Account App Integration - Responsive Website Template | Block

Array ( [0] => {{Short description|A haploid sex cell}} [1] => {{Use dmy dates|date=November 2015}} [2] => {{Sex (biology) sidebar}} [3] => [4] => A '''gamete''' ({{IPAc-en|ˈ|ɡ|æ|m|iː|t}}; {{etymology|grc|''{{wikt-lang|grc|γαμετή}}'' ({{grc-transl|γαμετή}})|wife}}, ultimately {{etymology|grc|''{{wikt-lang|grc|γάμος}}'' ({{grc-transl|γάμος}})|marriage}}) is a [[Ploidy#Haploid and monoploid|haploid cell]] that fuses with another haploid cell during [[fertilization]] in [[organism]]s that [[Sexual reproduction|reproduce sexually]].{{Cite web|title=gamete {{!}} Definition, Formation, Examples, & Facts|url=https://www.britannica.com/science/gamete|access-date=2020-10-20|website=Encyclopedia Britannica|language=en}} Gametes are an organism's '''reproductive cells''', also referred to as '''sex cells'''.{{Cite web|title=gamete / gametes {{!}} Learn Science at Scitable|url=https://www.nature.com/scitable/definition/gamete-gametes-311/|access-date=2020-10-20|website=www.nature.com}} The name gamete was introduced by the German cytologist [[Eduard Strasburger]].{{when|date=January 2024}}{{citation needed|date=January 2024}} [5] => [6] => Gametes of both mating individuals can be the same size and shape, a condition known as [[isogamy]]. By contrast, in the majority of species, the gametes are of different sizes, a condition known as [[anisogamy]] or [[heterogamy]] that applies to humans and other mammals. The human ovum has approximately 100,000 times the volume of a single human sperm cell. The type of gamete an organism produces determines its [[sex]]{{Citation|last1=Cotner|first1=Sehoya|title=8.4 Sex: It's About the Gametes|url=https://open.lib.umn.edu/evolutionbiology/chapter/7-4-sex-its-about-the-gametes-2/|work=The Evolution and Biology of Sex|language=en|access-date=2020-10-20|last2=Wassenberg|first2=Deena}} and sets the basis for the sexual roles and [[sexual selection]].{{Cite book|last1=Fusco|first1=Giuseppe|url=https://books.google.com/books?id=AKGsDwAAQBAJ&q=the+biology+of+reproduction+define+male|title=The Biology of Reproduction|last2=Minelli|first2=Alessandro|date=2019-10-10|publisher=Cambridge University Press|isbn=978-1-108-49985-9|pages=111–112|language=en}} In humans and other species that produce two [[Morphology (biology)|morphologically]] distinct types of gametes, and in which [[Gonochorism|each individual produces only one type]], a [[female]] is any individual that produces the larger type of gamete called an [[ovum]], and a [[male]] produces the smaller type, called a [[sperm]] cell or spermatozoon. Sperm cells are small and motile due to the presence of a tail-shaped structure, the [[flagellum]], that provides propulsion. In contrast, each egg cell or ovum is relatively large and non-motile. [7] => [8] => [[Oogenesis]], the process of female gamete formation in animals, involves [[meiosis]] (including [[Genetic recombination|meiotic recombination]]) of a diploid primary [[oocyte]] to produce a haploid [[Egg cell|ovum]]. [[Spermatogenesis]], the process of male gamete formation in animals, involves meiosis in a diploid primary [[spermatocyte]] to produce haploid [[spermatozoa]]. In animals, ova are produced in the ovaries of females and sperm develop in the testes of males. During fertilization, a spermatozoon and an ovum, each carrying half of the [[genetic information]] of an individual, unite to form a [[zygote]] that develops into a new [[diploid]] organism. [9] => [10] => == Evolution == [11] => {{Main|Evolution of sexual reproduction}} [12] => [13] => It is generally accepted that [[isogamy]] is the ancestral state from which [[anisogamy]] and [[oogamy]] evolved, although its evolution has left no fossil records.{{cite book|last1=Pitnick|first1=Scott S.|url=https://books.google.com/books?id=kctYNbO1fE0C&q=isogamy+in+multicellular+organisms&pg=PA44|title=Sperm Biology: An Evolutionary Perspective|last2=Hosken|first2=Dave J.|last3=Birkhead|first3=Tim R.|publisher=Academic Press|year=2008|isbn=978-0-08-091987-4|pages=43–44|author-link3=Tim Birkhead}}{{Cite book|last=Kumar|first=Awasthi & Ashok|url=https://books.google.com/books?id=r0h1DwAAQBAJ&q=isogamy+generally+accepted&pg=PA363|title=Textbook of Algae|publisher=Vikas Publishing House|isbn=978-93-259-9022-7|pages=363|language=en}}{{Cite book|last1=Dusenbery|first1=David B.|url=https://books.google.com/books?id=QCrimQJu1RAC|title=Living at Micro Scale: The Unexpected Physics of Being Small|last2=Dusenbery|first2=Professor of Biology Emeritus David B.|date=2009|publisher=Harvard University Press|isbn=978-0-674-03116-6|pages=309|language=en}} There are almost invariably only two gamete types, all analyses showing that intermediate gamete sizes are eliminated due to selection.{{Cite book|last=Stearns|first=S. C.|url=https://books.google.com/books?id=1cQACAAAQBAJ|title=The Evolution of Sex and its Consequences|date=2013-11-21|publisher=Birkhäuser|isbn=978-3-0348-6273-8|pages=21, 81–82|language=en|author-link=Stephen C. Stearns}}{{cite journal|vauthors=Lehtonen J, [[Geoff Parker|Parker GA]]|date=2014|title=Gamete competition, gamete limitation, and the evolution of the two sexes|journal=Molecular Human Reproduction|volume=20|issue=12|pages=1161–1168|doi=10.1093/molehr/gau068|pmid=25323972|doi-access=free}} Since intermediate sized gametes do not have the same advantages as small or large ones,{{Cite book|last=Campbell|first=Anne|url=https://books.google.com/books?id=2FJoAgAAQBAJ&q=intermediate+gamete&pg=PA45|title=A Mind Of Her Own: The evolutionary psychology of women|date=2013-05-16|publisher=OUP Oxford|isbn=978-0-19-164701-7|pages=45|language=en}} they do worse than small ones in mobility and numbers, and worse than large ones in supply.