Want this question answered?
The daughter cells that result from mitotic cell division are genetically identical. The daughter cells that result from meiotic cell division are genetically unique.
Mitotic cell division produces two genetically identical daughter cells that are genetically identical to their parent cell. The daughter cells that result from mitotic cell division are 2n, having two sets of chromosomes. Meiotic cell division produces four genetically non-identical cells that are 1n, having only one set of chromosomes. The parent cell for meiotic cell division is 2n.
The genetic consequence of mitotic cell division is that the resulting daughter cells are genetically identical to each other and to the parent cell. This is because the DNA is accurately replicated and evenly distributed between the daughter cells during mitosis. Therefore, no genetic variation is introduced during mitotic cell division.
Amitosis is nuclear division occurring without symmetry, and as such is a rather random type of division with without proper structure. Mitosis and Meiosis do differ in the number of daughter cells, mitosis with 2 and meiosis with 4. This, however, is also not a fair comparison, as mitosis and meiosis result in different types of cells.
In humans, each daughter cell produced by mitotic cell division will have 46 chromosomes.
The daughter cells that result from mitotic cell division are genetically identical. The daughter cells that result from meiotic cell division are genetically unique.
Mitotic cell division produces two genetically identical daughter cells that are genetically identical to their parent cell. The daughter cells that result from mitotic cell division are 2n, having two sets of chromosomes. Meiotic cell division produces four genetically non-identical cells that are 1n, having only one set of chromosomes. The parent cell for meiotic cell division is 2n.
The genetic consequence of mitotic cell division is that the resulting daughter cells are genetically identical to each other and to the parent cell. This is because the DNA is accurately replicated and evenly distributed between the daughter cells during mitosis. Therefore, no genetic variation is introduced during mitotic cell division.
Amitosis is nuclear division occurring without symmetry, and as such is a rather random type of division with without proper structure. Mitosis and Meiosis do differ in the number of daughter cells, mitosis with 2 and meiosis with 4. This, however, is also not a fair comparison, as mitosis and meiosis result in different types of cells.
In humans, each daughter cell produced by mitotic cell division will have 46 chromosomes.
Two daughter cells are the result of mitotic cell division in which the parent cell nucleus undergoes mitosis, creating two genetically identical daughter nuclei, followed by cytokinesis, the division of the cytoplasm which results in two daughter cells, each with an identical nucleus.
Mitotic cell division, which includes mitosis followed by cytokinesis, results in two genetically identical daughter cells.
In both plant and animals, the daughter cells are genetically identical to the original cell =]
2 daughter cells with the same genotype. (However, mitotic crossing over is not unheard of, in which case the 2 cells will not be genetically identical. )
2 daughter cells
New cells are formed from the pre existing cells by cell division
There are two types of cell division: Meiotic and Mitotic. In Mitosis, one daughter cell will result-- leaving two genetically identical cells. In Meiosis, four haploid ( or cells with 1/2 the normal number of chromosomes) will be produced. These cells are not genetically identical, and are used in sexual reproduction.