词条 | Amoeba (genus) |
释义 |
| name = Amoeba | image = Amoeba proteus 2.jpg | image_caption = | domain = Eukaryota | unranked_phylum = Amoebozoa | classis = Tubulinea | ordo = Tubulinida | kingdom = protista | familia = Amoebidae | genus = Amoeba | genus_authority = Bory de Saint-Vincent, 1822[1] | subdivision_ranks = Species | subdivision = * Amoeba agilis Kirk, 1907
}}Amoeba is a genus of single-celled amoeboids in the family Amoebidae.[2] The type species of the genus is Amoeba proteus, a common freshwater organism, widely studied in classrooms and laboratories.[3] History and classificationThe earliest record of an organism resembling Amoeba was produced in 1755 by August Johann Rösel von Rosenhof, who named his discovery "der kleine Proteus" ("the little Proteus"), after Proteus, the shape-shifting sea-god of Greek Mythology.[4] While Rösel's illustrations show a creature similar in appearance to the one now known as Amoeba proteus, his "little Proteus'' cannot be identified confidently with any modern species.[5] The term "Proteus animalcule" remained in use throughout the 18th and 19th centuries, as an informal name for any large, free-living amoeboid.[6] In 1758, apparently without seeing Rösel's "Proteus" for himself, Carl Linnaeus included the organism in his own system of classification, under the name Volvox chaos. However, because the name Volvox had already been applied to a genus of flagellate algae, he later changed the name to Chaos chaos. In 1786, the Danish Naturalist Otto Müller described and illustrated a species he called Proteus diffluens, which was probably the organism known today as Amoeba proteus.[7] The genus Amiba, from the Greek amoibè (ἀμοιβή), meaning "change", was erected in 1822 by Bory de Saint-Vincent.[8][9] In, 1830. the German naturalist C. G. Ehrenberg adopted this genus in his own classification of microscopic creatures, but changed the spelling to "Amoeba."[10] Anatomy, feeding and reproductionSpecies of Amoeba move and feed by extending temporary structures called pseudopodia. These are formed by the coordinated action of microfilaments within the cellular cytoplasm pushing out the plasma membrane which surrounds the cell.[11] In Amoeba, the pseudopodia are approximately tubular, and rounded at the ends (lobose). The cell's overall shape may change rapidly as pseudopodia are extended and retracted into the cell body. An Amoeba may produce many pseudopodia at once, especially when freely floating. When crawling rapidly along a surface, the cell may take a roughly monopodial form, with a single dominant pseudopod deployed in the direction of movement.[12] Historically, researchers have divided the cytoplasm into two parts, consisting of a granular inner endoplasm and an outer layer of clear ectoplasm, both enclosed within a flexible plasma membrane.[13] The cell usually has a single granular nucleus, containing most of the organism's DNA . A contractile vacuole is used to maintain osmotic equilibrium by excreting excess water from the cell (see Osmoregulation). An Amoeba obtains its food by phagocytosis, engulfing smaller organisms and particles of organic matter, or by pinocytosis, taking in dissolved nutrients through vesicles formed within the cell membrane.[14] Food enveloped by the Amoeba is stored in digestive organelles called food vacuoles. Amoeba, like other unicellular eukaryotic organisms, reproduces asexually by mitosis and cytokinesis. Sexual phenomena have not been directly observed in Amoeba, although sexual exchange of genetic material is known to occur in other Amoebozoan groups.[15] Most amoebozoans appear capable of performing syngamy, recombination and ploidy reduction through a standard meiotic process.[16] The “asexual” model organism Amoeba proteus has most of the proteins associated with sexual processes.[16] In cases where organisms are forcibly divided, the portion that retains the nucleus will often survive and form a new cell and cytoplasm, while the other portion dies.