|—n , pl -ses|
|1.||Compare mitosis See also prophase a type of cell division in which a nucleus divides into four daughter nuclei, each containing half the chromosome number of the parent nucleus: occurs in all sexually reproducing organisms in which haploid gametes or spores are produced|
|2.||rhetoric another word for litotes|
|[C16: via New Latin from Greek: a lessening, from meioun to diminish, from meiōn less]|
meiosis mei·o·sis (mī-ō'sĭs)
n. pl. mei·o·ses (-sēz')
The special process of cell division in sexually reproducing organisms that results in the formation of gametes, consisting of two nuclear divisions in rapid succession that in turn result in the formation of four gametocytes, each containing half the number of chromosomes that is found in somatic cells.
|meiosis (mī-ō'sĭs) Pronunciation Key
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The process in cell division in sexually reproducing organisms that reduces the number of chromosomes from diploid to haploid (half the original number). Meiosis involves two consecutive divisions of the nucleus and leads to the production of reproductive cells (gametes) in animals and to the formation of spores in plants, fungi, and most algae (the haploid spores grow into organisms that produce gametes by mitosis). Meiosis begins when the chromosomes, which have already duplicated, condense along the center of the nucleus, and pairs of homologous chromosomes undergo crossing over, whereby some of their genetic material is exchanged. The pairs of chromosomes then separate and move to opposite ends of the cell, and the cell itself divides into two cells. In the second stage, each of these two cells also divides into two cells. Meiosis thus produces four cells, each of which contain half the number of chromosomes as the original cell. Some or all of the four cells may become functional gametes or spores. Compare mitosis.
Our Living Language : Meiosis is the process by which the nucleus divides in all sexually reproducing organisms during the production of spores or gametes. These cells have a single set of chromosomes and are called haploid, as opposed to diploid cells with two sets. In humans, for example, gametes have one set of 23 chromosomes and are formed through meiosis from special diploid cells found in the testes and ovaries. When meiosis begins, each of the 46 chromosomes in these cells consists of two identical chromatids, just as in body cells about to divide by mitosis. However, in meiosis, there are two cell divisions instead of one, so that four daughter cells are produced, instead of two. At the start of the first meiotic division, homologous chromosomes (which have genes for the same traits in the same position) form pairs and exchange genetic material in the process known as crossing over. This process does not occur in mitosis. Then during the first meiotic division, one member of each pair of homologous chromosomes moves to each end of the cell, and the cell itself divides. Each of the two cells produced by the first division has just one set of 23 chromosomes. However, every chromosome still consists of two chromatids at this stage. The two daughter cells then undergo the second meiotic division, which is similar to mitosis. One chromatid from each of the 23 chromosomes moves to each of end of the cell, and the daughter cell itself divides. The chromatids form the chromosomes of the new cells produced by the second meiotic division, and each cell has a single set of 23 chromosomes, normally with slight genetic variation from the original parent cell. In the human female, just one of the four daughter cells will become a functional gamete (the ovum), but in the human male, all four cells develop into gametes (sperm). At fertilization, the union of the male and female gametes restores the two full sets of chromosomes in the human zygote.
Division of cells in which four “daughter” cells are produced from one “parent” cell, each with half the genes of the parent. Meiosis is a key process in sexual reproduction. In the ovaries and testes, meiosis produces a great variety of sex cells (sperm and ova), because the genes of the parent cell can be split in many different ways. The sex cells combine in fertilization to produce a new individual with the full number of genes — half from each parent. Because the sex cells come in such variety, and come from two parents, there is an enormous number of possible forms for the offspring. (See chromosomes, genetics, and mitosis.)