Biology:Botryllus schlosseri

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Short description: Species of sea squirt

Botryllus schlosseri
Botryllus schlosseri.jpg
Scientific classification edit
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Subphylum: Tunicata
Class: Ascidiacea
Order: Stolidobranchia
Family: Styelidae
Genus: Botryllus
Species:
B. schlosseri
Binomial name
Botryllus schlosseri
(Pallas, 1766) [1]
Synonyms [1]
  • Alcyonium borlasii Turton, 1807
  • Alcyonium schlosseri Pallas, 1766
  • Aplidium verrucosum Dalyell, 1839
  • Botryllus aurolineatus Giard, 1872
  • Botryllus badium Alder & Hancock, 1912
  • Botryllus badius Alder & Hancock, 1912
  • Botryllus bivittatus Milne-Edwards, 1841
  • Botryllus calendula Giard, 1872
  • Botryllus calyculatus Alder & Hancock, 1907
  • Botryllus castaneus Alder & Hancock, 1848
  • Botryllus gemmeus Savigny, 1816
  • Botryllus gouldii Verrill, 1871
  • Botryllus marionis Giard, 1872
  • Botryllus miniatus Alder & Hancock, 1912
  • Botryllus minutus Savigny, 1816
  • Botryllus morio Giard, 1872
  • Botryllus polycyclus Savigny, 1816
  • Botryllus pruinosus Giard, 1872
  • Botryllus rubens Alder & Hancock, 1848
  • Botryllus rubigo Giard, 1872
  • Botryllus smaragdus Milne-Edwards, 1841
  • Botryllus stellatus Gaertner, 1774
  • Botryllus violaceus Milne-Edwards, 1841
  • Botryllus violatinctus Hartmeyer, 1909
  • Botryllus virescens Alder & Hancock, 1848
  • Polycyclus renieri Salfi, 1931

Botryllus schlosseri is a colonial ascidian tunicate. It is commonly known as the star tunicate,[2] but it also has several other common names, including star ascidian and golden star tunicate.[3][4] Colonies grow on slow-moving, submerged objects, plants, and animals in nearshore saltwater environments.

Description

Individual zooids may grow to 3 millimetres (0.12 in) in size, with colonies reaching 50 millimetres (2.0 in) long .[5]

Tunicate colonies of Didemnum (left) and Botryllus schlosseri (right) overgrowing individuals of the tunicate Styela clava

This species can be distinguished from Botrylloides sp. by the pattern of zooid growth. B. schlosseri zooids emanate from a center in the manner of the arms of a star. Also, there usually are fewer zooids per cluster (5–8 in B. schlosseri and 10 or more in Botrylloides). There are many colors in which this species can be found, ranging from orange, blue and grey. A colony can be easily be separated from the main body to form an independent colony usually referred to as a subclone. Two colonies may also fuse together if they share common alleles for historecognition.[6]

Distribution

The native range of Botryllus schlosseri is the north eastern Atlantic Ocean, the Mediterranean Sea and the North Sea.[1] Its range has spread over the last 100 years to a nearly worldwide extent. Ranging in the western Atlantic Ocean from the Bay of Fundy to North Carolina, it is regarded as an invasive species and is "the most common colonial tunicate in North America."[7]

Biology

Botryllus schlosseri is used as a model organism. Clones have been maintained in continuous laboratory culture for several decades, with new adults developing from buds that form from the body wall of existing adults. Under typical culture conditions, asexual reproduction occurs on an approximately two week cycle, during which a new bud will grow and begin to actively feed, while the adult it emerged from regresses and is eventually re-absorbed.[8][9]

When sexually productive, these Botryllus are known to produce,"yellowish-white or pale orange tadpole larva" exhibiting an oval outline.[10]

Colonial tunicates are the only chordates that are able to reproduce both sexually and asexually.[11][12][13] B. schlosseri is a sequential (protogynous) hermaphrodite, and in a colony, eggs are ovulated about two days before the peak of sperm emission.[14] Thus self-fertilization is avoided, and cross-fertilization is favored. Although avoided, self-fertilization is still possible in B. schlosseri. Self-fertilized eggs develop with a substantially higher frequency of anomalies during cleavage than cross-fertilized eggs (23.1% vs. 1.6%).[14] Also a significantly lower percentage of larvae derived from self-fertilized eggs metamorphose (51.5% vs 87.2%), and the growth of the colonies derived from their metamorphosis is significantly slower. These observations suggest that self-fertilization leads to inbreeding depression associated with developmental deficits likely arising from expression of deleterious recessive mutations.[15]

Genome

The genome has been sequenced.[16] It is 580 megabases in length organised into 16 chromosomes. It contains nearly 14,000 intron containing predicted genes and 13,500 intron-less predicted genes. The data also confirmed that the Tunicata are the closest invertebrate relative of humans.[17]

