A cell divides to produce two daughter cells that are genetically different is true for meiosis I only. Homologous chromosomes move toward opposite poles of a dividing cell during meiosis I.
daughter cells
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.
The daughter cells that result from mitotic cell division are genetically identical. The daughter cells that result from meiotic cell division are genetically unique.
daughter cells
Daughter cells can be genetically different or genetically identical, depending on the type of cell division. In mitosis, daughter cells are genetically identical to the parent cell, maintaining the same number of chromosomes. However, in meiosis, which produces gametes for sexual reproduction, daughter cells are genetically diverse due to processes like crossing over and independent assortment. Thus, the genetic similarity or difference of daughter cells is contingent upon the type of cell division occurring.
Daughter cells are typically diploid after cell division.
The type of cell division that produces daughter cells is MEIOSIS.
daughter cells
Meiosis is the type of cell division responsible for producing haploid cells.
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.
mitosis
Telophase 1 occurs after the first division of meiosis and results in the separation of homologous chromosomes, with the formation of two haploid daughter cells. Telophase 2 occurs after the second division of meiosis and results in the separation of sister chromatids, producing four haploid daughter cells.
The product of nuclear division is two genetically identical daughter cells in mitosis, while meiosis results in four genetically diverse daughter cells with half the number of chromosomes. Nuclear division in mitosis is for growth and repair, while meiosis is for producing gametes in sexual reproduction.
The daughter cells that result from mitotic cell division are genetically identical. The daughter cells that result from meiotic cell division are genetically unique.
daughter cells
Two identical daughter cells are produced at the end of a single mitotic division.
They have haploid number of chromosomes. They undergo meiosis cell division during their formation.it is the type of cell division in which the chromosome number of the parent is reduced cells to half in the daughter cells.