Eukaryote

taxonomic group whose members have a cell nucleus enclosed within a nuclear envelope

An eukaryote is an organism with complex cells, or a single cell with complex structures. In these cells the genetic material is organized into chromosomes in the cell nucleus.

Eukaryota
Temporal range: OrosirianPresent 1850–0 Ma
The pictures above show Eukaryotes – clockwise from top left: Red mason bee, Boletus edulis, Common chimpanzee, Isotricha intestinalis, Persian buttercup, and Volvox carteri
Scientific classification Edit this classification
Domain: Eukaryota
(Chatton, 1925) Whittaker & Margulis, 1978
Supergroups[2] and kingdoms
Kingdom Plantae – Plants
Kingdom Animalia – Animals
Kingdom Fungi

Eukaryotic organisms that cannot be classified under the kingdoms Plantae, Animalia or Fungi are sometimes grouped in the kingdom Protista.

A typical animal cell

Animals, plants, algae and fungi are all eukaryotes. There are also eukaryotes amongst single-celled protists.

In contrast, simpler organisms, such as bacteria and archaea, do not have nuclei and other complex cell structures. Such organisms are called prokaryotes.

Eukaryotes evolved in the Proterozoic eon. The oldest known eukaryote is Grypania, a coiled, unbranched filament up to 30 mm long.[3] The oldest Grypania fossils come from an iron mine near Negaunee, Michigan. The fossils are dated as 1874 million years old.[4][5] Grypania lasted into the Mesoproterozoic era.

Another ancient group is the acritarchs, believed to be stages of algal plankton. They are found 1400 million years ago, in the Mesoproterozoic era.[6]p57

The classification of the Eukaryota is under active discussion, and several taxonomies have been proposed. Modern versions disagree about the number of kingdoms.[7]

Structure

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Eukaryotic cells are usually much bigger than prokaryotes. They can be up to 10 times bigger. Eukaryote cells have many different internal membranes and structures, called organelles. They also have a cytoskeleton. The cytoskeleton is made up of microtubules and microfilaments. Those parts are very important in the cell's shape. Eukaryotic DNA is put in bundles called chromosomes. They are separated by a "spindle" during cell division.

Eukaryotes usually have some sort of sexual reproduction by fertilisation. Prokaryotes do not do this.

Prokaryotes do not have sexes, but they can pass DNA to other bacteria. Their cell division is asexual. Bacterial conjugation is when bacteria move a genetic element from one to another.[8][9]

Eukaryotes have sets of linear chromosomes in the nucleus and the number of chromosomes is usually typical for each species.

 
Detail of the endomembrane system and its components

Internal membrane

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In eukaryotic cells, there are many things with membranes around them. All of them together are called the endomembrane system. Simple bags, called vesicles or vacuoles, are sometimes made by budding off other membranes, just like how children make bubbles with their toys. Many cells take in food and other things using something called endocytosis. In endocytosis, the membrane closest to the outside bends inwards and then pinches off to make a vesicle. Many other organelles that have membranes probably started off as vesicles.

The nucleus is surrounded by a double membranes that has holes in it so things can go in and out. The nuclear envelope has things sticking out of it that look like tubes and sheets. These are called the endoplasmic reticulum which is often shortened to ER. The ER is covered with ribosomes which make proteins.

The ER has two parts, the rough ER and the smooth ER. The rough ER has ribosomes attached to it. The proteins made by the ribosomes attached to the rough ER. Lysosomes have enzymes inside them that break down the food the comes from food vacuoles

Many protozoa have contractile vacuoles, which are vacuoles that can fuse or pinch off from the outer membrane. Contractile vesicles are often used to get and get rid of unneeded water. Extrusomes shoot out stuff that make predators go away or catch food. In multicellular organisms, hormones are often made in vesicles. In the complicated plants, most of the inside of a plant cell is taken up by a central vacuole. That central vacuole is the main thing that keeps osmotic pressure so the cell can hold its shape.

Origin

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Because the cell organelles of eukaryotes have different (polyphyletic) origins, the question arises as to whether the group is a unified clade or not.[10] It is certain that the protists are not.[11][12]

Cell organelles are specialised units which carry out well-defined functions, like mitochondria and plastids. It is fairly clear now that all or most of these organelles have their origin in once-independent prokaryotes (bacteria or archaea), and that the eukaryote cell is a 'community of micro-organisms' working together in 'a marriage of convenience'.[13] The first such events took place between ancient bacteria to produce the double-membrane class known as gram-negative bacteria.[14] Since the gram-negative bacteria include the cyanobacteria, this was the first of several such events in the history of the eukaryotes.

