No, mitosis produces two genetically identical daughter cells (2n from a 2n parent cell), while meiosis produces gametes with half the genetic information of the parent cell (n from a 2n parent). There is also crossing over that occurs during Prophase I of meiosis, which can lead to the formation of new genetic combinations.
Mitosis is the one that produces identical daughter cells(ex. liver cells dividing) and meiosis is used in reproduction that the ending cells has only half the number of chromosomes needed for a human.
nope, you get completely different cells which have a random mixture of genes different to one another and to their parents...meitosis is the one which produces cells identical to one another and to their parents (clones)
No, genes are crossed over in the prophase I of meiosis. This makes genetic difference so our kids don't look exactly like us and everyone doesn't have a severe genetic disease.
no because miosis is to create genetic variability
No they are different because during the process of crossing over the chromosomes get mixed up. :)
In meiosis, cell division produces four genetically distinct daughter cells. Mitosis produces two genetically identical daughter cells.
mitosis ends with 2 identical daughter cells and meiosis ends with 4 non-identical sister chromatids.
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.
Mieosis is a cell division which produces gametes.
I'll make this as easy to understand as I can. There are two different ways that daughter cells can form. Mitosis, and Meiosis I. That's all.
In meiosis, cell division produces four genetically distinct daughter cells. Mitosis produces two genetically identical daughter cells.
mitosis ends with 2 identical daughter cells and meiosis ends with 4 non-identical sister chromatids.
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.
It is true ONLY for meiosis II. Mitosis and Meiosis I produce identical daughter cells.
Mieosis is a cell division which produces gametes.
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.
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
Mitosis results into two genetically identical daughter cells as the parent cell.
I'll make this as easy to understand as I can. There are two different ways that daughter cells can form. Mitosis, and Meiosis I. That's all.
This process is called cell division or mitosis.
Mitosis starts with a diploid parent cell and ends with two diploid daughter cells. Meiosis starts with a diploid parent cell and ends with haploid daugther cells. The number of cells produced depends on the type of gamete being generated.
Germ cells. Somatic cells perform mitosis to get genetically identical daughter cells, and germ cells perform meiosis to get genetically different cells. In gametophytes, it's known as generative cells.