[17]OsmoregulationLike many other protists, species of Amoeba control osmotic pressures with the help of a membrane-bound organelle called the contractile vacuole. Amoeba proteus has one contractile vacuole which slowly fills with water from the cytoplasm (diastole), then, while fusing with the cell membrane, quickly contracts (systole), releasing water to the outside by exocytosis. This process regulates the amount of water present in the cytoplasm of the amoeba. Immediately after the contractile vacuole (CV) expels water, its membrane crumples. Soon afterwards, many small vacuoles or vesicles appear surrounding the membrane of the CV.[18] It is suggested that these vesicles split from the CV membrane itself. The small vesicles gradually increase in size as they take in water and then they fuse with the CV, which grows in size as it fills with water. Therefore, the function of these numerous small vesicles is to collect excess cytoplasmic water and channel it to the central CV. The CV swells for a number of minutes and then contracts to expel the water outside. The cycle is then repeated again. The membranes of the small vesicles as well as the membrane of the CV have aquaporin proteins embedded in them.[18] These transmembrane proteins facilitate water passage through the membranes. The presence of aquaporin proteins in both CV and the small vesicles suggests that water collection occurs both through the CV membrane itself as well as through the function of the vesicles. However, the vesicles, being more numerous and smaller, would allow a faster water uptake due to the larger total surface area provided by the vesicles.[18] The small vesicles also have another protein embedded in their membrane: vacuolar-type H+-ATPase or V-ATPase.[18] This ATPase pumps H+ ions into the vesicle lumen, lowering its pH with respect to the cytosol. However, the pH of the CV in some amoebas is only mildly acidic, suggesting that the H+ ions are being removed from the CV or from the vesicles. It is thought that the electrochemical gradient generated by V-ATPase might be used for the transport of ions (it is presumed K+ and Cl−) into the vesicles. This builds an osmotic gradient across the vesicle membrane, leading to influx of water from the cytosol into the vesicles by osmosis,[18] which is facilitated by aquaporins. Since these vesicles fuse with the central contractile vacuole, which expels the water, ions end up being removed from the cell, which is not beneficial for a freshwater organism. The removal of ions with the water has to be compensated by some yet-unidentified mechanism. Like other eukaryotes, Amoeba species are adversely affected by excessive osmotic pressure caused by extremely saline or dilute water. In saline water, an Amoeba will prevent the influx of salt, resulting in a net loss of water as the cell becomes isotonic with the environment, causing the cell to shrink. Placed into fresh water, Amoeba will match the concentration of the surrounding water, causing the cell to swell. If the surrounding water is too dilute, the cell may burst.[19] Amoebic cysts{{main|Microbial cyst}}In environments that are potentially lethal to the cell, an Amoeba may become dormant by forming itself into a ball and secreting a protective membrane to become a microbial cyst. The cell remains in this state until it encounters more favourable conditions.[17] While in cyst form the amoeba will not replicate and may die if unable to emerge for a lengthy period of time. Video galleryReferences1. ^Bory de Saint-Vincent, J.B.G.M. (1822-1831). Article "Amiba". In: Dictionnaire classique d'histoire naturelle par Messieurs Audouin, Isid. Bourdon, Ad. Brongniart, De Candolle, Daudebard de Férusac, A. Desmoulins, Drapiez, Edwards, Flourens, Geoffroy de Saint-Hilaire, A. De Jussieu, Kunth, G. de Lafosse, Lamouroux, Latreille, Lucas fils, Presle-Duplessis, C. Prévost, A. Richard, Thiébaut de Berneaud, et Bory de Saint-Vincent. Ouvrage dirigé par ce dernier collaborateur, et dans lequel on a ajouté, pour le porter au niveau de la science, un grand nombre de mots qui n'avaient pu faire partie de la plupart des Dictionnaires antérieurs. 