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Explores DNA repair mechanisms, focusing on BER and NER, cellular responses to DNA damage, and genetic disorders impacting DNA repair and cancer susceptibility.
Explores DNA repair mechanisms, including BER, MMR, NER, and repair of double-strand breaks, as well as the impact of UV-induced lesions and resistance to PARP inhibitors.
Covers DNA damage types, repair mechanisms, UV-induced damage, survival curves, NER deficiency consequences, tumor suppressor genes, and cancer prevention.
Explores DNA repair mechanisms, highlighting the excision repair pathway and the correction of DNA lesions induced by UV radiation and ionizing radiation.
Explores p53's pivotal role in cellular stability, DNA repair, and tumor suppression, emphasizing TP53 mutations and DNA double-strand break repair mechanisms.
Explores the applications of CRISPR-Cas in genome editing, focusing on engineering bacterial genomes, curing genetic diseases, guide RNA simplicity, Cas9 specificity, DNA damage mechanisms, and base editing.
