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centrosome

 
Dictionary: cen·tro·some   (sĕn'trə-sōm') pronunciation
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n.
A small region of cytoplasm adjacent to the nucleus that contains the centrioles and serves to organize microtubules.

centrosomic cen'tro·so'mic (-sō'mĭk) adj.

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Sci-Tech Encyclopedia: Centrosome
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An organelle located in the cytoplasm of all animal cells and many plants, fungi, and protozoa that controls the polymerization, position, and polar orientation of many of the cell's microtubules throughout the cell cycle. There is usually one centrosome per cell, located near the cell's center; it doubles during interphase, so there are two when the cell divides. At the onset of mitosis, each centrosome increases the number of microtubules it initiates. These mitotic microtubules are more labile and generally shorter than their interphase counterparts, and as they rapidly grow and shrink they probe the space around the centrosome that initiated them. When the nuclear envelope disperses, the microtubules extend from the centrosome into the former nucleoplasm where the chromosomes have already condensed. Some of these microtubules attach to the chromosomes, while others interact with microtubules produced by the sister centrosome, forming a mitotic spindle that organizes and segregates the chromosomes. During anaphase, sister centrosomes are forced apart as the spindle elongates, allowing each daughter cell to receive one centrosome to organize its microtubules in the next cell generation. See also Cell cycle; Cell motility.

The shapes of centrosomes differ widely between organisms. The centrosomes of animal cells (see illustration) usually contain a pair of perpendicular centrioles including a parent centriole formed in an earlier cell generation and a daughter centriole formed during the most recent interphase. Centrioles can serve as basal bodies for the initiation of a cilium or flagellum in the cells that make them. They appear to be essential for the formation of these motile appendages, so centriole inheritance by both daughters at cell division is analogous to the transmission of a gene. See also Centriole; Cilia and flagella; Cytoskeleton.

Centrosome of a mammalian cell. Many microtubules radiate from the cloud of pericentriolar material which surrounds one of the two centrioles. (<i>Courtesy of Kent McDonald</i>)
Centrosome of a mammalian cell. Many microtubules radiate from the cloud of pericentriolar material which surrounds one of the two centrioles. (Courtesy of Kent McDonald)

Centrosome action is regulated as a function of time in the cell cycle. The increase in microtubule number that occurs prior to mitosis is correlated with a significant increase in the extent of phosphorylation of several centrosomal proteins. The protein kinase p34cdc2, which helps to regulate the cell cycle, is concentrated at the centrosome, together with cyclin-B, a positive regulator of this kinase. See also Mitosis.

Veterinary Dictionary: centrosome
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A specialized area of condensed cytoplasm containing the centrioles and playing an important part in mitosis.

Wikipedia: Centrosome
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Schematic of typical animal cell, showing subcellular components. Organelles:
(1) nucleolus
(2) nucleus
(3) ribosomes (little dots)
(4) vesicle
(5) rough endoplasmic reticulum (ER)
(6) Golgi apparatus
(7) Cytoskeleton
(8) smooth ER
(9) mitochondria
(10) vacuole
(11) cytoplasm
(12) lysosome
(13) centrioles within centrosome

In cell biology, the centrosome is an organelle that serves as the main microtubule organizing center (MTOC) of the animal cell as well as a regulator of cell-cycle progression. It was discovered by Edouard Van Beneden in 1883 [1] and was described and named in 1888 by Theodor Boveri.[2] The centrosome is thought to have evolved only in the metazoan lineage of eukaryotic cells.[3] Fungi and plants use other MTOC structures to organize their microtubules.[4][5] Although the centrosome has a key role in efficient mitosis in animal cells, it is not necessary.[6]

Centrosomes are composed of two orthogonally arranged centrioles surrounded by an amorphous mass of protein termed the pericentriolar material (PCM). The PCM contains proteins responsible for microtubule nucleation and anchoring[7] including γ-tubulin, pericentrin and ninein. In general, each centriole of the centrosome is based on a nine triplet microtubule assembled in a cartwheel structure, and contains centrin, connexin and tektin.[8]

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Roles of the centrosome

Role of the centrosome in cell cycle progression

Centrosomes are often associated with the nuclear membrane during interphase of the cell cycle. In mitosis the nuclear membrane breaks down and the centrosome nucleated microtubules can interact with the chromosomes to build the mitotic spindle.

