Maintenance of dNTP pool homeostasis and genomic stability.

As an important precursor for DNA synthesis, the four deoxyribonucleoside triphosphates (dATP, dTTP, dGTP, and dCTP) are necessary raw materials for DNA replication, recombination, and repair in cells. The correct synthesis and integrity of DNA are important manifestations of the genome stability, so the stability of the dNTP library state is essential to maintain the stability of the genome and the cell. In terms of the quality of the dNTP library, the incorporation of some heterogeneous dNTPs, such as oxidized dNTPs, into DNA can easily cause base substitutions and even DNA breaks and rearrangements, which will greatly damage the stability of the genome. At the same time, the cell has also evolved the corresponding NTP pyrophosphatase to remove it, and to correct the damaged DNA and repair the DNA gap by forming a DNA damage repair network. In terms of the number of dNTP libraries, the imbalance of the dNTP concentration and ratio will also cause base and frameshift mutations, which will also cause genome instability. As a result, cells have evolved a huge enzyme-controlled network to carry them out under precise control. This article mainly reviews the potential harm of damage to dNTP library components in cells, the clearance of damaged dNTPs, the regulation on the balance between dNTP library components, and finally discusses clinical diseases related to dNTP library homeostasis. It provides insights on the research of the correlation between the stability of the cellular dNTP library and the genome, and finally provides some theoretical basis for the treatment of related diseases.

Citation

Cong Liu, Jia-Ni Feng, Wei-Wei Li, Wei-Wei Zhu, Yun-Xin Xue, Dai Wang, Xi-Lin Zhao. Maintenance of dNTP pool homeostasis and genomic stability. Yi chuan = Hereditas. 2022 Feb 20;44(2):96-106

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PMID: 35210212

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