yes 4 to be exact
t.t. young
Meiosis I should not produce haploid cells. They should be diploid because before meiosis I the diploid cell duplicated its DNA. It is only after Meiosis II that the four cells are haploid.
Yes, meiosis results in the formation of four haploid cells from one diploid cell, not just two. The process involves two rounds of cell division—meiosis I and meiosis II. In meiosis I, homologous chromosomes are separated, leading to two haploid cells, and in meiosis II, the sister chromatids are separated, resulting in a total of four haploid gametes.
In humans meiosis produces 23 chromosomes. The human body cell has 46 chromosomes When meiosis occurs 1/2 of the body cells go into the haploid cell produced
A haploid cell only contains 23 chromosomes, whilst a diploid cell contains 23 x 2 chromosomes. When an egg cell (haploid) and a sperm cell (haploid) merge, a diploid cell is formed. Added: Called a zygote.
The chromosomes in haploid cells produced by meiosis I look different from those produced by meiosis II primarily due to genetic recombination and the reduction of chromosome number. During meiosis I, homologous chromosomes are separated and can undergo crossing over, resulting in genetic variation. In contrast, meiosis II resembles mitosis, where sister chromatids are separated, leading to the production of haploid cells that contain single chromatids. Thus, the genetic makeup of the cells differs due to the events of meiosis I.
Four haploid daughter cells are formed during the process of meiosis, specifically during meiosis II, after the division of the haploid cells produced in meiosis I. Each of these daughter cells contains half the number of chromosomes as the original parent cell.
Meiosis 2 occurs in the process of cell division to further separate the sister chromatids produced during meiosis 1, resulting in the formation of haploid gametes with unique genetic information.
2, They are also daughter cells
Meiosis produces haploid cells. During meiosis, a diploid cell undergoes two rounds of cell division to form four haploid daughter cells. This process is essential for sexual reproduction as it ensures the correct number of chromosomes in the offspring.
Meiosis I should not produce haploid cells. They should be diploid because before meiosis I the diploid cell duplicated its DNA. It is only after Meiosis II that the four cells are haploid.
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)
because there is half as many cells
By the end of meiosis 2 you end up with 4 daughter cells, all of which are haploid (meaning have only one set of chromosomes) these are the sex cells also known as gametes.
What I remember from school was that meiosis split into 4 cells and that mitosis split into two cells and I think that meiosis happened when cells were trying to repair something and mitosis was for reproduction. (Remember miTosis=Two)
Meiosis results in four haploid cells being produced from one diploid cell. This process involves two rounds of cell division, resulting in genetic diversity through recombination and random assortment of chromosomes.
In humans meiosis produces 23 chromosomes. The human body cell has 46 chromosomes When meiosis occurs 1/2 of the body cells go into the haploid cell produced
During mitosis 2 diploid cells are produced diploid means they have the full complement of DNA these cells make up nearly all the cells in the body with the exception of the gonads. During meiosis 4 haploid cells are produced meaning they have half the complement of DNA these haploid cells are in gonads of animals.