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Why must the final daughter cells in meiosis be haploid or diploid?
The final daughter cells in meiosis must be haploid because meiosis is a cell division process that reduces the chromosome number by half, resulting in cells with half the number of chromosomes as the parent cell. This is necessary for sexual reproduction to maintain a constant chromosome number across generations. Diploid daughter cells would disrupt this balance.
Chromosome number that results from meiosis is called?
Meiosis reduces the number of chromosome sets from two (diploid), to one (haploid). In mitosis the daughter cells are genetically identical to the parent cell, but meiosis produces cells that differ genetically from the parent cell as well as each other. In the final stage of meiosis II there end up being 4n daughter cells. So remember mitosis is diploid and meiosis is haploid.
What are the final products of meiosis in male?
2 haploid gametes, each with 23 chromosomes
2 diploid cells are the final result mitosis or meiosis?
Mitosis results in two diploid cells, each genetically identical to the original cell. In contrast, meiosis produces four haploid cells, which contain half the number of chromosomes and are genetically distinct from one another and from the original diploid cell. Therefore, if you start with one diploid cell, mitosis will yield two diploid cells, while meiosis will not.
Is 2 diploid cells are the final result is it meiosis or mitosis or both?
If the final result is two diploid cells, it indicates that the process is mitosis. Mitosis results in two genetically identical diploid daughter cells from a single diploid parent cell. In contrast, meiosis produces four haploid cells, which are genetically diverse and have half the chromosome number of the parent cell. Therefore, the correct answer is mitosis.
What are the final product of meiosis 1?
The final products of meiosis I are two haploid cells, each containing half the number of chromosomes as the original diploid cell. These cells are genetically diverse due to crossing over that occurs during prophase I.
What is the product if meiosis 1?
The final product of meiosis is four genetically non-identical haploid daughter cells.
How many cells get produced in meiosis?
To answer this question, let's take a look at meiosis as a whole. Meiosis I: 1 Mother cell (with DNA that has been replicated) splits into two daughter cells (each are 2n). Meiosis II: Each of those 2 daughter cells split into two gametes (which are 1n each). Therefore at the end of meiosis 2, one daughter cell splits into two haploid cells. Remember, the mother cell (at the beginning of meiosis I) ends up splitting into a tetrad of haploid cells (ie. Mother cell splits into four haploid cells by completion of meiosis)
The final cells resulting from meiosis in either males or females are called?
The common term for such cells is Germ cells. Depending on the gender, the germ cells destined to form sperms or pollen grains are called microspore mother cells and those resulting in to the egg cells are called megaspore mother cells.
Which stage of the cleavage is the chromosome diploid?
G1 phase of Interphase in mitosis. It's after cytokinesis and before S phase in which the chromosome replicates and becomes 4n. In Meiosis it's before Prophase I and after Telophase I when cytokinesis occurs; then all through Meiosis II until final cell division in which 4 daughter cells that are haploid are made.
What are the final products of meiosis in humans and most other animals?
The final products of meiosis in humans and most other animals are haploid gametes, specifically sperm cells in males and egg cells in females. These gametes have half the number of chromosomes as the parent cell and are crucial for sexual reproduction.
What is the final step of meiosis that involves the division of cytoplasm?
The final step of meiosis that involves the division of cytoplasm is called cytokinesis. This process follows meiosis I and meiosis II, where the cytoplasm of the parent cell is divided to form distinct daughter cells. In meiosis, cytokinesis typically results in four haploid cells, each containing half the original cell's chromosome number. This division is crucial for producing gametes in sexually reproducing organisms.