References

  1. 1.0 1.1 1.2 Claude Monniot (2009). "Botryllus schlosseri (Pallas, 1766)". World Register of Marine Species. http://www.marinespecies.org/aphia.php?p=taxdetails&id=103862. 
  2. "Star Tunicate (Botryllus schlosseri)". https://www.pugetsound.edu/academics/academic-resources/slater-museum/exhibits/marine-panel/star-tunicate/. 
  3. "Star Ascidian (Botryllus schlosseri)". https://www.whatsthatfish.com/fish/star-ascidian/1833. 
  4. David Chapman (2008). Exploring the Cornish Coast. Penzance: Alison Hodge. p. 21. ISBN 9780906720561. 
  5. "Botryllus schlosseri". Macrobenthos of the North Sea: Tunicata. Universiteit van Amsterdam. http://ip30.eti.uva.nl/bis/tunicata.php?selected=beschrijving&menuentry=soorten&id=21. 
  6. Irving L. Weissman, Yasunori Saito & Baruch Rinkevich (1990). "Allorecognition histocompatibility in a protochordate species: is the relationship to MHC somatic or structural?". Immunological Reviews 113: 227–241. doi:10.1111/j.1600-065X.1990.tb00043.x. PMID 2180808. 
  7. Andrew J. Martinez; Candace Storm Martinez (2003). Marine Life of the North Atlantic: Canada to New England. Aqua Quest Publications. pp. 272. ISBN 978-1-881652-32-8. 
  8. Manni, L.; Zaniolo, G.; Cima, F.; Burighel, P.; Ballarin, L. (1 February 2007). "Botryllus schlosseri: A model ascidian for the study of asexual reproduction". Developmental Dynamics 236 (2): 335–352. doi:10.1002/dvdy.21037. PMID 17191252. 
  9. Lauzon, Robert J.; Brown, Christina; Kerr, Louie; Tiozzo, Stefano (February 2013). "Phagocyte dynamics in a highly regenerative urochordate: Insights into development and host defense". Developmental Biology 374 (2): 357–373. doi:10.1016/j.ydbio.2012.11.006. PMID 23174529. 
  10. Heather C. Boyd; Weissman, I. L.; Saito, Y. (1990). "Morphologic and genetic verification that Monterey Botryllus and Woods Hole Botryllus are the same species". The Biological Bulletin 178 (3): 239–250. doi:10.2307/1541825. PMID 29314942. http://www.biolbull.org/cgi/content/abstract/178/3/239. 
  11. Stem cells : from hydra to man. Bosch, Thomas C. G.. Dordrecht: Springer. 2008. ISBN 9781402082740. OCLC 233972733. 
  12. Kürn, Ulrich; Rendulic, Snjezana; Tiozzo, Stefano; Lauzon, Robert J. (August 2011). "Asexual Propagation and Regeneration in Colonial Ascidians". The Biological Bulletin 221 (1): 43–61. doi:10.1086/BBLv221n1p43. ISSN 0006-3185. PMID 21876110. 
  13. Ricci, Lorenzo; Salmon, Bastien; Olivier, Caroline; Andreoni-Pham, Rita; Chaurasia, Ankita; Alié, Alexandre; Tiozzo, Stefano (2022). "The Onset of Whole-Body Regeneration in Botryllus schlosseri: Morphological and Molecular Characterization". Frontiers in Cell and Developmental Biology 10: 843775. doi:10.3389/fcell.2022.843775. ISSN 2296-634X. PMID 35237607. 
  14. 14.0 14.1 "Sexual and asexual reproduction in the colonial ascidian Botryllus schlosseri". Genesis 53 (1): 105–20. July 2014. doi:10.1002/dvg.22802. PMID 25044771. 
  15. Bernstein, H; Hopf, FA; Michod, RE (1987). The molecular basis of the evolution of sex. Advances in Genetics. 24. 323–70. doi:10.1016/S0065-2660(08)60012-7. ISBN 9780120176243. 
  16. Voskoboynik A, Neff NF, Sahoo D, Newman AM, Pushkarev D, Koh W, Passarelli B, Fan HC, Mantalas GL, Palmeri KJ, Ishizuka KJ, Gissi C, Griggio F, Ben-Shlomo R, Corey DM, Penland L, White RA, Weissman IL, Quake SR (2013) The genome sequence of the colonial chordate, Botryllus schlosseri. Elife 2:e00569. doi:10.7554/eLife.00569
  17. Delsuc, Frédéric; Brinkmann, Henner; Chourrout, Daniel; Philippe, Hervé (February 2006). "Tunicates and not cephalochordates are the closest living relatives of vertebrates". Nature 439 (7079): 965–968. doi:10.1038/nature04336. ISSN 0028-0836. PMID 16495997. Bibcode2006Natur.439..965D. https://hal.archives-ouvertes.fr/halsde-00315436/file/Delsuc-Nature06_HAL.pdf. 

Wikidata ☰ Q837241 entry



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