Please use this identifier to cite or link to this item: https://repository.ldufk.edu.ua/handle/34606048/32519
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dc.contributor.authorHashchyshyn, V.-
dc.contributor.authorTymochko-Voloshyn, R.-
dc.contributor.authorParaniak, N.-
dc.contributor.authorVovkanych, L.-
dc.contributor.authorHlozhyk, I.-
dc.contributor.authorTrach, V.-
dc.contributor.authorMuzyka, F.-
dc.contributor.authorSerafyn, Yu.-
dc.contributor.authorPrystupa, E.-
dc.contributor.authorBoretsky, Yu.-
dc.contributor.authorГащишин, Віра-
dc.contributor.authorТимочко-Волошин, Роксалана-
dc.contributor.authorПараняк, Наталія-
dc.contributor.authorВовканич, Любомир-
dc.contributor.authorГложик, Ірина-
dc.contributor.authorТрач, Володимир-
dc.contributor.authorМузика, Федір-
dc.contributor.authorСерафин, Юрій-
dc.contributor.authorПриступа, Євген-
dc.contributor.authorБорецький, Юрій-
dc.date.accessioned2022-06-24T07:13:46Z-
dc.date.available2022-06-24T07:13:46Z-
dc.date.issued2022-06-24-
dc.identifier.citationRegeneration of Skeletal Muscle Fibers and Regulation of Myosatellitocytes Metabolism / V. Hashchyshyn, R. Tymochko-Voloshyn, N. Paraniak, L. Vovkanych, I. Hlozhyk, V. Trach, F. Muzyka, Y. Serafyn, E. Prystupa, Y. Boretsky // Cytology and Genetics. - 2022. - Vol. 56, N 3. - Р. 253–260. DOI: 10.3103/S0095452722030033 (Scopus, Web of Science)uk_UA
dc.identifier.urihttp://repository.ldufk.edu.ua/handle/34606048/32519-
dc.description.abstractSkeletal muscles are heterogeneous tissue containing different types of muscle fibers. Their distribution depends on heredity, type of exercise, sex, age, and muscle type. In addition, stem cells (myosatellitocytes) are found in large amounts in the muscle tissue. Myosatellitocytes are the main material for regeneration of microtears of muscle fibers always occuring during intensive physical exercises. Myosatellitocytes are capable of long-term storage in an inactive “dormant” state, but they can be rapidly activated to provide an efficient repair of damaged muscle fibers. The metabolism of myosatellitocytes and myoblasts and their migration into the damaged area are regulated by a complex system of cytokines and transcription factors, the activity of which depends on many factors. Microtears initiating the development of the inflammatory process and activation of myosatellitocytes is a determining factor. The study into molecular mechanisms of the relationship between inflammatory processes in muscle tissue and changes in myosatellitocyte metabolism is of fundamental importance and is necessary for the selection of efficient methods for muscle tissue recovery.uk_UA
dc.language.isoenuk_UA
dc.relation.ispartofseriesнаукові праці професорсько-викладацького складу ЛДУФК імені Івана Боберського в базах даних Scopus та WoS;-
dc.subjectmyosatellitocytesuk_UA
dc.subjectnucleotide polymorphismsuk_UA
dc.subjecttranscription factorsuk_UA
dc.subjectskeletal musclesuk_UA
dc.subjectregenerationuk_UA
dc.subjectміосателітоцитиuk_UA
dc.subjectполіморфізм нуклеотидівuk_UA
dc.subjectтранскрипційні факториuk_UA
dc.subjectскелетні м'язиuk_UA
dc.subjectрегенераціяuk_UA
dc.titleRegeneration of Skeletal Muscle Fibers and Regulation of Myosatellitocytes Metabolismuk_UA
dc.title.alternativeРегенерація волокон скелетних м'язів і регуляція метаболізму міосателітоцитівuk_UA
dc.typeArticleuk_UA
Appears in Collections:Наукові праці професорсько-викладацького складу ЛДУФК в базах даних Scopus, WoS, Tomson Reuters

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