The mother centriole, the one that was inherited from the mother cell, also has a central role in making cilia and flagella.[8]

The centrosome is copied only once per cell cycle so that each daughter cell inherits one centrosome, containing two centrioles. The centrosome replicates during the S phase of the cell cycle. During the prophase of mitosis, the centrosomes migrate to opposite poles of the cell. The mitotic spindle then forms between the two centrosomes. Upon division, each daughter cell receives one centrosome. Aberrant numbers of centrosomes in a cell have been associated with cancer. Doubling of a centrosome is similar to DNA replication in two respects: the semiconservative nature of the process and the action of cdk2 as a regulator of the process.[9] But the processes are essentially different in that centrosome doubling does not occur by template reading and assembly. The mother centriole just aids in the accumulation of materials required for the assembly of the daughter centriole.[10]

Centrosome (shown by arrow) next to nucleus

Interestingly, centrosomes are not required for the progression of mitosis. When the centrosomes are irradiated by a laser, mitosis proceeds normally with a morphologically normal spindle. Moreover, development of the fruit fly Drosophila is largely normal when centrioles are absent due to a mutation in a gene required for their duplication.[11] In the absence of the centrosome the microtubules of the spindle are focused by motors allowing the formation of a bipolar spindle. Many cells can completely undergo interphase without centrosomes.[8]

Although centrosomes are not required for mitosis or survival of the cell, they are required for survival of the organism. Acentrosomal cells lack radial arrays of astral microtubules. They are also defective in spindle positioning and in ability to establish a central localization site in cytokinesis. The function of centrosome in this context is hypothesized to ensure the fidelity of cell division as it is not necessary but greatly increases the efficacy. Some cell types arrest in the following cell cycle when centrosomes are absent. This is not a universal phenomenon.

When the nematode C. elegans egg is fertilized the sperm delivers a pair of centrioles. These centrioles will form the centrosomes which will direct the first cell division of the zygote and this will determine its polarity. It is not yet clear whether the role of the centrosome in polarity determination is microtubule dependent or independent.

Evolution of the centrosome

The evolutionary history of the centrosome and the centriole has been traced for some of the signature genes, e.g. the centrins[3]. Centrins participate in calcium signaling and are required for centriole duplication[12]. There exist two main subfamilies of centrins, both of which are present in the early-branching eukaryote Giardia intestinalis. Centrins have therefore been present in the common ancestor of eukaryotes. Conversely, they have no recognizable homologs in archea and bacteria and are thus part of the "eukaryotic signature genes." Although there are studies on the evolution of the centrins and centrioles[3][13], no studies have been published on the evolution of the pericentriolar material.

It is evident that some parts of the centrosome are highly diverged in the model species Drosophila melanogaster and Caenorhabditis elegans. For example, both species have lost one of the centrin subfamilies that are usually associated with centriole duplication. Drosophila melanogaster mutants that lack centrosomes can even develop to morphologically normal adult flies, which then die shortly after birth because their sensory neurons lack cilia.[11] Thus, these flies have evolved functionally redundant machinery, which is independent of the centrosomes.

Centrosome Associated Nucleotides

Research in 2006[14] indicated that centrosomes from Surf clam eggs contain RNA sequences. The sequences identified were found in "few to no" other places in the cell, and do not appear in existing genome databases. One identified RNA sequence contains a putative RNA polymerase, leading to the hypothesis of an RNA based genome within the centrosome. However, subsequent research has shown that centrosome do not contain their own DNA-based genomes. While it was confirmed that RNA molecules associate with centrosomes, the sequences have still been found within the nucleus. Furthermore, centrosomes can form de novo after having been removed (e.g by laser irradiation) from normal cells.[13]

