Anaphase 1: Before Meiosis begins, each chromosome is duplicated, like in Mitosis. When the cell is ready for meiosis, each duplicated chromosome is visible under the microscope as two Chromatids.
Anaphase 2:The two cells formed during Meioses 1 now begin Meiosis 2. The chromatids of each duplicated chromosome will be separated during this division.
(Anaphase also means Meiosis. Meiosis 1 and Meiosis 2 for instance. i hoped this helped!)
In Metaphase, the chromatids are still connected making chromosomes which are aligning in the center of the cell with the spindle fibers preparing to sepearte during Anaphase.
In Anaphase, the chromosomes separate in half forming chromatids, which are then again referred to as chromosomes.
So basically the chromosomes in Metaphase are preparing to divide, and the chromosomes in Anaphase are dividing/divided. There are double the amount of chromosomes in Anaphase than in Metaphase.
One Cell has 10 chromosomes, it divides into 5 chromosomes. So at the end it has, 5 chromosomes. Your Welcome for the answer! ^_^
At the end of meiosis II, four haploid cells form. Haploid means they have only one set of chromosomes. For humans, that would be 23 chromosomes.
Yes, cells produced at the end of telophase II have the same number of chromosomes as the cells that started the process. This is because during telophase II of meiosis, the chromosomes have already undergone segregation and have been divided equally between the daughter cells.
In a human cell it would be 23 pairs.
It will have 18 chromosomes at the end of mitosis.
23 pairs
One Cell has 10 chromosomes, it divides into 5 chromosomes. So at the end it has, 5 chromosomes. Your Welcome for the answer! ^_^
At the end of meiosis II, four haploid cells form. Haploid means they have only one set of chromosomes. For humans, that would be 23 chromosomes.
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Yes, cells produced at the end of telophase II have the same number of chromosomes as the cells that started the process. This is because during telophase II of meiosis, the chromosomes have already undergone segregation and have been divided equally between the daughter cells.
Nondisjunction results in cells with abnormal numbers of chromosomes due to chromosomes not separating properly in meiosis. this causes some cells to end up with to many chromosomes and others to end up with not enough chromosomes. It messes up cell division and development and can lead to death or genetic disorders like down syndrome.
In a human cell it would be 23 pairs.
At the end of meiosis I, there are two cells, each with half the number of chromosomes as the original cell.
At the end of the cell cycle, a cell typically divides into two daughter cells. So, if we consider a single cell, there would be two cells at the end of the cell cycle.
4 cells are produced at the end of meiosis.
It will have 18 chromosomes at the end of mitosis.
At the end of meiosis 1, two cells are formed, each containing half the number of chromosomes as the original cell. These cells are haploid and have undergone recombination and genetic variation.