Telomeres, the ends of eukaryotic chromosomes, consist of thousands of repeated G-rich sequences (TTAGGG in humans) decorated by DNA-binding proteins that form a telomeric capping structure called shelterin. Telomere maintenance is essential for genomic stability and cell viability. Telomere shortening correlates with cellular ageing, which limits the number of times a somatic cell can divide. In stem cells and 90% of human cancer, cell proliferation and immortalization requires activation of the telomerase enzyme. In this course, you will learn about the structure and function of telomeres and telomerase, protein and DNA interactions and cell cycle regulation of telomeric chromatin. Furthermore, the course covers telomere maintenance in cancer cells, accelerated ageing diseases, genome stability and DNA damage. The course contains introductory lectures as well as tutorials for in-depth discussions of current topics in the field.
| AUs | 3.0 AUs |
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