРИ ВЫПОЛНЕНИИ ФИЗИЧЕСКИХ НАГРУЗОК. In: ТЕОРИЯ И ПРАКТИКА ФИЗИЧЕСКОЙ КУЛЬТУРЫ. 2018 ; No. 2. pp. 51-53.

BibTeX

@article{60c54de675c041a1b50623b8e143a9d6,

title = "ЭПИГЕНЕТИЧЕСКИЕ МОДИФИКАЦИИ ПРИ ВЫПОЛНЕНИИ ФИЗИЧЕСКИХ НАГРУЗОК",

abstract = "Mapping on the human genome and genome of other organisms revealed not only the DNA organization principles, but also showed the regulation complexity of the structural and metabolic genes expression. It turned out that external influences such as nutrition, stress, physical activity and other external stimuli change genes expression and control it through a complex set of regulatory mechanisms. A complex set of molecular mechanisms, including genetic and epigenetic factors, is involved in the regulation of skeletal muscle metabolism. Epigenetic regulation of gene expression in human skeletal muscles is carried out at three levels: DNA methylation, histone modification and mRNA-microRNA interaction. The article considers the possible mechanisms of epigenetic regulation of intracellular metabolism of skeletal muscles during single and systematic exercises.",

keywords = "DNA methylation, Epigenetics, Exercise, MicroRNA, Modification of histones",

author = "Golberg, {N. D.} and Astratenkova, {I. V.} and Akhmetov, {I. I.} and Rogozkin, {V. A.}",

year = "2018",

month = feb,

day = "1",

language = "русский",

pages = "51--53",

journal = "THEORY AND PRACTICE OF PHYSICAL CULTURE",

issn = "2409-4234",

publisher = "НИЦ Теория и практика физической культуры и спорта",

number = "2",

}

RIS

TY - JOUR

T1 - ЭПИГЕНЕТИЧЕСКИЕ МОДИФИКАЦИИ ПРИ ВЫПОЛНЕНИИ ФИЗИЧЕСКИХ НАГРУЗОК

AU - Golberg, N. D.

AU - Astratenkova, I. V.

AU - Akhmetov, I. I.

AU - Rogozkin, V. A.

PY - 2018/2/1

Y1 - 2018/2/1

N2 - Mapping on the human genome and genome of other organisms revealed not only the DNA organization principles, but also showed the regulation complexity of the structural and metabolic genes expression. It turned out that external influences such as nutrition, stress, physical activity and other external stimuli change genes expression and control it through a complex set of regulatory mechanisms. A complex set of molecular mechanisms, including genetic and epigenetic factors, is involved in the regulation of skeletal muscle metabolism. Epigenetic regulation of gene expression in human skeletal muscles is carried out at three levels: DNA methylation, histone modification and mRNA-microRNA interaction. The article considers the possible mechanisms of epigenetic regulation of intracellular metabolism of skeletal muscles during single and systematic exercises.

AB - Mapping on the human genome and genome of other organisms revealed not only the DNA organization principles, but also showed the regulation complexity of the structural and metabolic genes expression. It turned out that external influences such as nutrition, stress, physical activity and other external stimuli change genes expression and control it through a complex set of regulatory mechanisms. A complex set of molecular mechanisms, including genetic and epigenetic factors, is involved in the regulation of skeletal muscle metabolism. Epigenetic regulation of gene expression in human skeletal muscles is carried out at three levels: DNA methylation, histone modification and mRNA-microRNA interaction. The article considers the possible mechanisms of epigenetic regulation of intracellular metabolism of skeletal muscles during single and systematic exercises.

KW - DNA methylation

KW - Epigenetics

KW - Exercise

KW - MicroRNA

KW - Modification of histones

UR - http://www.scopus.com/inward/record.url?scp=85044511763&partnerID=8YFLogxK

M3 - статья

AN - SCOPUS:85044511763

SP - 51

EP - 53

JO - THEORY AND PRACTICE OF PHYSICAL CULTURE

JF - THEORY AND PRACTICE OF PHYSICAL CULTURE

SN - 2409-4234

IS - 2

ER -

ID: 36518845