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Mesozoa
Dicyema macrocephalum
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Subkingdom: Eumetazoa
Clade: ParaHoxozoa
Clade: Bilateria
Clade: Nephrozoa
(unranked): Protostomia
(unranked): Spiralia
Clade: Platytrochozoa
(unranked): Mesozoa
van Beneden, 1876
Phyla

The Mesozoa are minuscule, worm-like parasites of marine invertebrates. Generally, these tiny, elusive creatures consist of a somatoderm (outer layer) of ciliated cells surrounding one or more reproductive cells.

A recent study recovered Mesozoa as a monophyletic group that emerged in the Lophotrochozoa as sister of the Rouphozoa. [1]

Some workers previously classified Mesozoa as the sole phylum of the lonely subkingdom Agnotozoa. Cavalier-Smith argued that at least some of the mesozoans are in fact protistans, not animals. [2]

In the 19th century, the Mesozoa were a wastebasket taxon for multicellular organisms which lacked the invaginating gastrula which was thought to define the Metazoa. [3]

Evolution

Mesozoa were once thought to be evolutionary intermediate forms between Protozoans and Metazoans, but now they are thought to be degenerate or simplified metazoa. Their ciliated larvae are similar to the miracidium of trematodes, and their internal multiplication is similar to what happens in the sporocysts of trematodes. Mesozoan DNA has a low GC-content (40%). This amount is similar to ciliates, but ciliates tend to be binucleate. Others relate mesozoa to a group including annelids, planarians and nemerteans.

Orthonectida have a very reduced muscular and nervous system, only consisting of a few cells, but so far no muscle cells or neurons have been found in Dicyemida. [4] [5]

Groupings

The two main mesozoan groups are the Dicyemida and the Orthonectida. Other groups sometimes included in the Mesozoa are the Placozoa and the Monoblastozoa.

Monoblastozoans consist of a single description written in the 19th century of a species that has not been seen since. As such, many workers doubt that they are a real group. [6] As described, the animal had only a single layer of tissue. [7]

Rhombozoan mesozoans

Main article: Dicyemida

Rhombozoa, or dicyemid mesozoans, are found in the nephrid tracts of squid and octopuses. [8] They range from a few millimeters long with twenty to thirty cells that include anterior attachment cells and a long central reproductive cell called an axial cell. This axial cell may develop asexually into vermiform juveniles or it may produce eggs and sperm that self-fertilize to produce a ciliated infusiform larva.

There are three genera: Dicyema, Pseudicyema and Dicyemennea.

Molecular evidence suggests that this phylum are derived from the Lophotrochozoa. [9] [10]

Orthonectid mesozoans

Main article: Orthonectida

Orthonectida are found in the body spaces of various marine invertebrates including tissue spaces, gonads, genitorespiratory bursae. This pathogen causes host castration of different species. [11]

The best known of Orthonectida is the parasite of brittle stars. The multinucleate syncytial stage lives within tissues and spaces of the gonad but can spread into arms. It causes the destruction of starfish ovary and eggs to cause castration (the male gonads are usually unaffected). The stages of the plasmodium develop into more plasmodia by simple fragmentation; at some point, they decide to go sexual. The syncytia are dioecious (either male or female), but young syncytia can fuse to produce both male and female. The males are ciliated and smaller than the females. The females and the males leave the starfish and mate in the sea. Tailed sperm enters the female and fertilizes the numerous oocytes. Each oocyst produces a small ciliated larva which makes its way to another star.

The genome of one of these species – Intoshia linei – has been sequenced. [12] The Orthonectids may be degenerate annelid worms. [6] [13]

