The daughter cells of mitosis relate to the mother cell in that they are diploid as well. Mitosis conserves chromosome count while meiosis daughter cells are all haploid because all sex cells are haploid and become diploid upon fertilization.
They are exactly the same, barring mutations.
The two daughter cells produced by mitosis are genetically identical to the parent cell.
Identical genetic material
Genetically equivalent.
Virtually identical.
It is constant
parent cell
place of occurence ;mitosis= somatic cells | meiosis=gonadic cells crossing over;mitosis=does not occur | meiosis=occur during prophase of meiosis 1 to form tetrads number of daughter cell;mitosis=two | meiosis= four genetic variation;mitosis=no variation produced| meiosis=produces genetic variation genetic composition in daughter cell; mitosis=identical to the parent cell | meiosis= non identical to the parent cell and each other
Mitosis followed by cytokinesis results in two genetically identical, diploid daughter cells. Meiosis followed by cytokinesis results in four genetically non-identical, haploid daughter cells.
variationvarietyMeiosis introduces genetic variation. Mitosis produces daughter cells that are identical to the parent cell. However, meiosis produces offspring with half the genetic material from each parent - and therefore much more diversity.
genetically Identical daughter cells that have the same genetic material as the original cell.
The careful separation in mitosis is supposed to ensure that both daughter cells recieve a full diploid complement of the chromosomes, i.e both daughter cells get all the genetic information from the parent's cells
place of occurence ;mitosis= somatic cells | meiosis=gonadic cells crossing over;mitosis=does not occur | meiosis=occur during prophase of meiosis 1 to form tetrads number of daughter cell;mitosis=two | meiosis= four genetic variation;mitosis=no variation produced| meiosis=produces genetic variation genetic composition in daughter cell; mitosis=identical to the parent cell | meiosis= non identical to the parent cell and each other
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MITOSIS. Biologists divide the events of mitosis into four phases: prophase, metaphase, anaphase, and telophase. Mitosis insures that each daughter cell has the same genetic information as the parent cell.
Mitosis followed by cytokinesis results in two genetically identical, diploid daughter cells. Meiosis followed by cytokinesis results in four genetically non-identical, haploid daughter cells.
Yes; most cell reproduction is mitosis; where the number of chromosomes is the same in the daughter cells and the parent cells.
variationvarietyMeiosis introduces genetic variation. Mitosis produces daughter cells that are identical to the parent cell. However, meiosis produces offspring with half the genetic material from each parent - and therefore much more diversity.
The four daughter cells resulting from meiosis are haploid and genetically distinct. The daughter cells resulting from mitosis are diploid and identical to the parent cell.
Tetrads don't form in mitosis. Tetrads form so that chromosomes can undergo crossing over which is a form of genetic recombination. The products of meiosis are gametes which ensure genetic diversity in subsequent generations. In mitosis, the daughter cells are genetically identical to the parent cell. No genetic recombination occurs in mitosis.
Meiosis. Genetic variation is achieved by the random division of the chromosomes between the two daughter cells, and further recombination of specific genes between paired chromosomes before the division.
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.
genetically Identical daughter cells that have the same genetic material as the original cell.
They are just a copy of the parent. Because of this, they contain the same genetic material and therefore they are related in: structure, genetic material, and origin.