What is the Difference Between Anaphase and Telophase?
🆚 Go to Comparative Table 🆚The difference between anaphase and telophase lies in the process and outcomes of these two stages of mitosis. Here is a comparison of the two stages:
Anaphase:
- Occurs after metaphase
- Cohesin proteins binding the sister chromatids together break down
- Sister chromatids (now called chromosomes) pull toward opposite poles
- Non-kinetochore spindle fibers lengthen, elongating the cell
Telophase:
- Occurs after anaphase
- Chromosomes arrive at opposite poles and begin to condense
- Nuclear envelope material surrounds each set of chromosomes
- The mitotic spindle breaks down
In summary, during anaphase, the sister chromatids separate and move towards opposite ends of the cell, while in telophase, the chromosomes arrive at opposite poles, and nuclear envelope material surrounds each set of chromosomes.
Comparative Table: Anaphase vs Telophase
Here is a table comparing the differences between anaphase and telophase:
| Feature | Anaphase | Telophase |
|---|---|---|
| Chromosome arrangement | Sister chromatids separate and move towards opposite ends of the cell | Daughter chromosomes reach maximum condensation level |
| Microtubules | Microtubules shorten, pulling sister chromatids apart | Microtubules disassemble, spindle fibers disappear |
| Nuclear membrane | Nuclear membrane breaks down | Nuclear membrane reforms around separated chromosomes |
| Nucleoli | Nucleoli disappear | Nucleoli reappear |
| Spindle checkpoint | Spindle checkpoint ensures proper alignment of chromosomes | Spindle checkpoint not present |
| Cell shape | Cell elongates as chromosomes move towards opposite poles | Cell returns to a more rounded shape |
| Cytokinesis | Overlaps with anaphase, begins after spindle checkpoint | Overlaps with telophase, completes cell division |
In anaphase, the sister chromatids separate and move towards opposite ends of the cell, while microtubules shorten and pull the chromosomes apart. The nuclear membrane breaks down, and the cell elongates as the chromosomes move. In telophase, the daughter chromosomes reach their maximum condensation level, microtubules disassemble, and the nuclear membrane reforms around the separated chromosomes. The nucleoli reappear, and the cell returns to a more rounded shape.
- Telophase vs Cytokinesis
- Anaphase of Mitosis vs Anaphase I of Meiosis
- Anaphase I vs Anaphase II
- Telophase 1 vs 2
- Prophase vs Metaphase
- Interphase vs Prophase
- Cytokinesis vs Mitosis
- Interphase vs Mitosis
- Mitosis vs Meiosis
- Mitosis vs Meiosis
- Prophase I vs Prophase II
- Karyokinesis vs Cytokinesis
- Mitosis vs Amitosis
- Cell Division vs Mitosis
- Centromere vs Telomere
- Interphase Chromatin vs Mitotic Chromosomes
- Telomeres vs Telomerase
- Mitosis vs Binary Fission
- Metaphase 1 vs 2