The forms of pseudopodia, from left: polypodial and lobose; monopodial and lobose; filose; conical; reticulose; tapering actinopods; non-tapering actinopods
Amoeba do not have cell walls, which allows for free movement. Amoeba move and feed by using pseudopods, which are bulges of cytoplasm formed by the coordinated action of actinmicrofilaments pushing out the plasma membrane that surrounds the cell.[13] The appearance and internal structure of pseudopods are used to distinguish groups of amoebae from one another. Amoebozoan species, such as those in the genus Amoeba, typically have bulbous (lobose) pseudopods, rounded at the ends and roughly tubular in cross-section. Cercozoan amoeboids, such as Euglypha and Gromia, have slender, thread-like (filose) pseudopods. Foraminifera emit fine, branching pseudopods that merge with one another to form net-like (reticulose) structures. Some groups, such as the Radiolaria and Heliozoa, have stiff, needle-like, radiating axopodia (actinopoda) supported from within by bundles of microtubules.[3][14]
"Naked" amoeba of the genus Mayorella (left) and shell of the testate amoebaCylindrifflugia acuminata (right)
Free-living amoebae may be "testate" (enclosed within a hard shell), or "naked" (also known as gymnamoebae, lacking any hard covering). The shells of testate amoebae may be composed of various substances, including calcium, silica, chitin, or agglutinations of found materials like small grains of sand and the frustules of diatoms.[15]
To regulate osmotic pressure, most freshwater amoebae have a contractile vacuole which expels excess water from the cell.[16] This organelle is necessary because freshwater has a lower concentration of solutes (such as salt) than the amoeba's own internal fluids (cytosol). Because the surrounding water is hypotonic with respect to the contents of the cell, water is transferred across the amoeba's cell membrane by osmosis. Without a contractile vacuole, the cell would fill with excess water and, eventually, burst. Marine amoebae do not usually possess a contractile vacuole because the concentration of solutes within the cell are in balance with the tonicity of the surrounding water.[17]
The food sources of amoebae vary. Some amoebae are predatory and live by consuming bacteria and other protists. Some are detritivores and eat dead organic material.
Amoebae typically ingest their food by phagocytosis, extending pseudopods to encircle and engulf live prey or particles of scavenged material. Amoeboid cells do not have a mouth or cytostome, and there is no fixed place on the cell at which phagocytosis normally occurs.[18]
Some amoebae also feed by pinocytosis, imbibing dissolved nutrients through vesicles formed within the cell membrane.[19]
Size range
Foraminifera have reticulose (net-like) pseudopods, and many species are visible with the naked eye.
The size of amoeboid cells and species is extremely variable. The marine amoeboid Massisteria voersi is just 2.3 to 3 micrometres in diameter,[20] within the size range of many bacteria.[21] At the other extreme, the shells of deep-sea xenophyophores can attain 20 cm in diameter.[22] Most of the free-living freshwater amoebae commonly found in pond water, ditches, and lakes are microscopic, but some species, such as the so-called "giant amoebae" Pelomyxa palustris and Chaos carolinense, can be large enough to see with the naked eye.
Recent evidence indicates that several Amoebozoa lineages undergo meiosis.
Orthologs of genes employed in meiosis of sexual eukaryotes have recently been identified in the Acanthamoebagenome. These genes included Spo11, Mre11, Rad50, Rad51, Rad52, Mnd1, Dmc1, Msh and Mlh.[31] This finding suggests that the ‘'Acanthamoeba'’ are capable of some form of meiosis and may be able to undergo sexual reproduction.
The meiosis-specific recombinase, Dmc1, is required for efficient meiotic homologous recombination, and Dmc1 is expressed in Entamoeba histolytica.[32] The purified Dmc1 from E. histolytica forms presynaptic filaments and catalyses ATP-dependent homologous DNA pairing and DNA strand exchange over at least several thousand base pairs.[32] The DNA pairing and strand exchange reactions are enhanced by the eukaryotic meiosis-specific recombination accessory factor (heterodimer) Hop2-Mnd1.[32] These processes are central to meiotic recombination, suggesting that E. histolytica undergoes meiosis.[32]
Studies of Entamoeba invadens found that, during the conversion from the tetraploiduninucleate
trophozoite to the tetranucleate cyst, homologous recombination is enhanced.[33] Expression of genes with functions related to the major steps of meiotic recombination also increase during encystations.[33] These findings in E. invadens, combined with evidence from studies of E. histolytica indicate the presence of meiosis in the Entamoeba.
Since the Amoebozoa diverged early from the eukaryotic family tree, these results suggest that meiosis was present early in eukaryotic evolution. Furthermore, these findings are consistent with the proposal of Lahr et al.[36] that the majority of amoeboid lineages are anciently sexual.
Amoeba have been found to harvest and grow the bacteria implicated in plague.[41] Amoebae can likewise play host to microscopic organisms that are pathogenic to people and help in spreading such microbes. Bacterial pathogens (for example, Legionella) can oppose absorption of food when devoured by amoebae.[42]
The currently generally utilized and best-explored amoebae that host other organisms are Acanthamoeba castellanii and Dictyostelium discoideum.[43]
Microorganisms that can overcome the defenses of one-celled organisms can shelter and multiply inside them, where they are shielded from unfriendly outside conditions by their hosts.