{{Cite journal |last1=Bachtrog |first1=Doris |last2=Mank |first2=Judith E. |author-link2=Judith Mank |last3=Peichel |first3=Catherine L. |last4=Kirkpatrick |first4=Mark |last5=Otto |first5=Sarah P. |last6=Ashman |first6=Tia-Lynn |last7=Hahn |first7=Matthew W. |last8=Kitano |first8=Jun |last9=Mayrose |first9=Itay |last10=Ming |first10=Ray |last11=Perrin |first11=Nicolas |date=2014-07-01 |title=Sex Determination: Why So Many Ways of Doing It? |journal=PLOS Biology |language=en |volume=12 |issue=7 |pages=e1001899 |doi=10.1371/journal.pbio.1001899 |issn=1545-7885 |pmc=4077654 |pmid=24983465 |s2cid=3741933 |doi-access=free }} [14] => [15] => ==Differences between gametes and somatic cells== [16] => In contrast to a gamete, which has only one set of chromosomes, a diploid [[somatic cell]] has two sets of [[homologous chromosome]]s, one of which is a copy of the [[chromosome]] set from the sperm and one a copy of the chromosome set from the egg cell. [[Genetic recombination|Recombination of the genes]] during meiosis ensures that the chromosomes of gametes are not exact duplicates of either of the sets of chromosomes carried in the parental diploid chromosomes but a mixture of the two.{{Cite web|title=Mitosis, Meiosis, and Inheritance {{!}} Learn Science at Scitable|url=https://www.nature.com/scitable/topicpage/mitosis-meiosis-and-inheritance-476/|access-date=2021-03-01|website=www.nature.com|language=en}} Consequently, the cells of the offspring have genes potentially capable of expressing some of the characteristics of both the father and the mother, subject to whether they are [[Dominance (genetics)|dominant or recessive]]. [17] => [[File:Sperm-egg.jpg|thumb|263x263px|A human spermatozoon fusing with a human ovum. The spermatozoon is approximately 100,000 times smaller in size than the human ovum.]] [18] => [19] => ==Artificial gametes== [20] => Artificial gametes, also known as in vitro derived gametes (IVD), stem cell-derived gametes (SCDGs), and in vitro generated gametes (IVG), are gametes derived from [[stem cell]]s. The use of such artificial gametes would "necessarily require [[In vitro fertilisation|IVF]] techniques". Research shows that artificial gametes may be a reproductive technique for same-sex male couples, although a [[surrogate mother]] would still be required for the gestation period.{{cite journal |last1= Newson |first1=A J |last2=Smajdor |first2=A C |date= 2005 |title= Artificial gametes: new paths to parenthood? |url= |journal= Journal of Medical Ethics |volume= 31|issue=3 |pages=184–186 |doi=10.1136/jme.2003.004986 |pmc=1734101 |pmid=15738444 |quote= Pregnancies brought about by means of artificial gametes would necessarily require [[In vitro fertilisation|IVF]] techniques}} Women who have passed [[menopause]] may be able to produce eggs and bear genetically related children with artificial gametes. Robert Sparrow wrote, in the [[Journal of Medical Ethics]], that embryos derived from artificial gametes could be used to derive new gametes and this process could be repeated to create multiple human generations in the laboratory.{{cite journal |last=Sparrow |first=Robert |date=4 April 2013 |title=In vitro eugenics|url=http://jme.bmj.com/content/early/2013/02/13/medethics-2012-101200.full|journal=[[Journal of Medical Ethics]] |volume= 40|issue=11 |pages= 725–31|doi=10.1136/medethics-2012-101200|access-date=8 March 2015 |pmid=23557913|s2cid=959092 }} This technique could be used to create [[cell culture|cell lines]] for medical applications and for studying the heredity of [[genetic disorder]]s. Additionally, this technique could be used for [[human enhancement]] by [[selective breeding|selectively breeding]] for a desired genome or by using [[recombinant DNA]] technology to create enhancements that have not arisen in nature. [21] => [22] => ==Plants== [23] => [[Plants]] that reproduce sexually also produce gametes. However, since plants have a life cycle involving [[Alternation of generations|alternation of diploid and haploid generations]] some differences from animal life cycles exist. Plants use [[meiosis]] to produce spores that develop into [[Multicellular organism|multicellular]] haploid [[gametophyte]]s which produce gametes by mitosis. In animals there is no corresponding multicellular haploid phase. The sperm of plants that reproduce using spores are formed by mitosis in an organ of the gametophyte known as the [[antheridium]] and the egg cells by mitosis in a flask-shaped organ called the [[archegonium]].{{cite book |last=Sporne |first=K.R. |date=2022 |title=The morphology of Pteridophytes; the structure of ferns and allied plants |publisher=Legare Street Press |isbn=978-1015505667 }} Plant sperm cells are their only motile cells, often described as flagellate, but more correctly as ciliate.{{cite journal |first1=Stephen M. |last1=Wolniak |first2=Vincent P. |last2=Klink |first3=Peter E. |last3=Hart |first4=Chia-Wei |last4=Tsai |title=Control of development and motility in the spermatozoids of lower plants |journal=Gravitational and Space Biology Bulletin |volume=13 |issue=2 |date=2000 |pages=85–93 |pmid=11543285 }} Bryophytes have 2 flagella, horsetails have up to 200 and the mature spermatozoa of the [[cycad]] ''Zamia pumila'' has up to 50,000 flagella.{{cite journal |last=Norstog |title=The blepharoplast of ''Zamia pumila'' L. |journal=Botanical Gazette |date=1986 |volume=147 |issue=1 |pages=40–46 |doi=10.1086/337566 |s2cid=85257438 }} Cycads and ''Ginkgo biloba'' are the only gymnosperms with motile sperm. In the [[flowering plant]]s, the female gametophyte is produced inside the [[ovule]] within the [[Ovary (botany)|ovary]] of the flower. When mature, the haploid gametophyte produces female gametes which are ready for fertilization. The male gametophyte is produced inside a [[pollen]] grain within the [[anther]] and is non-motile, but can be distributed by wind, water or animal vectors. When a pollen grain lands on a mature [[stigma (botany)|stigma]] of a flower it germinates to form a [[pollen tube]] that grows down the style into the ovary of the flower and then into the ovule. The pollen then produces non-motile sperm nuclei by mitosis that are transported down the pollen tube to the ovule where they are released for fertilization of the egg cell. [24] => [25] => ==See also== [26] => * [[Coenogamete]] [27] => [28] => ==Notes and references== [29] => {{Reflist}} [30] => [31] => {{Reproductive physiology}} [32] => {{Authority control}} [33] => [34] => [[Category:Classical genetics]] [35] => [[Category:Germ cells]] [36] => [[Category:Reproductive system]] [] => )