References

  1. ^ Wunderlich, V. (2002). "JMM - Past and Present". Journal of Molecular Medicine 80: 545–548. doi:10.1007/s00109-002-0374-y.  edit
  2. ^ Boveri, Theodor (1888). Zellen-Studien II: Die Befruchtung und Teilung des Eies von Ascaris megalocephala.. Jena: Gustav Fischer Verlag. http://www.biodiversitylibrary.org/item/29952. 
  3. ^ a b c Bornens, M. (2007). Origin and Evolution of the Centrosome. 607. pp. 119–129. doi:10.1007/978-0-387-74021-8_10.  edit
  4. ^ Schmit (2002). "Acentrosomal microtubule nucleation in higher plants". International review of cytology 220: 257–89. PMID 12224551.  edit
  5. ^ Jaspersen, S. L. (2004). "THE BUDDING YEAST SPINDLE POLE BODY: Structure, Duplication, and Function". Annual Review of Cell and Developmental Biology 20: 1–1. doi:10.1146/annurev.cellbio.20.022003.114106.  edit
  6. ^ Mahoney, N. M. (2006). "Making Microtubules and Mitotic Spindles in Cells without Functional Centrosomes". Current Biology 16: 564–569. doi:10.1016/j.cub.2006.01.053.  edit
  7. ^ Eddé, B; Rossier; Le Caer; Desbruyères; Gros; Denoulet (1990). "Posttranslational glutamylation of alpha-tubulin". Science (New York, N.Y.) 247 (4938): 83–5. PMID 1967194.  edit
  8. ^ a b c Rieder, Cl; Faruki, S; Khodjakov, A (Oct 2001). "The centrosome in vertebrates: more than a microtubule-organizing center". Trends in cell biology 11 (10): 413–9. doi:10.1016/S0962-8924(01)02085-2. ISSN 0962-8924. PMID 11567874.  edit
  9. ^ Stearns, T (May 2001). "Centrosome duplication. A centriolar pas de deux". Cell 105 (4): 417–20. doi:10.1016/S0092-8674(01)00366-X. ISSN 0092-8674. PMID 11371338.  edit
  10. ^ Rodrigues-martins, A.; Riparbelli, M.; Callaini, G.; Glover, D. M.; Bettencourt-dias, M. (2007). "Revisiting the Role of the Mother Centriole in Centriole Biogenesis". Science 316: 1046. doi:10.1126/science.1142950.  edit
  11. ^ a b Basto, R.; Lau, J.; Vinogradova, T.; Gardiol, A.; Woods, G.; Khodjakov, A.; Raff, W. (Jun 2006). "Flies without centrioles". Cell 125 (7): 1375–1386. doi:10.1016/j.cell.2006.05.025. ISSN 0092-8674. PMID 16814722.  edit
  12. ^ Salisbury, JL; Suino; Busby; Springett (2002). "Centrin-2 is required for centriole duplication in mammalian cells". Current biology : CB 12 (15): 1287–92. doi:10.1016/S0960-9822(02)01019-9. PMID 12176356.  edit
  13. ^ a b Marshall, W. F. (2009). "Centriole evolution". Current Opinion in Cell Biology 21: 14–15. doi:10.1016/j.ceb.2009.01.008.  edit
  14. ^ Alliegro, M. C.; Alliegro, M. A.; Palazzo, R. E. (2006). "Centrosome-associated RNA in surf clam oocytes". Proceedings of the National Academy of Sciences 103: 9034. doi:10.1073/pnas.0602859103.  edit
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Dictionary. The American Heritage® Dictionary of the English Language, Fourth Edition Copyright © 2007, 2000 by Houghton Mifflin Company. Updated in 2009. Published by Houghton Mifflin Company. All rights reserved.  Read more
Sci-Tech Encyclopedia. McGraw-Hill Encyclopedia of Science and Technology. Copyright © 2005 by The McGraw-Hill Companies, Inc. All rights reserved.  Read more
Veterinary Dictionary. Saunders Comprehensive Veterinary Dictionary 3rd Edition. Copyright © 2007 by D.C. Blood, V.P. Studdert and C.C. Gay, Elsevier. All rights reserved.  Read more
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