Cell Division

1. Cell Division By Tyler Finley

2. Interphase Centrioles • The cell grows and replicates its DNA and centrioles • Nuclear envelope becomes visible, and so does the nucleolus Nuclear Envelope DNA or Chromatin Nucleolus Nucleus

3. Prophase Centrioles • The centrioles begin t0 separate. • The chromatin condenses into chromosomes. • A mitotic spindle begins to form. • Nucleolus disappears • Nuclear envelope disappears Centromere Nuclear Envelope Chromatin Nucleolus Chromosome

4. Metaphase • Shortest phase • Chromosomes line up in the middle of the cell • Spindles attach to each other chromosome Spindle

5. Anaphase Sister chromatids • Chromosomes are pulled apart • The “sister” chromatids become their own chromosome • Spindle fibers move to the other side of the cell

6. Anaphase • Chromosomes are pulled apart • The “sister” chromatids become their own chromosome • Spindle fibers move to the other side of the cell Individual Chromosome

7. Telophase • The exact opposite from the prophase • Both the nuclear envelope and nucleolus appear again • DNA forms into chromatid again • The spindle fibers begin to break

8. Telophase • The exact opposite from the prophase • Both the nuclear envelope and nucleolus appear again • DNA forms into chromatid again • The spindle fibers begin to break

9. Telophase • The exact opposite from the prophase • Both the nuclear envelope and nucleolus appear again • DNA forms into chromatid again • The spindle fibers begin to break

10. Telophase • The exact opposite from the prophase • Both the nuclear envelope and nucleolus appear again • DNA forms into chromatid again • The spindle fibers begin to break

11. Telophase • The exact opposite from the prophase • Both the nuclear envelope and nucleolus appear again • DNA forms into chromatid again • The spindle fibers begin to break

12. Telophase • The exact opposite from the prophase • Both the nuclear envelope and nucleolus appear again • DNA forms into chromatid again • The spindle fibers begin to break

13. Cytokinesis • This step is known as the division of the cytoplasm • Also, it happens at the same time as Telophase • The cytoplasm pinches in half, and each “daughter” cell is identical

14. Cytokinesis • This step is known as the division of the cytoplasm • Also, it happens at the same time as Telophase • The cytoplasm pinches in half, and each “daughter” cell is identical

15. Cytokinesis • This step is known as the division of the cytoplasm • Also, it happens at the same time as Telophase • The cytoplasm pinches in half, and each “daughter” cell is identical

16. Cytokinesis • This step is known as the division of the cytoplasm • Also, it happens at the same time as Telophase • The cytoplasm pinches in half, and each “daughter” cell is identical

17. Cytokinesis • This step is known as the division of the cytoplasm • Also, it happens at the same time as Telophase • The cytoplasm pinches in half, and each “daughter” cell is identical

18. Cytokinesis • This step is known as the division of the cytoplasm • Also, it happens at the same time as Telophase • The cytoplasm pinches in half, and each “daughter” cell is identical

19. Cytokinesis • This step is known as the division of the cytoplasm • Also, it happens at the same time as Telophase • The cytoplasm pinches in half, and each “daughter” cell is identical