Megathura crenulata

(Redirected from Giant keyhole limpet)

Megathura crenulata is a northeastern Pacific Ocean species of limpet in the family Fissurellidae[1] known commonly as the great keyhole limpet[2] or giant keyhole limpet.[3] Megathura is a monotypic genus; in other words, this is the only species in that genus. This species occurs along the rocky coast of western North America, its distribution extending from Southern California to the Baja California peninsula in Mexico. It is found in the intertidal zone and in the sea up to a depth of 33 meters.[3]

Megathura crenulata
Megathura crenulata on the right, and the warty sea cucumber Parastichopus parvimensis on the left
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Mollusca
Class: Gastropoda
Subclass: Vetigastropoda
Order: Lepetellida
Family: Fissurellidae
Subfamily: Diodorinae
Genus: Megathura
Species:
M. crenulata
Binomial name
Megathura crenulata
Sowerby I, 1825
Living specimen of Megathura crenulata with mantle extended over much of its shell.

Description

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Limpets of this family have a hole at the top of the shell, the portal through which waste products are released. This makes them different from the true limpets, which release waste from the mantle beneath the shell. This species is one of the largest keyhole limpets.[4]

Biology

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This species consumes a varied diet of plant, animal, protist, and algal material. It has been noted to consume filamentous cyanobacteria, diatoms, brown and red algaes such as seaweeds, seagrass, forams, hydrozoans, bryozoans, nematodes, bivalves, gastropods, crustaceans, and tunicates. The larger part of its diet is composed of brown and red algae, tunicates, hydrozoans of the genus Eudendrium and bryozoans of the genus Crisia.[5]

M. crenulata has been used for experimental studies on gamete agglutination. Its blood contains a hemocyanin that appears blue due to its copper content. This protein carries oxygen as hemoglobin does in vertebrates. Unlike hemoglobin, the hemocyanin is not bound to cells but is simply dissolved in the hemolymph, the fluid part of the blood.[6][7]

Keyhole limpet hemocyanin

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Keyhole limpet hemocyanin from Megathura crenulata is used as vaccine carrier protein. Keyhole limpet hemocyanin (KLH) is a copper containing respiratory protein, similar to hemoglobin in humans. KLH is a large protein that acts as the hapten carrier part of the vaccine component, and is so far thought to be non-toxic. The major potential use of KLH is for bladder carcinoma by stimulating a specific immune response, but there are many other medical uses such as stress assessment, understanding inflammatory conditions, and treating drug addiction. Vaccines and other KLH uses are in the research or trial phases. A liter of blood from a keyhole limpet will produce 20 grams of protein, which can be worth as much as $100,000.[8][9][10]

References

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  1. ^ Rosenberg, G. (2015). Megathura crenulata (Sowerby I, 1825). In: MolluscaBase (2015). Accessed through: World Register of Marine Species on 16 February 2016.
  2. ^ Megathura crenulata. Hardy's Internet Guide to Marine Gastropods.
  3. ^ a b Megathura crenulata. SeaLifeBase.
  4. ^ Family: Fissurellidae (Keyhole Limpets). Gladys Archerd Shell Collection, Washington State University Tri-Cities Natural History Museum.
  5. ^ Mazariegos-Villarreal, A., et al. (2013). Diet of the keyhole limpet Megathura crenulata (Mollusca: Gastropoda) in subtropical rocky reefs. Journal of Shellfish Research, 32(2), 297–303.
  6. ^ Castro, P. and M. Huber. Marine Biology. 8th ed. McGraw-Hill/Irwin
  7. ^ Morris, R. H., D. P. Abbott, and E. C. Haderlie. Intertidal Invertebrates of California. Stanford, CA Stanford UP, 1980. Print
  8. ^ Harris, J. R. & Markl, J. (1999). Keyhole limpet hemocyanin (KLH): a biomedical review. Archived 2016-02-24 at the Wayback Machine Micron, 30(6), 597–623.
  9. ^ Sommer, L. Harvesting blood from limpets for a cancer vaccine. IEEE Spectrum 28 September 2012.
  10. ^ Roudman, S. How mollusk blood could cure cancer. Popular Science 30 December 2011.

Further reading

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