After cell division, each daughter cell will contain the same number of chromosomes as the parent cell. Therefore, if the parent cell has 50 chromosomes, each daughter cell will also have 50 chromosomes. This is true for both mitosis and meiosis (in the case of the haploid cells produced, they would have 25 chromosomes).
In mitotic cell division, the daughter cells contain the same number of chromosomes as the parent cell. In meiotic cell division, the daughter cells contain half the number of chromosomes as the parent cell.
A daughter cell will typically contain a full set of chromosomes that are a combination of the parent cell's chromosomes after cell division. The exact number and composition of chromosomes will depend on whether the cell underwent mitosis or meiosis.
The genetic material in daughter cells is called chromosomes. These structures contain the genetic information passed down from the parent cell to the daughter cells during cell division.
The number of chromosomes in the daughter cell is typically the same as in the parent cell after cell division. This ensures that each daughter cell receives an identical set of chromosomes.
New Q. Answer is Yes. Remember, eukaryotic chromosomes exist in pairs.Ex-Q. Answer was: about meiosis and mitosis I will answer both:Mitosis is a form of cell division that results in the produced (or daughter) cells having the same number of chromosomes as the parent. In your example, a daughter cell resulting from mitotic cell division would have 23 chromosome pairs, just like its parent cell.Meiosis is a form of cell division that results in the produced (or daughter) cells having half the number of chromosomes present in the parent. In your example, a daughter cell resulting from meiotic cell division would have 23 chromosomes, half the number of the parent cell.
In mitotic cell division, the daughter cells contain the same number of chromosomes as the parent cell. In meiotic cell division, the daughter cells contain half the number of chromosomes as the parent cell.
A daughter cell will typically contain a full set of chromosomes that are a combination of the parent cell's chromosomes after cell division. The exact number and composition of chromosomes will depend on whether the cell underwent mitosis or meiosis.
Meosis is called a reductional division. This means the daughter cells in a meotic cell division have half the number of chromosomes as the parent cell. Parent cell (2n) ------> Meotic cell division ------> 2 daughter cells (n)
The number of chromosomes in daughter cells formed by the first division is the same as the parent cell, typically 46 chromosomes in humans. This is because during the first division, chromosomes are replicated and then distributed equally between the daughter cells.
After mitotic cell division, if the parent cell had 52 chromosomes, the daughter cells will also have 52 chromosomes identical to each other and the parent cell.
After mitotic cell division, if the parent cell had 52 chromosomes, the daughter cells will also have 52 chromosomes identical to each other and the parent cell.
Each daughter cell will have 52 chromosomes. This is because mitosis produces daughter cells which are genetically identical to the parent cell. Therefore they will have the same number of chromosomes.
After meiosis, each daughter cell has half the number of chromosomes as the parent cell. For example, in humans the parent cell would have 46 chromosomes, but after meiotic cell division, the daughter cells will each have 23 chromosomes.
If the daughter cell is a result of mitotic cell division, then yes.
The genetic material in daughter cells is called chromosomes. These structures contain the genetic information passed down from the parent cell to the daughter cells during cell division.
Each daughter cell will have 52 chromosomes. This is because mitosis produces daughter cells which are genetically identical to the parent cell. Therefore they will have the same number of chromosomes.
Daughter cells resulting from mitotic division have the same number of chromosomes as the parent cell.