Telophase: The Final Stage of Mitosis Explained

Telophase (image)

Chromosomes reach end of cell. Chromosomes relax (uncoil), nuclear membrane reforms

Telophase is the final stage of mitosis when the separated chromosomes reach the opposite ends of the cell and two new daughter nuclei form. During telophase, the remaining spindle fibers disintegrate, and the nuclear envelope reforms around each set of chromosomes. The chromosomes begin to unwind and resume their string-like appearance and the nucleolus reappears in each of the new nuclei. At this stage, the cell is close to completing the process of division, which is finished during cytokinesis.

An image of telophase typically shows two new nuclei forming at opposite ends of the cell, with the chromosomes becoming less distinct as they begin to unwind. The spindle fibers have disappeared, and the fibrous vesicles that make up the nuclear envelope are visible around each of the separated sets of chromosomes. This stage marks the end of mitosis and the beginning of cytokinesis, in which the cell divides into two daughter cells.

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