Kudoyarov, E.R.,
Karimov, D.O.,
Bakirov, A.B.,
Mukhammadieva, G.F.,
Karimova, L.K.,
Galimova, R.R. (2022) of the OGG1 gene and the severity of
DNA breaks.
The study revealed adverse effects produced by the chemical
Ivanova, E.,
Gilyazova, I.,
Pavlov, V.,
Izmailov, A.,
Gimalova, G.,
Karunas, A.,
Prokopenko, I.,
Khusnutdinova, E. (2022) case-control study of ccRCC in the Volga-Ural region of the Eurasia continent. We evaluated 28
DNA SNP
Lu, Enzhou,
Gareev, Ilgiz,
Yuan, Chao,
Liang, Yanchao,
Sun, Jingxian,
Chen, Xin,
Beylerli, Ozal,
Sufianov, Albert,
Zhao, Shiguang,
Yang, Guang (2022) the cell cycle, and the main site of action is the
DNA of cells, which are common chemotherapeutic drugs
Mingazheva, E.T.,
Prokofyeva, D.S.,
Valova, Ya.V.,
Andreeva, E.A.,
Nurgalieva, A.Kh.,
Valiev, R.R.,
Ekomasova, N.V.,
Faishanova, R.R.,
Romanova, A.R.,
Khusnutdinova, E.K. (2022) involved in the
disease. As a result of previous exome sequencing of
DNA samples from breast cancer Germany
Yalaev, Bulat,
Tyurin, Anton,
Prokopenko, Inga,
Karunas, Aleksandra,
Khusnutdinova, Elza,
Khusainova, Rita (2022) . Using the polygenic score (PGS) approach, we combined the effects of bone mineral density (BMD)
DNA loci
ВЛИЯНИЕ ПОЛИМОРФИЗМА ГЕНА G1082AIL-10 НА ТЕЧЕНИЕ ОСТРЫХ КИШЕЧНЫХ ИНФЕКЦИЙ). Genomic
DNA was analyzed. Statistical data pro-cessing was carried out using electronic programs Microsoft
such as proteins, lipids, RNA and
DNA. Several studies have shown that their contents, including proteins
Sufianova, Galina,
Sufianova, Galina,
Beylerli, Ozal,
Wu, Jianing,
Shumadalova, Alina,
Sufianov, Albert,
Chen, Xin,
Zhao, Shiguang (2022) . These processes can increase the amount of
DNA damage and lead to loss of control over cell division. A number