History of knowledge and classification
Conceptual origins
The first illustration of an amoeboid, from Rösel von Rosenhof's Insecten-Belustigung (1755)
The earliest record of an amoeboid organism was produced in 1755 by August Johann Rösel von Rosenhof, who named his discovery "Der Kleine Proteus" ("the Little Proteus").[44] Rösel's illustrations show an unidentifiable freshwater amoeba, similar in appearance to the common species now known as Amoeba proteus.[45] The term "Proteus animalcule" remained in use throughout the 18th and 19th centuries, as an informal name for any large, free-living amoeboid.[46]
In 1822, the genus Amiba (from the Greek ἀμοιβή amoibe, meaning "change") was erected by the French naturalist Bory de Saint-Vincent.[47][48] Bory's contemporary, C. G. Ehrenberg, adopted the genus in his own classification of microscopic creatures, but changed the spelling to Amoeba.[49]
In 1841, Félix Dujardin coined the term "sarcode" (from Greek σάρξ sarx, "flesh," and εἶδος eidos, "form") for the "thick, glutinous, homogeneous substance" which fills protozoan cell bodies.[50]: 26 Although the term originally referred to the protoplasm of any protozoan, it soon came to be used in a restricted sense to designate the gelatinous contents of amoeboid cells.[10] Thirty years later, the Austrian zoologist Ludwig Karl Schmarda used "sarcode" as the conceptual basis for his division Sarcodea, a phylum-level group made up of "unstable, changeable" organisms with bodies largely composed of "sarcode".[51]: 156 Later workers, including the influential taxonomist Otto Bütschli, amended this group to create the class Sarcodina,[52]: 1 a taxon that remained in wide use throughout most of the 20th century.[53]
For convenience, all amoebae were grouped as Sarcodina and generally divided into morphological categories, on the basis of the form and structure of their pseudopods. Amoebae with pseudopods supported by regular arrays of microtubules (such as the freshwater Heliozoa and marine Radiolaria) were classified as Actinopoda, whereas those with unsupported pseudopods were classified as Rhizopoda.[54] The Rhizopods were further subdivided into lobose, filose, plasmodial and reticulose, according to the morphology of their pseudopods. During the 1980s, taxonomists reached the following classification, based exclusively on morphological comparisons:[55][53]
Rhizopodavon Siebold 1845: amorphous amoebae that lack axopodia and move through pseudopodia.[55]: 41 [53]: 202
HeteroloboseaPage & Blanton 1985: amoebae with eruptive pseudopodia, similar to the lobose ones but with a distinct movement, and usually with flagellate life stages. It was traditionally divided into those which aggregate to form fruiting bodies (Acrasida) and those that do not (Schizopyrenida).[53]: 203–204
Testacealobosia de Saedeleer 1934: lobose testate amoebae. This polyphyletic group included three unrelated lineages of amoebozoans enclosed by tests or other complex coverings: Arcellinida, Himatismenida and Trichosida.
CaryoblasteaMargulis 1974: amoebae with sparse, non-motile flagella on the surface. This group only includes the order Pelobiontida,[53]: 207 which now belongs to the amoebozoan group Archamoebae together with some naked amoebae.[56]
EumycetozoeaZopf 1885: plasmodial amoebae with filiform subpseudopodia that produce fruiting bodies.
PlasmodiophoreaCook 1928: endoparasitic plasmodial amoebae with minute pseudopodia. This group is now an order within Rhizaria, closely related to the endoparasites Phagomyxida.
FiloseaLeidy 1879: amoebae with filose pseudopodia.
Aconchulinia de Saedeleer 1934: filose naked amoebae, sometimes covered in scales. This group included two unrelated taxa: the nucleariid amoebae, closely related to fungi; and most of the Vampyrellida, found in Rhizaria.
Testaceafilosia de Saedeleer 1934: filose testate amoebae. This group included taxa now found throughout Rhizaria, such as Gromiida and Euglyphida.
Granuloreticulosea de Saedeleer 1934: amoebae with delicate granular pseudopodia. This group included both the Foraminifera (now in Rhizaria) and some members of Vampyrellida.
XenophyophoreaSchulze 1904: plasmodial amoebae enclosed in a branched-tube system composed of a transparent organic substance. This group is now fully integrated into the Foraminifera.
ActinopodaCalkins 1909: spherical amoebae that float in the water column. This group included those organisms that have a heliozoan-type appearance, with radially positioned filopodia, reticulopodia or axopodia surrounding the cell body. These were the Radiolaria, Phaeodaria, Proteomyxidea (all three now in Rhizaria), Centroplasthelida (now in Haptista), and Actinophryida (now in Stramenopiles).
