They are called daughter cells. meiosis makes 4 genetically different daughter cells.
It is true ONLY for meiosis II. Mitosis and Meiosis I produce 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.
No, yeast cells should be the same not genetically different. They use asexual reproduction. Yeast cells use budding, where a cell will grow a bud, a daughter cell and it splits in two. The bud or daughter cell splits off.
Meiosis in male produces four genetically distinct daughter cells.
They are called daughter cells. meiosis makes 4 genetically different daughter cells.
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. )
Yes
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.
The daughter cells that result from mitotic cell division are genetically identical. The daughter cells that result from meiotic cell division are genetically unique.
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.
daughter cells are similar to parents because they share the same dna
This process is called cell division or mitosis.
No, yeast cells should be the same not genetically different. They use asexual reproduction. Yeast cells use budding, where a cell will grow a bud, a daughter cell and it splits in two. The bud or daughter cell splits off.
Mieosis is a cell division which produces gametes.
Meiosis in male produces four genetically distinct daughter cells.