Tunicate

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Tunicates
Image:Sea-tulip.jpg Sea Tulips, Pyura spinifera
Scientific classification
Kingdom: Animalia Phylum: Chordata Subphylum: Urochordata Giribet et al., 2000
Classes
Ascidiacea (2,300 species) Thaliacea Appendicularia Sorberacea

Tunicate, also known as urochordata, tunicata (and by the common names of urochordates, sea squirts, and sea pork^[1]) is the subphylum of a group of underwater saclike filter feeders with incurrent and excurrent siphons that are members of the phylum Chordata. Though most tinicates feed by filtering sea water through pharyngeal slits, the subphylum also includes some sub-marine predators such as the Megalodicopia hians. As with other chordates, tunicates possess a notochord during their early stages of development, but lack segmentation throughout the body and tail. Tunicates lack the kidney-like metanephridial organs and the original coelom body-cavity has degenerated to a pericardial cavity and gonads. Except for the pharynx, heart and gonads, the organs are enclosed in a membrane called an epicardium, which is surrounded by the jelly-like mesenchyme. Tunicates begin life in a mobile larval stages that resembles a a tadpole, later developing into a barrel-like, sedentary adult form.

Tunicates are are now considered as the closest relatives to the Craniata clade (i.e. hagfish and vertebrates), having dethroned lancelets from that position.^[2]

Contents 1 Description 2 Invasive species 3 Chemical derivatives 4 Regenerative Medicine 5 References 6 External links

[edit] Description

Most tunicates are hermaphroditic. The eggs are kept inside their body until they hatch, while sperm is released into the water where it fertilizes other individuals when brought in with incoming water.

Tunicates are suspension feeders. They have two openings in their body cavity: an incurrent and an excurrent siphon. The incurrent siphon is used to intake food and water and the excurrent siphon expels waste and water. The tunicate's primary food source is plankton. Plankton gets entangled in the mucus secreted from the endostyle. The tunicate's pharynx is covered by miniature hairs called ciliated cells which allow the consumed plankton to pass down through to the esophagus. Their guts are U-shaped, and their anuses empty directly to the outside environment. Tunicates are also the only animals able to create cellulose.

Some larval forms appear very much like primitive chordates or hemichordates with a notochord (primitive spinal cord). Superficially the larva resemble small tadpoles. Some forms have a calcereous spicule that may be preserved as a fossil. They have appeared from the Jurassic to the present, with one proposed Neoproterozoic form, Yarnemia.

The larval stage ends when the tunicate finds a suitable rock to affix to and cements itself in place. The larval form is not capable of feeding, and is only a dispersal mechanism. Many physical changes occur to the tunicate's body, one of the most interesting being the digestion of the cerebral ganglion previously used to control movement. From this comes the common saying that the sea squirt "eats its own brain".^[3]

Once grown, adults can develop a thick covering, called a tunic, to protect their barrel-shaped bodies from enemies.

Sea squirts are more closely related to fish, birds, and people than worms, sea stars, or other invertebrates.

In some classes, the adults remain pelagic (swimming or drifting in the open sea), although their larvae undergo similar metamorphoses to a higher or lower degree.

Tunicate blood is particularly interesting. It contains high concentrations of the transition metal vanadium and vanadium-associated proteins. Some Tunicates can concentrate vanadium up to a level one million times that of the surrounding seawater. Specialized cells can concentrate heavy metals, which are then deposited in the tunic.

The Tunicata contains about 3,000 species, usually divided into the following classes.

• Ascidiacea, (Aplousobranchia, Phlebobranchia, and Stolidobranchia)
• Thaliacea
• Appendicularia (Larvacea)
• Sorberacea.

Newer evidence indicates that the Ascidiacea is an artificial group. The new classification would then look like this.

• Stolidobranchia,
• Phlebobranchia and Thaliacea,
• Aplousobranchia and Appendicularia,
• Sorberacea would belong somewhere in Ascidiacea, or be in a taxon on its own.

For the moment, the traditional classification is followed.

A species that has attracted interest in biology is Ciona intestinalis which is used for developmental studies.

[edit] Invasive species

Over the past few years, urochordates (notably of the genera Didemnum and Styela) have been invading coastal waters in many countries, and are spreading quickly. These mat-like organisms can smother other sea life, have very few natural predators, and are causing much concern.^[4] Transportation of invasive tunicates is usually in the ballast water or on the hulls of ships. Current research indicates that many tunicates previously thought to be indigenous to Europe and the Americas are, in fact, invaders. Some of these invasions may have occurred centuries or even millennia ago. In some areas, tunicates are proving to be a major nuisance in aquaculture operations.^[5][6]

[edit] Chemical derivatives

Tunicates have been found to contain a host of potentially significant compounds, among which are:

• Didemnins (effective against various types of cancer, antivirals, immunosuppressants)
• Aplidine (effective against various types of cancer)
• Esteinascidin 743 (effective against various types of cancer)

[edit] Regenerative Medicine

In the May 2007 issue of The FASEB Journal, researchers from Stanford University show that the tunicate can correct abnormalities over a series of generations, and they suggest that a similar regenerative process might be possible for humans. Ayelet Voskoboynik of Stanford University and author of the study says "We hope the mechanisms underlying this phenomenon will ultimately lead to new insights regarding the potential of cells and tissues to be reprogrammed and regenerate compromised organs in humans." Gerald Weissman, editor-in-chief of The FASEB Journal, said "This study is a landmark in regenerative medicine; the Stanford group has accomplished the biological equivalent of turning a sow's ear into a silk purse and back again."^[7]

[edit] References

• Dennis. 2003. pers. comm. Marine Science Dept. Orange Coast College.
• Solomon, E., L. Berg, D. Martin. 2002. Biology. Brooks/Cole.

[edit] External links

• Error in the Genealogy of Human
• washington.edu page on tunicates^{[dead link]}
• Ascidians.com has pictures of species around the world
• Squirt Alert: Science News Online, [December 24], [2005]
• Ode to the Cunji, in Macquarie University Biology Bytes June 1998
• Tunicates, an invasive species cutting into the profits of mussel farmers, November 14, 2007be-x-old:Абалоньнікі

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