Chapter 12

1. Chapter 12 The Cell Cycle

2. 100 µm Figure 12.2 A Key Roles of Cell Division • Unicellular organisms • Reproduce by cell division

3. 200 µm 20 µm (c) Tissue renewal. Bone marrow cells (b) Growth and development. Figure 12.2 B, C Key Roles of Cell Division • Multicellular organisms • Development from a fertilized cell • Growth • Repair

4. Concept 12.1 • How does Cell division results in genetically identical daughter cells?

5. Concept 12.1 • How does Cell division results in genetically identical daughter cells? • Cells duplicate their genetic material before they divide

6. 50 µm • A cell’s DNA = Genome Genome Chromosomes DNA molecule and proteins (Chromatin) Genes

7. Cell not dividing = • Chromosomes thin, loosely packed fibers called chromatin

8. Cell not dividing = • Chromosomes thin, loosely packed fibers called chromatin • Cell dividing = • Individual Chromosomes visible

9. Before a cell divides chromosomes replicate = sister chromatids joined together at the centromere Figure 8.4B

10. Before a cell divides chromosomes replicate = sister chromatids joined together at the centromere Figure 8.4B

11. Before a cell divides chromosomes replicate = sister chromatids joined together at the centromere Figure 8.4B

12. During Cell division sister chromatids separate • 2 daughter cellseach contain a complete, identical set of chromosomes Figure 8.4C

13. The cell cycle 2 major phases- Interphase and Mitotic Figure 8.5

14. Interphase- 3 subphases • G1 phase • S phase • G2 phase Figure 8.5

15. What Happens During Each Phase? • Interphase • Cell parts are made (G1, G2 phase) • Chromosomes duplicate (S phase) • Mitotic phase • Duplicated chromosomes separate • Separated chromosomes are distributed into two daughter cells

16. Interphase + Mitotic Phase = Cell cycle: • Interphase • Prophase • Metaphase • Anaphase • Telophase • Cytokinesis

17. The 5 stages of cell division • Interphase: • - Cell growth • Chromosomes condense • Chromosomes duplicate • Nuclear envelope begins to breakdown Figure 8.6 (Part 1)

19. The stages of cell division • Prophase: • Duplicated Chromosomes appear as 2 sister chromatids connected at the centromere • - Mitotic spindle forms in cytoplasm from centrosomes Figure 8.6 (Part 1)

21. The stages of cell division • Metaphase: • Mitotic spindle fully formed • Duplicated Chromosomes line up on metaphase plate located in middle of the cell • Each sister chromatid is attached to a spindle fiber Figure 8.6 (Part 1)

23. The stages of cell division • Anaphase: • Sister chromatids are pulled apart and taken to opposite poles of the cell by the spindle fibers • Cell elongates Figure 8.6 (Part 1)

25. Telophase: • Roughly opposite prophase: • Nuclear envelopes begin to reform around chromosomes • Chromosomes begin to uncoil • Mitotic spindle disappears • Mitosis complete! • The stages of cell division

27. Cytokinesis: -Division of the cytoplasm -Animals = cleavage furrow • The stages of cell division

28. Cytokinesis differs for plant and animal cells • Animals • Cytokinesis occurs by a constriction of the cell (cleavage) Figure 8.7A

29. Plants • membranous cell plate (golgi vesicles) forms and splits the cell in two Figure 8.7B

30. What Phase of Mitosis?

31. What Phase of Mitosis?

32. 8.11 Review: stages of mitosis Figure 8.11A

33. 0 • A group of cells is assayed for DNA content immediately following mitosis and is found to have an average of 8 picograms of DNA per nucleus. Those cells would have __________ picograms at the end of the S phase and __________picograms at the end of G2. A 8 ... 8 B 8 ... 16 C 16 ... 8 D 16 ... 16 E 12 ... 16

34. The Mitotic Spindle: A Closer Look • The mitotic spindle • Is an apparatus of microtubules that controls chromosome movement during mitosis

35. The Spindle • Centrosomes • Spindle microtubules • Asters

37. How are chromosomes pulled to poles? 1 1

38. How are chromosomes pulled to poles?

39. How are chromosomes pulled to poles?

40. How are chromosomes pulled to poles?

41. ? 0 • Cytokinesis usually, but not always, follows mitosis. If a cell completed mitosis but not cytokinesis, what would be the result? A a cell with a single large nucleus B a cell with high concentrations of actinand myosin C a cell with two abnormally small nuclei D a cell with two nuclei E a cell with two nuclei but with half theamount of DNA

42. Binary Fission: Prokaryotes (bacteria) • Origin of replication = duplicated

43. Binary Fission Prokaryotes (bacteria) • Origin of replication = duplicated • One copy of origin moves to opposite end

44. Binary Fission Prokaryotes (bacteria) • Origin of replication = duplicated • One copy of origin moves to opposite end • Replication continues; cell elongates

45. Review • Interphase + Mitotic phase = Cell division in Eukaryotes • Binary Fission- Cell division in Prokaryotes • Similarities and Differences? • Mitotic Spindle- How do sisters move to poles?

46. How are chromosomes pulled to poles? 1 1

47. How are chromosomes pulled to poles?

48. How are chromosomes pulled to poles?

49. How are chromosomes pulled to poles?

50. Concept 12.3 How is cell cycle is regulated ? = Molecular control system - Controls frequency of cell division - Ex: Skin vs. muscle cells