Role of the Archaea

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Recent research shows that "the known repertoire of ‘eukaryote-specific’ proteins in Archaea [indicate] that the archaeal host cell already contained many key components that govern eukaryotic cellular complexity".[15]

Taxonomy

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Protista is a group of different single-celled organisms. More accurate taxonomies have been proposed, but scientists are still discussing them. For this reason, Protista is still useful for talking about these organisms. One modern scheme for the classification of the Eukarya is as follows:[16][17]

The Eukarya may only be unified in the sense that the cells are a community derived from bacteria and archaea; opinions vary. Like the Protista, the Eukarya may be a polyphyletic assembly, though a useful one. However, as mentioned above, all branches of the Eukarya have sexual reproduction.[18] That, and the general organisation of the nucleus, are the defining features. These two points are the main evidence for monophyletic origin.[19]

Etymology

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The feature that defines eukaryotes is that their cells have nuclei. Eukaryote comes from the Greek words εὖ (eu, "well" or "good") and karyon, "nut" or "kernel", here meaning "nucleus".

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References

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  1. Sakaguchi M, Takishita K, Matsumoto T, Hashimoto T, Inagaki Y (July 2009). "Tracing back EFL gene evolution in the cryptomonads-haptophytes assemblage: separate origins of EFL genes in haptophytes, photosynthetic cryptomonads, and goniomonads". Gene. 441 (1–2): 126–31. doi:10.1016/j.gene.2008.05.010. PMID 18585873.
  2. Adl SM, Simpson AG, Lane CE, Lukeš J, Bass D, Bowser SS, et al. (September 2012). "The revised classification of eukaryotes" (PDF). The Journal of Eukaryotic Microbiology. 59 (5): 429–93. doi:10.1111/j.1550-7408.2012.00644.x. PMC 3483872. PMID 23020233. Archived from the original (PDF) on 16 June 2016.
  3. Knoll, Andrew H. et al 2006. Eukaryotic organisms in Proterozoic oceans. Philosophical Transactions of the Royal Society B 361 (1470): 1023–38. [1]
  4. Schneider D.A. et al 2006. Age constraints for Paleoproterozoic glaciation in the Lake Superior Region: detrital zircon and hydrothermal xenotime ages for the Chocolay Group, Marquette Range Supergroup. Canadian Journal of Earth Sciences 43, 571-591. [2]
  5. Han T.M. & Runnegar B. 1992. Megascopic eukaryotic algae from the 2.1-billion-year-old negaunee iron-formation, Michigan. Science 257 (5067): 232–235. [3]
  6. Clarkson E.N.K. 1998. Invertebrate palaeontology and evolution. Blackwell, Oxford.
  7. Luketa, Stefan (2012). "New views on the megaclassification of life". Protistology. 7 (4): 218–237. ISSN 1680-0826.
  8. Ryan KJ, Ray CG, eds. (2004). Sherris Medical Microbiology (4th ed.). McGraw Hill. pp. 60–4. ISBN 978-0-8385-8529-0.
  9. Holmes R.K. & Jobling M.G.; et al. (1996). Genetics: conjugation. In: Baron's medical microbiology (Baron S. (4th ed.). Univ of Texas Medical Branch. ISBN 0-9631172-1-1.
  10. Dyer B.D. and Obar R.A. 1994. Tracing the history of eukaryotic cells. Columbia N.Y.
  11. Margulis L & Dolan M.F. 2002. Early life: evolution on the Precambrian Earth. 2nd ed, Jones & Bartlett, Boston. p89
  12. Margulis L. Schwartz K.V. & Dolan M. 1999. Diversity of life: the illustrated guide to the five kingdoms. Jones & Bartlett, Boston, p94.
  13. Margulis L. and McMenamin 1990. Marriage of convenience. The Sciences 30, 31-36.
  14. Lake, James A. 2009. Evidence for an early prokaryotic endosymbiosis. Nature 460: p967.
  15. Zaremba-Niedzwiedzka, Katarzyna et al 2017. Asgard archaea illuminate the origin of eukaryotic cellular complexity. Nature (journal). 541 (7637): 353–358. [4]
  16. Adl S.M. et al 2005. The new higher level classification of eukaryotes with emphasis on the taxonomy of protists. J. Eukaryot. Microbiol. 52 (5): 399–451. [5]
  17. Burki F.; et al. (2007). "Phylogenomics reshuffles the eukaryotic supergroups". PLOS ONE. 2 (8): e790. Bibcode:2007PLoSO...2..790B. doi:10.1371/journal.pone.0000790. PMC 1949142. PMID 17726520.
  18. Secondarily lost in some lines.
  19. Woese, Carl R.; Kandler, Otto & Wheelis, Mark L. 1990. Towards a natural system of organisms: proposal for the domains Archaea, Bacteria, and Eucarya. Proceedings of the National Academy of Sciences of the U.S.A. 87, 4576–9. [6] Archived 2008-06-27 at the Wayback Machine
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