1. Introduction to DNA replication initiation in eukaryotes.- 2. Choice of origins and replication timing control in yeast.- 3. Replication timing and initiation in metazoans.- 4. Replication timing gradients and origin activation.- 5. Genome wide localization of replication initiation factors.- 6. Genome scale analysis of metaozoan replication origins.- 7. Role of dormant origins in replication initiation.- 8. Centromeres and DNA replication initiation.- 9. Rif1 regulation of replication timing.- 10. Role of ORC in replication initiation.- 11. Licensing of replication origins- loading Mcm2-7.- 12. Role of chromatin in replication initiation.- 13. Role of Mcm2-7 in replication initiation.- 14. Role of CDK in replication initiation.- 15. Role of DDK in replication initiation.- 16. Roles of Sld2, Sld3, and Dpb11 in replication initiation.- 17. Role of Mcm10 in replication initiation.- 18. Role of post-translational modifications in replication initiation.- 19. Assembly of the Cdc45-Mcm2-7-GINS complex, the replication helicase.- 20. Activity of the Cdc45-Mcm2-7-GINS complex, the replication helicase.- 21. Structure function studies of replication initiation factors.- 22. Pol-alpha activation and coupling with helicase unwinding.- 23. Replication initiation and DNA damage.- 24. Protein phosphatases and replication initiation.- 25. Spindle checkpoints and replication initiation.- 26. Protein degradation and replication initiation.- 27. Break-induced replication.- 27. Meier Gorlin syndrome.- 28. Replication Stress and Cancer.
Daniel Kaplan, PhD is an Associate Professor in the Department of Biomedical Sciences at Florida State University College of Medicine. He is the director of the Kaplan Lab that studies DNA replication and genome maintenance. Dr. Kaplan is also the Assistant Course Director for the Medical Microbiology course.
Daniel Kaplan has been studying microbiology, biochemistry, and genetics for over 20 years. As an assistant professor at Vanderbilt University, Dr. Kaplan led a team that published primary research articles that investigated how DNA replication is initiated in budding yeast. As a post-doctoral fellow, Daniel Kaplan worked with National Academy of Science member Mike O’Donnell at Rockefeller University and published manuscripts on the function and mechanism of bacterial and yeast replication fork helicases. In graduate school, Daniel Kaplan worked with Nobel Laureate Thomas Steitz at Yale University to determine how the bacterial replication fork helicase, DnaB, modulates DNA structure. Dr. Kaplan attended Yale Medical School and received training in cancer research before entering graduate school.