cell division:
the process of interphase and mitosis makes one cell into two new ones with identical DNA
interphase prepares the cell for mitosis
mitosis includes prophase, metaphase, anaphase, and cytokinesis
the outcome of meiosis is four (genetically unique) haploid cells, compared with the two (genetically identical) diploid cells produced from mitosis
Mitosis is the division of a cell into two identical daughter cells.
Mitosis
A somatic, or body, cell divides into two genetically identical daughter cells.
The daughter cells that result from mitotic cell division are genetically identical. The daughter cells that result from meiotic cell division are genetically unique.
During mitosis, the replicated chromosomes are divided into two genetically identical daughter nuclei, and then the cytoplasm divides during cytokinesis, forming two genetically identical daughter cells.
Two genetically identical daughter cells
Four non-identical daughter cells are produced in meiosis.
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. )
A cell that undergoes mitosis, such as a bacteria cell, splits to create an identical cell (daughter cell) that has identical DNA. So, when a cells split to multiply and grow, there DNA is the same, unless a mutation occurs.
mitosis ends with 2 identical daughter cells and meiosis ends with 4 non-identical sister chromatids.
This process is called cell division or mitosis.
The daughter cells produced by mitosis and cytokinesis are genetically identical.
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.
A somatic, or body, cell divides into two genetically identical daughter cells.
The two cells that are produced after mitosis are genetically identical because when the DNA is replicated and the cell splits, the two new cells each end up with 46 chromosomes each, but in meiosis the four cells that are produced are not genetically identical as the chromosomes from the mum and the dad have been shuffled around during the stage of meiosis.
The daughter cells that result from mitotic cell division are genetically identical. The daughter cells that result from meiotic cell division are genetically unique.
During mitosis, the replicated chromosomes are divided into two genetically identical daughter nuclei, and then the cytoplasm divides during cytokinesis, forming two genetically identical daughter cells.
Daughter cells are identical to their parent cells in mitosis. During this form of cell division, somatic cells separate into two identical daughter cells.
During mitosis, the replicated chromosomes are divided into two genetically identical daughter nuclei, and then the cytoplasm divides during cytokinesis, forming two genetically identical daughter cells.