DNA Damage/DNA Repair
The DNA in a human cell receives tens of thousands of damages per day due to both external (exogenous) and internal (endogenous) stress. The exogenous damages are caused by chemical contamination, UV light, ionizing radiation and alkylation/methylation etc, while the endogenous damages are coming from oxidation, alkylation and hydrolysis of bases etc. Since single strand and double strand breaks of DNA will occur after the damage, unrepaired DNA damage leads to cell senescent, apoptosis and malignancies etc. To overcome this threat, cell has developed DNA damage response, to detect DNA damage and mediate its repair.
DNA repair involves multiple mechanisms such as mismatch, base excision, and nucleotide excision repair etc. A group of proteins and pathways are participated in those processes. ATM/ATR kinases and DNA-PK are crucial for the detection of the DNA damage. Chromatin remodelers regulate chromatin accessibility for the DNA repair factors to function. RPA, Rad51 and the fanconi anemia proteins act directly on repairing the DNA damage. p53 network, the RAS GTPase superfamily, and the ubiquitin system also play important part in the DNA damage response. Aberrant DNA damage response is linked to aging, cancer and immune diseases.
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BA4518 SIRT2-IN-9Summary: SIRT2-IN-9 is a selective inhibitor. - BA4519 SIRT-IN-1Summary: An inhibitor.
- BA4520 SIRT1-IN-3Summary: An inhibitor.
- BA4521 SIRT2-IN-11Summary: SIRT2-IN-11 (AEM1) is a selective inhibitor.
- BA4522 BML-278Summary: BML-278 is an activator.
- BA4523 5-HeptadecylresorcinolSummary: 5-Heptadecylresorcinol (AR-C17) is a phenolic lipid component and an orally effective mitochondrial protective agent.
- BA4524 MIND4-19Summary: MIND4-19 is a potent inhibitor.
- BA4525 CrBKASummary: Weakly active fluorescent small molecule substrate.
- BA4526 Z26395438Summary: Z26395438 is an inhibitor of Sirtuin-1.
- BA4527 AC-93253Summary: AC-93253 is a selective and potent inhibitor.