The 'amoeboflagellate' hypothesis by Thomas Cavalier-Smith, where higher eukaryotes evolved from amoeboid phyla.[57]: 244
In the final decades of the 20th century, a series of molecular phylogenetic analyses confirmed that Sarcodina was not a monophyletic group, and that amoebae evolved from flagellate ancestors.[10] The protozoologist Thomas Cavalier-Smith proposed that the ancestor of most eukaryotes was an amoeboflagellate much like modern heteroloboseans, which in turn gave rise to a paraphyletic Sarcodina from which other groups (e.g., alveolates, animals, plants) evolved by a secondary loss of the amoeboid phase. In his scheme, the Sarcodina were divided into the more primitive Eosarcodina (with the phyla Reticulosa and Mycetozoa) and the more derived Neosarcodina (with the phyla Amoebozoa for lobose amoebae and Rhizopoda for filose amoebae).[57]
Shortly after, phylogenetic analyses disproved this hypothesis, as non-amoeboid zooflagellates and amoeboflagellates were found to be completely intermingled with amoebae. With the addition of many flagellates to Rhizopoda and the removal of some amoebae, the name was rejected in favour of a new name Cercozoa. As such, both names Rhizopoda and Sarcodina were finally abandoned as formal taxa, but they remained useful as descriptive terms for amoebae.[58]: 238 The phylum Amoebozoa was conserved, as it still primarily included amoeboid organisms, and now included the Mycetozoa.[58]: 232
AmoebozoaLühe 1913 em. Cavalier-Smith 1998: includes all naked and testate lobose amoebae (traditional Lobosea) as well as the pelobionts and eumycetozoans, and a few flagellates.[60]: 17
RhizariaCavalier-Smith 2002: includes amoebae bearing reticulose or filose pseudopodia, the majority of which were traditionally classified as Filosea, Granuloreticulosea and Actinopoda, such as Euglyphida, Gromiida, Radiolaria, Proteomyxidea, Phaeodarea and Foraminifera (including Xenophyophorea). It also houses a large diversity of free-living flagellates, amoeboflagellates and parasites like the Plasmodiophorida.[60]: 17
HeteroloboseaPage & Blanton 1985: amoebae with lobose pseudopodia but eruptive flow of cytoplasm. Currently it includes the aggregative Acrasida, as well as several other amoeboflagellates. They are a class of excavates closely related to Euglenozoa, with whom they share their characteristic discoidal mitochondrial cristae.[10]: 293
StramenopilesPatterson 1989 em. Adl et al. 2005: although primarily composed by flagellates, it contains a few groups of amoebae. For example: the Actinophryida, an order with typical heliozoan morphology;[10]: 293 the amoeboid Rhizochromulina, a genus of chrysophytes;[61] or Synchroma, a genus of amoeboid algae with reticulate axopodia.[62]
RotosphaeridaRainer 1968: also known as nucleariids, includes a few filose amoebae traditionally classified within the Filosea, positioned as the sister group of Fungi.[63]
CentroplasthelidaFebvre-Chevalier & Febvre 1984: heliozoans with a centroplast from which axopodia arise.[10]: 293 They are closely related to the haptophyte algae inside the supergroup Haptista.[64]
RigifilidaCavalier-Smith 2012: a small order of filose amoebae previously interpreted as nucleariids.[65] Together with the flagellate orders Mantamonadida and Diphylleida, it composes the CRuMs clade, positioned closest to Amorphea.[66]
Some multicellular organisms have amoeboid cells only in certain phases of life, or use amoeboid movements for specialized functions. In the immune system of humans and other animals, amoeboid white blood cells pursue invading organisms, such as bacteria and pathogenic protists, and engulf them by phagocytosis.[68]Sponges exhibit a totipotent cell type known as archaeocytes, capable of transforming into the feeding cells or choanocytes.[69]
Amoeboid dispersal stages
Amoeboid stages also occur in the multicellular fungus-like protists, the so-called slime moulds. Both the plasmodial slime moulds, currently classified in the class Myxogastria, and the cellular slime moulds of the groups Acrasida and Dictyosteliida, live as amoebae during their feeding stage. The amoeboid cells of the former combine to form a giant multinucleate organism,[70] while the cells of the latter live separately until food runs out, at which time the amoebae aggregate to form a multicellular migrating "slug" which functions as a single organism.[8]
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^Hibberd, David J.; Chretiennot-Dinet, Marie-Josèphe (11 May 2009). "The ultrastructure and taxonomy of Rhizochromulina marina gen. et sp.nov., an amoeboid marine chrysophyte". Journal of the Marine Biological Association of the United Kingdom. 59 (1): 179–193. doi:10.1017/S0025315400046269.
^Horn, Susanne; Ehlers, Katrin; Fritzsch, Guido; Gil-Rodríguez, María Candelaria; Wilhelm, Christian; Schnetter, Reinhard (13 June 2007). "Synchroma grande spec. nov. (Synchromophyceae class. nov., Heterokontophyta): an amoeboid marine alga with unique plastid complexes". Protist. 158 (3): 277–293. doi:10.1016/j.protis.2007.02.004. PMID17567535.
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^Taylor, J. W. & Berbee, M. L. (2014). Fungi from PCR to Genomics: The Spreading Revolution in Evolutionary Biology. In: Systematics and Evolution. Springer Berlin Heidelberg. p. 52, [1]Archived 30 June 2015 at the Wayback Machine
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