During telophase II, the fourth step of meiosis II, the chromosomes reach opposite poles, cytokinesis occurs, the two cells produced by meiosis I divide to form four haploid daughter cells, and nuclear envelopes (white in the diagram at right) form.
What is the telophase II?
Telophase II is the stage in meiosis II that follows after anaphase II. … This will then be followed by cytokinesis, wherein each of the two cells produced from meiosis I will give rise to two daughter cells, resulting in a total of four genetically dissimilar haploid cells. The chromosomes de-condense and lengthen.
What occurs in telophase II?
In telophase II, two distinct nuclei begin to form at the opposite poles of the cell. The cytoplasm divides through cytokinesis to form two distinct cells, which are called daughter cells, each with one-half the number of chromosomes as the parent cell.
What happens during telophase I?
What Happens during Telophase? During telophase, the chromosomes arrive at the cell poles, the mitotic spindle disassembles, and the vesicles that contain fragments of the original nuclear membrane assemble around the two sets of chromosomes. Phosphatases then dephosphorylate the lamins at each end of the cell.
What do you call the stage after the telophase 1?
Telophase is followed by cytokinesis, or the division of the cytoplasm into two daughter cells. The daughter cells that result from this process have identical genetic compositions.
What is the division of 2 new cells called?
There are two types of cell division: mitosis and meiosis. Most of the time when people refer to “cell division,” they mean mitosis, the process of making new body cells.
What is the end result of telophase 2?
Four haploid nuclei (containing chromosomes with single chromatids) are formed in telophase II. Division of the cytoplasm during cytokinesis results in four haploid cells. … These haploid cells become unfertilized eggs in females and sperm in males.