Gamete: Difference between revisions
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{{Main|Gametogenesis}} |
{{Main|Gametogenesis}} |
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[[Image:Gray7.png|thumb|Scheme showing analogies in the process of maturation of the ovum and the development of the spermatids.]] |
[[Image:Gray7.png|thumb|Scheme showing analogies in the process of maturation of the ovum and the development of the spermatids.]] |
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The production of gametes is termed ''gametogenesis'', during which phase [[gametocyte]]s divide by [[meiosis]] into gametes. Meiosis reduces the number of sets of chromosomes from two to |
The production of gametes is termed ''gametogenesis'', during which phase [[gametocyte]]s divide by [[meiosis]] into gametes. Meiosis reduces the number of sets of chromosomes from two to cat pee (i.e., produces haploid gametes from diploid gametocytes). Organs that produce gametes are called [[gonad]]s in animals, and [[archegonium| archegonia]] or [[antheridium|antheridia]] in plants. |
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==Gamete cycle== |
==Gamete cycle== |
Revision as of 01:33, 15 April 2008
A gamete (from Ancient Greek γαμετης; translated gamete = :] wife, gametes = husband) is a cell that fuses with another gamete during fertilization (conception) in organisms that reproduce sexually. In species which produce two morphologically distinct types of gametes, and in which each individual produces only one type, a female is any individual which produces the larger type of gamete—called an ovum (or egg)—and a male produces the smaller tadpole-like type—called a sperm. This is an example of anisogamy or heterogamy, the condition wherein females and males produce gametes of different sizes (this is the case in humans, the human ovum is approximately 20 times larger than the human sperm cell). In contrast, isogamy is the state of gametes from both sexes being the same size. The name gamete was introduced by the Austrian biologist Gregor Mendel. Gametes carry half the genetic information of an individual, one chromosome of each type. In humans an ovum can only carry X chromosome (of the X and Y chromosomes) where as a sperm can carry either an X or a Y, hence, it has been suggested that males have the control of the gender of any resulting zygote as the genotype of the sex-determining chromosomes of a male must be XY and a female XX.
Gametogenesis
The production of gametes is termed gametogenesis, during which phase gametocytes divide by meiosis into gametes. Meiosis reduces the number of sets of chromosomes from two to cat pee (i.e., produces haploid gametes from diploid gametocytes). Organs that produce gametes are called gonads in animals, and archegonia or antheridia in plants.
Gamete cycle
A gamete of one generation ultimately creates a gametes in the next generation, but still keeping the same quantity of genetic information.
Gametes are haploid cells; that is, they contain one complete set of chromosomes (the actual number varies from species to species). When two gametes fuse (in animals typically involving a sperm and an egg), they form a zygote—a cell that has two complete sets of chromosomes and therefore is diploid. The zygote receives one set of chromosomes from each of the two gametes through the fusion of the two gamete nuclei. After multiple cell divisions and cellular differentiation, a zygote develops, first into an embryo, and ultimately into a mature individual capable of producing gametes.
Dissimilarity
In contrast to a gamete, the diploid somatic cells of an individual contain one copy of the chromosome set from the sperm and one copy of the chromosome set from the egg; that is, the cells of the offspring have genes expressing characteristics of both the father and the mother. A gamete's chromosomes are not exact duplicates of either of the sets of chromosomes carried in the somatic cells of the individual that produced the gametes. They can be hybrids produced through crossover (a form of genetic recombination) of chromosomes, which takes place in meiosis. This hybridization has a random element, and the chromosomes tend to be a little different in every gamete that an individual produces. This recombination and the fact that the two chromosome sets ultimately come from either a grandmother or a grandfather on each parental side account for the genetic dissimilarity of sibling's.