17 vols. Paris: Rey et Gravier; Baudoin frères, vol. 1, p. 260, [https://www.biodiversitylibrary.org/item/82884#page/292/mode/1up]. {{Eukaryota classification}}{{Amoebozoa}}{{Taxonbar|from=Q46729}}{{Authority control}}{{DEFAULTSORT:Amoeba (Genus)}}2. ^{{Cite web|url = http://www.nies.go.jp/chiiki1/protoz/morpho/flagella/amoeba.htm|title = National Institute for Environmental Studies, Japan|date = 2007|accessdate = Sep 11, 2014|website = The World of Protozoa, Rotifera, Nematoda and Oligochaeta|publisher = National Institute for Environmental Studies, Japan|last = Xu|first = Kaigin}} 3. ^{{Cite journal|url = http://www.sciencedirect.com/science/article/pii/S0003936511800989|title = Taxonomic Analyses of Seven Species of Family Amoebidae by Isozymic Characterization of Electrophoretic Patterns and the Descriptions of a New Genus and a New Species: Metamoeba n. gen. Amoeba amazonas n. sp|last = Friz|first = Carl T.|date = 1992|journal = Archiv für Protistenkunde|volume = 142|issue = 1–2|pages = 29–40|accessdate = Sep 11, 2014|doi = 10.1016/S0003-9365(11)80098-9|pmid = }} 4. ^Rösel von Rosenhof, A.J. 1755. Der monatlich-herausgegebenen Insecten-Belustigung erster [bis vierter] Theil... J.J. Fleischmann: Nürnberg. Vol. 3, Tab. 101, , [https://books.google.com/books?id=q9JCAQAAMAAJ&hl=&pg=PA621 p. 621], p. 622, . 5. ^{{Cite book|title = Biology of Amoeba|last = Jeon|first = Kwang W.|publisher = Academic Press|year = 1973|isbn = |location = New York|pages = 2–3}} 6. ^{{Cite book|title = Biological atlas: a guide to the practical study of plants and animals|last = McAlpine|first = Daniel|publisher = W. & A. K. Johnston|year = 1881|isbn = |location = Edinburgh and London|pages = 17}} 7. ^{{Cite book|title = Biology of Amoeba|last = Jeon|first = Kwang W.|publisher = Academic Press|year = 1973|isbn = |location = New York|page = 5}} 8. ^Bory de Saint-Vincent, J. B. G. M. "Essai d'une classification des animaux microscopiques." Agasse, Paris (1826).p. 28 9. ^{{cite book |editor1-first = Kimberley |editor1-last = McGrath |editor2-last=Blachford |editor2-first=Stacey | title = Gale Encyclopedia of Science Vol. 1: Aardvark-Catalyst |edition=2nd | year = 2001 | isbn = 978-0-7876-4370-6 | publisher = Gale Group | oclc = 46337140}} 10. ^Ehrenberg, Christian Gottfried. Organisation, systematik und geographisches verhältniss der infusionsthierchen: Zwei vorträge, in der Akademie der wissenschaften zu Berlin gehalten in den jahren 1828 und 1830. Druckerei der Königlichen akademie der wissenschaften, 1832. p. 59 11. ^{{Cite book|title = Molecular Biology of the Cell 5th Edition|last = Alberts Eds.|publisher = Garland Science|year = 2007|isbn = 9780815341055|location = New York|pages = 1037|display-authors=etal}} 12. ^{{Cite web|url = http://www.arcella.nl/amoeba|title = Amoeba|date = |accessdate = Sep 11, 2014|website = Microworld: World of Amoeboid Organisms|publisher = Ferry Siemensma|last = Siemensma|first = Ferry}} 13. ^{{Cite book|title = Biology of Amoeba|last = Jeon|first = Kwang W.|publisher = Academic Press|year = 1973|isbn = |location = New York|pages = 102}} 14. ^{{Cite book|title = Biology of Amoeba|last = Jeon|first = Kwang W.|publisher = Academic Press|year = 1973|isbn = |location = New York|pages = 100}} 15. ^{{cite journal |vauthors =Lahr DJ, Parfrey LW, Mitchell EA, Katz LA, Lara E |title=The chastity of amoebae: re-evaluating evidence for sex in amoeboid organisms |journal=Proc. Biol. Sci. |volume=278 |issue=1715 |pages=2083–6|date=July 2011 |pmid=21429931 |pmc=3107637 |doi=10.1098/rspb.2011.0289 |url=http://rspb.royalsocietypublishing.org/cgi/pmidlookup?view=long&pmid=21429931}} 16. ^1 {{cite journal |vauthors=Hofstatter PG, Brown MW, ((Lahr DJG)) |title=Comparative Genomics Supports Sex and Meiosis in Diverse Amoebozoa |journal=Genome Biol Evol |volume=10 |issue=11 |pages=3118–3128 |date=November 2018 |pmid=30380054 |pmc=6263441 |doi=10.1093/gbe/evy241 |url=}} 17. ^1 {{cite web | url = http://www.scienceclarified.com/Al-As/Amoeba.html | publisher = Scienceclarified.com | title = Amoeba}} 18. ^1 2 3 4 {{cite journal |vauthors =Nishihara E, Yokota E, Tazaki A |title=Presence of aquaporin and V-ATPase on the contractile vacuole of Amoeba proteus |journal=Biol. Cell |volume=100 |issue=3 |pages=179–88 |date=March 2008 |pmid=18004980 |doi=10.1042/BC20070091 |display-authors=etal}} 19. ^{{cite journal | author = Patterson, D.J. | year = 1981 | title = Contractile vacuole complex behaviour as a diagnostic character for free living amoebae | journal = Protistologica | volume = 17 | pages = 243–248}} 3 : Amoebozoa genera|Articles containing video clips|Taxa named by Jean Baptiste Bory de Saint-Vincent |
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