Are the cells identical in telophase?

Will the cells at the end of telophase be identical?

Considering the genetic makeup of the homologous pairs, will the cells at the end of telophase I be genetically identical to each other? No, they will not be identical because the alleles on each pair are not identical and the homologous pairs separate. … At the end of the meiosis II are four daughter cells.

Are the cells identical in telophase 1?

Telophase I

There are now two cells, and each cell contains half the number of chromosomes as the parent cell. In addition, the two daughter cells are not genetically identical to each other because of the recombination that occurred during prophase I (Figure 4).

Are the cells identical in telophase 2?

Telophase II and Cytokinesis

Note that these four cells are not identical, as random arrangements of bivalents and crossing over in meiosis I leads to different genetic composition of these cells.

How are the cells formed at the end of telophase different?

At the end of telophase I and the process of cytokinesis when the cell divides, each cell will have half the chromosomes of the parent cell. The genetic material does not duplicate again, and the cell moves into meiosis II. … In telophase II, two distinct nuclei begin to form at the opposite poles of the cell.

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Is telophase 1 followed by cytokinesis?

Telophase I is that phase when the chromosomes have finished moving to opposite ends of the cell. This will then be followed by cytokinesis producing two daughter cells. After cytokinesis, the two daughter cells would have genetically different chromosomes after meiosis I.

What happens anaphase?

During anaphase, each pair of chromosomes is separated into two identical, independent chromosomes. The chromosomes are separated by a structure called the mitotic spindle. … The separated chromosomes are then pulled by the spindle to opposite poles of the cell.