Concept

DNA repair

Related lectures (31)

Covers DNA damage types, repair mechanisms, UV-induced damage, survival curves, NER deficiency consequences, tumor suppressor genes, and cancer prevention.

DNA Repair Mechanisms

Explores DNA repair mechanisms, DNA damage response, and synthetic lethality in cancer.

DNA Damage and Repair

Explores DNA damage, repair mechanisms, mutation consequences, and cancer prevention through tumor suppressor genes.

Self-attraction of DNA: Mediated Interactions

Discusses the self-attraction of DNA and its mediated interactions.

DNA Repair Mechanisms

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.

Cancer Biology: p53 and DNA Repair

Explores p53's pivotal role in cellular stability, DNA repair, and tumor suppression, emphasizing TP53 mutations and DNA double-strand break repair mechanisms.

DNA Repair Mechanisms

Explores DNA repair mechanisms, focusing on BER and NER, cellular responses to DNA damage, and genetic disorders impacting DNA repair and cancer susceptibility.

Cancer Biology: Base Excision Repair

Covers cancer biology topics on base excision repair, cellular responses to DNA damage, p53 regulation, and apoptosis mechanisms.

DNA Replication and PCR Basics

Explores DNA replication, repair, PCR basics, genetic diversity, and forensic applications.

DNA Repair Mechanisms

Explores DNA repair mechanisms including BER, NER, NHEJ, and HR.

Telomere damage response

Discusses the telomere damage response and the interplay between ATM and ATR kinases.

DNA Structure and Function

Explores DNA structure, histone interactions, polymerase function, nucleosome organization, chromatin compaction, cell cycle phases, FISH analysis, and telomere structure.

DNA Replication: Accuracy and Proofreading

Explores DNA replication accuracy mechanisms, including proofreading by DNA polymerase.

DNA Damage Repair

Explores the mechanisms of DNA damage repair, including direct repair and different excision repair pathways.

Genetic Instability: De Palma

Explores genetic instability in cancer, multi-step progression, repair mechanisms, and cancer stem cells.

Genome Editing: CRISPR-Cas Applications

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.

Biological effects of ionizing radiation

Explores the biological effects of ionizing radiation and how tissues defend against damage.

DNA as Biomaterial Lecture: Programming with DNA Origami

Explores DNA fundamentals, nano-engineering, and bioengineering applications, focusing on programmable biomaterials and DNA origami structures.

Molecular Evolution: Repair Mechanisms and Genetic Diversity

Explores DNA repair mechanisms, CRISPR/Cas system, evolution experiments, and genetic diversity.

DNA Replication: Mechanisms and Errors

Explores DNA replication mechanisms, including speed, errors, proofreading, and semiconservative nature, emphasizing the importance of maintaining DNA fidelity through mismatch repair.