Noncatalytic Domains in DNA Glycosylases

Torgasheva, N. A.; Diatlova, Evgeniia A.; Grin, Inga R.; Endutkin, Anton V.; Mechetin, Grigory V.; Vokhtantsev, Ivan P.; Yudkina, Anna V.; Zharkov, Dmitry O.

doi:10.3390/ijms23137286

IJMS

2022

DOI: 10.3390/ijms23137286

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Noncatalytic Domains in DNA Glycosylases

N. A. Torgasheva

Evgeniia A. Diatlova

Inga R. Grin

et al.

Abstract: Many proteins consist of two or more structural domains: separate parts that have a defined structure and function. For example, in enzymes, the catalytic activity is often localized in a core fragment, while other domains or disordered parts of the same protein participate in a number of regulatory processes. This situation is often observed in many DNA glycosylases, the proteins that remove damaged nucleobases thus initiating base excision DNA repair. This review covers the present knowledge about the functi… Show more

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Cited by 2 publications

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Choudhury,

Haidar

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Biomedicine & Pharmacotherapy

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Exploring MTH1 inhibitory potential of Thymoquinone and Baicalin for therapeutic targeting of breast cancer

Taiyab,

Choudhury,

Haidar

et al. 2024

Biomedicine & Pharmacotherapy

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Effect of Oxidative Stress on Mitochondrial Damage and Repair in Heart Disease and Ischemic Events

Kowalczyk,

Krych,

Kramkowski

et al. 2024

IJMS

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The literature analysis conducted in this review discusses the latest achievements in the identification of cardiovascular damage induced by oxidative stress with secondary platelet mitochondrial dysfunction. Damage to the platelets of mitochondria as a result of their interactions with reactive oxygen species (ROS) and reactive nitrogen species (RNS) can lead to their numerous ischemic events associated with hypoxia or hyperoxia processes in the cell. Disturbances in redox reactions in the platelet mitochondrial membrane lead to the direct oxidation of cellular macromolecules, including nucleic acids (DNA base oxidation), membrane lipids (lipid peroxidation process) and cellular proteins (formation of reducing groups in repair proteins and amino acid peroxides). Oxidative changes in biomolecules inducing tissue damage leads to inflammation, initiating pathogenic processes associated with faster cell aging or their apoptosis. The consequence of damage to platelet mitochondria and their excessive activation is the induction of cardiovascular and neurodegenerative diseases (Parkinson’s and Alzheimer’s), as well as carbohydrate metabolism disorders (diabetes). The oxidation of mitochondrial DNA can lead to modifications in its bases, inducing the formation of exocyclic adducts of the ethano and propano type. As a consequence, it disrupts DNA repair processes and conduces to premature neoplastic transformation in critical genes such as the p53 suppressor gene, which leads to the development of various types of tumors. The topic of new innovative methods and techniques for the analysis of oxidative stress in platelet mitochondria based on methods such as a nicking assay, oxygen consumption assay, Total Thrombus formation Analysis System (T-Tas), and continuous-flow left ventricular assist devices (CF-LVADs) was also discussed. They were put together into one scientific and research platform. This will enable the facilitation of faster diagnostics and the identification of platelet mitochondrial damage by clinicians and scientists in order to implement adequate therapeutic procedures and minimize the risk of the induction of cardiovascular diseases, including ischemic events correlated with them. A quantitative analysis of the processes of thrombus formation in cardiovascular diseases will provide an opportunity to select specific anticoagulant and thrombolytic drugs under conditions of preserved hemostasis.

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Noncatalytic Domains in DNA Glycosylases

Cited by 2 publications

References 193 publications

Exploring MTH1 inhibitory potential of Thymoquinone and Baicalin for therapeutic targeting of breast cancer

Exploring MTH1 inhibitory potential of Thymoquinone and Baicalin for therapeutic targeting of breast cancer

Effect of Oxidative Stress on Mitochondrial Damage and Repair in Heart Disease and Ischemic Events

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