References

  1. ^ Lu, Tsai-Ming; Kanda, Miyuki; Satoh, Noriyuki; Furuya, Hidetaka (2017-05-29). "The phylogenetic position of dicyemid mesozoans offers insights into spiralian evolution". Zoological Letters. 3: 6. doi: 10.1186/s40851-017-0068-5. ISSN  2056-306X. PMC  5447306. PMID  28560048.
  2. ^ Hanelt, B.; Van Schyndel, D.; Adema, C.M.; Lewis, L.A.; Loker, E.S. (November 1996). "The Phylogenetic Position of Rhopaluva ophiocomae (Orthonectida) Based on 18s Ribosomal DNA Sequence Analysis" (PDF). Molecular Biology and Evolution. 13 (9): 1187–1191. doi: 10.1093/oxfordjournals.molbev.a025683. PMID  8896370. Archived (PDF) from the original on 2022-10-09. Retrieved 2013-03-14.
  3. ^ Syed, Tareq; Schierwater, Bernd (December 2002). "Trichoplax adhaerens: discovered as a missing link, forgotten as a hydrozoan, re-discovered as a key to metazoan evolution". Vie et Milieu. 52 (4): 177–187.
  4. ^ Slyusarev, George S.; Nesterenko, Maksim A.; Starunov, Viktor V. (2019). "The structure of the muscular and nervous systems of the male Intoshia linei (Orthonectida)". Acta Zoologica. 100 (4): 451–458. doi: 10.1111/azo.12279.
  5. ^ Zverkov, O. A.; Mikhailov, K. V.; Isaev, S. V.; Rusin, L. Y.; Popova, O. V.; Logacheva, M. D.; Penin, A. A.; Moroz, L. L.; Panchin, Y. V.; Lyubetsky, V. A.; Aleoshin, V. V. (2019). "Dicyemida and Orthonectida: Two Stories of Body Plan Simplification". Frontiers in Genetics. 10: 443. doi: 10.3389/fgene.2019.00443. PMC  6543705. PMID  31178892.
  6. ^ a b Schiffer, Philipp; Robertson, Helen; Telford, Maximilian (2018-04-03). Orthonectids are highly degenerate annelid worms (Data set). doi: 10.5281/zenodo.1206208.[ better source needed]
  7. ^ de Meeûs, Thierry; Renaud, François (July 2002). "Parasite within the new phylogeny of eukaryotes". Trends in Parasitology. 18 (6): 247–51. doi: 10.1016/S1471-4922(02)02269-9. PMID  12036736.
  8. ^ Hochberg, F. G. (30 June 1983). "The parasites on cephalopods: A review". Memoirs of the National Museum of Victoria. 44: 109–145. doi: 10.24199/j.mmv.1983.44.10.
  9. ^ Kobayash, M.; Furuya, H.; Wada, H. (September–October 2009). "Molecular markers comparing the extremely simple body plan of dicyemids to that of lophotrochozoans: insight from the expression patterns of Hox, Otx, and brachyury". Evolution & Development. 11 (5): 582–589. doi: 10.1111/j.1525-142X.2009.00364.x. PMID  19754714. S2CID  6070504.
  10. ^ Suzuki, T. G.; Ogino, K.; Tsuneki, K.; Furuya, H. (June 2010). "Phylogenetic Analysis of Dicyemid Mesozoans (Phylum Dicyemida) From Innexin Amino Acid Sequences: Dicyemids Are Not Related to Platyhelminthes". Journal of Parasitology. 96 (3): 614–625. doi: 10.1645/GE-2305.1. PMID  20557208. S2CID  25877334.
  11. ^ Barnes, Robert D. (1982). Invertebrate Zoology. Philadelphia, PA: Holt-Saunders International. pp. 247–248. ISBN  978-0-03-056747-6.
  12. ^ Mikhailov, K. V.; Slyusarev, G. S.; Nikitin, M. A.; Penin, A. A.; Aleoshin, V. V.; Panchin, Y. V. (11 July 2016). "The Genome of Intoshia linei Affirms Orthonectids as Highly Simplified Spiralians". Curr Biol. 26 (13): 1768–74. doi: 10.1016/j.cub.2016.05.007. PMID  27374341. S2CID  3917921.
  13. ^ Telford, Maximilian J.; Robertson, Helen E.; Schiffer, Philipp H. (2018-06-18). "Orthonectids Are Highly Degenerate Annelid Worms". Current Biology. 28 (12): 1970–1974.e3. doi: 10.1016/j.cub.2018.04.088. ISSN  0960-9822. PMID  29861137. S2CID  44166754.

External links

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