1 / 75

The Importance of Cell Division in Life Processes

This chapter opener explores the significance of cell division in various life processes. It covers asexual reproduction, sexual life cycles, prokaryotic cell division, mitosis, cytokinesis, cell cycle regulation, and a comparison of mitosis and meiosis.

Download Presentation

The Importance of Cell Division in Life Processes

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Chapter 7 Opener

  2. Figure 7.1 The Importance of Cell Division

  3. Figure 7.1 The Importance of Cell Division

  4. Figure 7.1 The Importance of Cell Division (Part 1)

  5. Figure 7.1 The Importance of Cell Division (Part 2)

  6. Figure 7.1 The Importance of Cell Division (Part 3)

  7. Figure 7.2 Asexual Reproduction on a Large Scale

  8. Figure 7.3 All Sexual Life Cycles Involve Fertilization and Meiosis

  9. Figure 7.3 All Sexual Life Cycles Involve Fertilization and Meiosis (Part 1)

  10. Figure 7.3 All Sexual Life Cycles Involve Fertilization and Meiosis (Part 2)

  11. Figure 7.3 All Sexual Life Cycles Involve Fertilization and Meiosis (Part 3)

  12. Figure 7.4 Prokaryotic Cell Division

  13. Figure 7.4 Prokaryotic Cell Division

  14. Figure 12.3 Chromosome duplication and distribution during mitosis

  15. Figure 19.1 Levels of chromatin packing

  16. Figure 7.5 The Phases of the Eukaryotic Cell Cycle

  17. Figure 7.5 The Phases of the Eukaryotic Cell Cycle

  18. Figure 7.5 The Phases of the Eukaryotic Cell Cycle (Part 1)

  19. Figure 7.5 The Phases of the Eukaryotic Cell Cycle (Part 2)

  20. Figure 7.5 The Phases of the Eukaryotic Cell Cycle (Part 3)

  21. In-Text Art, Ch. 7, p. 129

  22. In-Text Art, Ch. 7, p. 129

  23. Figure 7.6 The Phases of Mitosis (1)

  24. Figure 7.6 The Phases of Mitosis (2)

  25. Figure 7.6 The Phases of Mitosis (1)

  26. Figure 7.6 The Phases of Mitosis (2)

  27. Figure 7.6 The Phases of Mitosis (Part 1)

  28. Figure 7.6 The Phases of Mitosis (Part 2)

  29. Figure 7.6 The Phases of Mitosis (Part 3)

  30. Figure 7.6 The Phases of Mitosis (Part 4)

  31. Figure 7.6 The Phases of Mitosis (Part 5)

  32. Figure 7.6 The Phases of Mitosis (Part 6)

  33. Figure 7.7 Cytokinesis Differs in Animal and Plant Cells

  34. Figure 7.7 Cytokinesis Differs in Animal and Plant Cells

  35. Figure 7.7 Cytokinesis Differs in Animal and Plant Cells (Part 1)

  36. Figure 7.7 Cytokinesis Differs in Animal and Plant Cells (Part 2)

  37. Figure 7.8 The Eukaryotic Cell Cycle

  38. Figure 7.8 The Eukaryotic Cell Cycle

  39. Figure 7.9 Regulation of the Cell Cycle

  40. Figure 7.9 Regulation of the Cell Cycle

  41. Figure 7.9 Regulation of the Cell Cycle (Part 1)

  42. Figure 7.9 Regulation of the Cell Cycle (Part 2)

  43. Figure 12.13 Mechanical analogy for the cell cycle control system

  44. Figure 12.14 Molecular control of the cell cycle at the G2 checkpoint

  45. Figure 7.10 Cyclins Are Transient in the Cell Cycle

  46. Figure 7.10 Cyclins Are Transient in the Cell Cycle

  47. Figure 7.11 Mitosis and Meiosis: A Comparison

  48. Figure 7.11 Mitosis and Meiosis: A Comparison

  49. Figure 7.12 Meiosis: Generating Haploid Cells (1)

More Related