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An appendage (or outgrowth) is an external body part or natural prolongation that protrudes from an organism's body such as an arm or a leg. Protrusions from single-celled bacteria and archaea are known as cell-surface appendages or surface appendages. In many kinds of eukaryotic cell the protrusions are known as membrane protrusions or cell appendages (examples include microvilli and cilia).
In lateral protrusions from the body are called parapodia.
In an appendage called a pedicellaria is found. The end of the pedicellaria consists of valves that give a jaw-like appearance and is thought to be used to clear the external body surface. Echinoderms also possess podia known as tube feet. Tube feet form part of the water vascular system and are used for locomotion, food and waste transportation, and respiration.
All , a mollusc class, have flexible appendages known as . They may have further extensions as suckers.
In , an appendage can refer to a locomotor part such as a tail, fish fin on a fish, limbs (, legs, flippers or ) on a tetrapod; exposed sex organ; defensive parts such as horns and ; or such as auricles, proboscis (trunk and snout) and barbels.
Appendages may become uniramous, as in and , where each appendage comprises a single series of segments, or it may be biramous, as in many , where each appendage branches into two sections. Triramous (branching into three) appendages are also possible.
All arthropod appendages are variations of the same basic structure ( homologous), and which structure is produced is controlled by "homeobox" genes. Changes to these genes have allowed scientists to produce animals (chiefly Drosophila melanogaster) with modified appendages, such as legs instead of antennae.
Archaella are the similar structures to bacterial flagella, serving the same function in motility, particularly swimming, but with a different composition and action. Pili are used for attachment to surfaces, possible communication between cells enabling cell-to-cell contact allowing genetic transfer, and the formation of . A type IV pili model is used in the assembly of several cell surface structures. The bindisome is made up of sugar binding proteins to facilitate sugar uptake. So far studies are limited to S. solfataricus. Appendage fibres described as Iho670 fibres are unique to Ignicoccus hospitalis.
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