yes they are identical to the cell parent in asexual reproduction.
Mitotic cell division, which includes mitosis followed by cytokinesis, results in two genetically identical daughter cells.
when the original cells divides in half and splits, forming two new and identical cells, in a process called mitosis
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
Mitosis is the cell division process in which two identical daughter cells are produced.
Mitotic cell division, which includes mitosis followed by cytokinesis, results in two genetically identical daughter cells.
when the original cells divides in half and splits, forming two new and identical cells, in a process called mitosis
The daughter cells produced by mitosis and cytokinesis are genetically identical.
mitosis
Telophase and cytokenisis
Mitosis is the cell cycle phase wherein the cell nucleus chromosomes are separated. After mitosis, two identical cells will be created.
Cells formed from mitosis are diploid and are identical (if no mutations occurred during DNA replication) to the parent cell. Cells formed during meiosis are haploid and are different than the parent cell (due to the process of crossing over). Note that mitosis produced only 2 daughter cells whereas meiosis produces four.
Daughter cells are identical to their parent cells in mitosis. During this form of cell division, somatic cells separate into two 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.
daughter cells
Sperm is not formed during mitosis. Mitosis is a type of cell division that occurs in somatic cells (non-reproductive cells) and produces two genetically identical daughter cells. Sperm formation, known as spermatogenesis, involves meiotic division, which produces four genetically different haploid cells called spermatids that later mature into sperm 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.