good wiki

Gamete

A gamete is a haploid cell that is involved in sexual reproduction. In organisms that reproduce sexually, such as plants, animals, and some fungi, gametes are the cells responsible for joining together to form a new organism.

About

In organisms that reproduce sexually, such as plants, animals, and some fungi, gametes are the cells responsible for joining together to form a new organism. Gametes are produced through a process called gametogenesis, which involves meiosis, a type of cell division that reduces the chromosome number by half. In most animals, gametes are differentiated into two types: sperm (male gamete) and eggs (female gamete). Sperm are typically smaller, motile, and produced in large numbers, whereas eggs are larger, non-motile, and produced in limited numbers. This difference in size and mobility reflects the roles each gamete plays in sexual reproduction. The fusion of gametes during fertilization restores the full complement of chromosomes and initiates the development of a new organism. This process combines genetic material from two individuals, resulting in genetic diversity and variability in offspring. Gametes also play a crucial role in evolution. The variation generated through gamete fusion allows for natural selection to act upon the different combinations of genes, leading to the adaptation and survival of the fittest individuals. The concept of gametes has been widely studied in biology and has important implications in fields such as genetics, reproductive biology, and assisted reproductive technologies. Understanding the mechanisms and processes involved in gamete formation and fusion is essential for understanding the complexities of sexual reproduction and species evolution.

Expert Team

Vivamus eget neque lacus. Pellentesque egauris ex.

Award winning agency

Lorem ipsum, dolor sit amet consectetur elitorceat .

10 Year Exp.

Pellen tesque eget, mauris lorem iupsum neque lacus.

You might be interested in

Chromosome

A chromosome is a structure found in the cells of organisms that carries their genetic information.

Diploid

Organism

An organism is a living entity that exhibits all the characteristics of life.