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Cell Cycle Regulation and Growth Principles by Dr. B. Duronio

Explore the principles of cell cycle regulation and growth by Dr. B. Duronio from The University of North Carolina at Chapel Hill. Learn about mitosis, fibroblast culture, cyclin-dependent kinases, and more. Discover experimental systems like Saccharomyces cerevisiae and Xenopus laevis crucial for cell cycle studies. Understand the significance of cyclins in CDK regulation and the involvement of CKIs. This comprehensive guide delves into the intricate mechanisms dictating cell division, growth factors, and proliferation.

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Cell Cycle Regulation and Growth Principles by Dr. B. Duronio

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  1. Buněčný cyklus - principy regulace buněčného růstu a buněčného dělění

  2. Mitóza Dr. B. Duronio, The University of North Carolina at Chapel Hill

  3. Průběh mitózy v buněčné kultuře fibroblastů Dr. B. Duronio, The University of North Carolina at Chapel Hill

  4. Buněčný cyklus Dr. B. Duronio, The University of North Carolina at Chapel Hill

  5. Kinázy závislé na cyklinech kontrolují buněčný cyklus Dr. B. Duronio, The University of North Carolina at Chapel Hill

  6. Kontrola vstupu do mitózy - výsledek využití různých buněčných modelů

  7. Experimental Systems Important for Cell Cycle Studies Saccharomyces cerevisiae Arbacia punctulata Schizosaccharomyces pombe Xenopus laevis Dr. B. Duronio, The University of North Carolina at Chapel Hill

  8. Protein Level cyclin A cyclin B Time M M M Cyclin was Discovered in Sea Urchin Embryos can stimulate to lay lots of eggs Dr. B. Duronio, The University of North Carolina at Chapel Hill

  9. Frog life cycle OOCYTE GROWS WITHOUT DIVIDING (MONTHS) FERTILIZED EGG DIVIDES WITHOUT GROWING (HOURS) FERTILIZATION 1 mm sperm tadpole feeds, grows and becomes an adult frog

  10. The Maturation of Frog Eggs An Assay for Maturation Promoting Factor (MPF) Yoshio Masui, 1971

  11. MPF Activity Peaks Before Each Cell Division Moreover, MPF has kinase activity

  12. Dr. B. Duronio, The University of North Carolina at Chapel Hill

  13. Dr. B. Duronio, The University of North Carolina at Chapel Hill Purification of MPF: The Birth of Cyclin Dependent Kinases This is cdc2+!! (Cdc28 in S. cerevisiae) This is cyclin!! Which = cdc13+ in S. pombe

  14. Fission yeast: Schizosaccharomyces pombe Dr. B. Duronio, The University of North Carolina at Chapel Hill

  15. Budding Yeast Saccharomyces cerevisiae Dr. B. Duronio, The University of North Carolina at Chapel Hill

  16. Cdc Mutants Arrest at the Same Cell Cycle Phase Permissive (low) temperature Restrictive (high) temperature Dr. B. Duronio, The University of North Carolina at Chapel Hill

  17. Cdc Genes Encode Proteins Needed for the G2-M Transition: Studies in S. pombe cdc2+ encodes a kinase Moreover = cdc28 in S. cerevisiae! Dr. B. Duronio, The University of North Carolina at Chapel Hill

  18. Phosphorylation of CDK Targets Changes Their Activity Now performs a cell cycle function Dr. B. Duronio, The University of North Carolina at Chapel Hill

  19. Jak jsou CDK regulovány? • prostřednictvím syntézy a odbourávání cyklinů • fosforylací • pomocí CDK inhibitory proteins (CKIs)

  20. Cyclin Destruction is Controlled by Ubiquitination Dr. B. Duronio, The University of North Carolina at Chapel Hill

  21. Představují cykliny jediný způsob regulace CDK?

  22. Exprese cyklinů v jednotlivých fázích BC Dr. B. Duronio, The University of North Carolina at Chapel Hill

  23. CDK jsou regulovány fosforylací

  24. Conformational Changes Associated with CDK Phosphorylation Free CDK CDK + Cyclin T161 phosphorylation The T-loop blocks substrate access Binding of cyclin moves the T-loop Phosporylation moves the T-loop more

  25. Cyclin Dependent Kinase Inhibitors (CKIs)

  26. Dr. B. Duronio, The University of North Carolina at Chapel Hill active inactive CDK CDK + p21 p21 Cyclin Cyclin p27Kip1 CDK2 Cyclin A The p21 Family of CDK inhibitors (p21CIP1/WAF1, p27KIP1, p57KIP2) Cyclin A CDK2 Jeffrey et al. (1995) Nature 376:313 Russo et al. (1996) Nature 382:325

  27. Dr. B. Duronio, The University of North Carolina at Chapel Hill active inactive CDK4/6 CDK4/6 + + Cyclin D INK4 Cyclin D INK4 Russo et al. (1998) Nature 395:237 Brotherton et al. (1998) Nature 395:244 The INK4 Family of CDK inhibitors (p16INK4a, p15INK4b, p18INK4c, p19INK4d)

  28. CKIs Regulate the G1-S Transition (p16) (p21, p27) Dr. B. Duronio, The University of North Carolina at Chapel Hill

  29. Nature Reviews Cancer 2001, 1:222

  30. Dr. B. Duronio, The University of North Carolina at Chapel Hill

  31. pRB Binds to the E2F Transcription Factor Dr. B. Duronio, The University of North Carolina at Chapel Hill

  32. G1 Cyclin CDKs Phosphorylate pRB Dr. B. Duronio, The University of North Carolina at Chapel Hill

  33. Proliferation Signals p16 Regulates pRB Phosphorylation Dr. B. Duronio, The University of North Carolina at Chapel Hill

  34. Nature Reviews Cancer 2001, 1:222

  35. Kontrola buněčného cyklu úzce souvisí s: • kontrolou buněčného růstu; • přítomností růstových faktorů a dalších růstových stimulů a živin; • působením ostatních buněk populace a mezibuněčné hmoty.

  36. Growth with No Cell Division Cell Division + Growth = Proliferation! Cell Division No Growth The Difference Between Growth and Cell Division

  37. Growth with No Cell Division: A Differentiated Neuron Dr. B. Duronio, The University of North Carolina at Chapel Hill

  38. Cell Division with No Growth: Early Development 1 mm sperm Dr. B. Duronio, The University of North Carolina at Chapel Hill

  39. Nature Reviews Cancer 2001, 1:222

  40. Growth Factors Induce Cell Cycle Progression Growth Factors act at the Restriction Point Dr. B. Duronio, The University of North Carolina at Chapel Hill

  41. Nature Reviews Cancer 2001, 1:222

  42. Dr. B. Duronio, The University of North Carolina at Chapel Hill pm = post mitotic ps = pre-synthetic Zetterberg and Larsson, PNAS 82:5365 (1985)

  43. Growth Factors Induce Gene Expression Dr. B. Duronio, The University of North Carolina at Chapel Hill

  44. Growth Factors Induce Cyclin D1 Expression Sherr and McCormick, Cancer Cell, Vol 2, 103-112 (2002)

  45. Mitogen Induced Cell Cycle Progression in Cell Culture Dr. B. Duronio, The University of North Carolina at Chapel Hill

  46. Cell Cycle Checkpoints

  47. Cell Cycle Checkpoints Improve Cell Viability Weinert and Hartwell, Science 246:629 (1989)

  48. How do Cell Cycle Checkpoints Work? Zhou and Elledge Nature408, 433 - 439 (2000)

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