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, such as microvilli, and cilia.
Types in animals
In arthropods, an appendage refers to any of the homologous body parts that may extend from a body segment, including antennae, mouthparts (including mandibles, maxillae and maxillipeds), gills, locomotor legs (pereiopods for walking, and pleopods for swimming), sexual organs (gonopods), and parts of the tail (uropods). Typically, each body segment carries one pair of appendages. An appendage which is modified to assist in feeding is known as a maxilliped or gnathopod.[citation needed]
In echinoderms 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 cephalopods, a mollusc phylum, have flexible appendages known as cephalopod limbs. They may have further extensions as suckers.
In vertebrates, an appendage can refer to a locomotor part such as a tail, fins on a fish, limbs (arms, legs, flippers or wings) on a tetrapod; exposed sex organ; defensive parts such as horns and antlers; or sensory organs such as auricles, proboscis (trunk and snout) and barbels.[citation needed]
Appendages may become uniramous, as in insects and centipedes, where each appendage comprises a single series of segments, or it may be biramous, as in many crustaceans, where each appendage branches into two sections. Triramous (branching into three) appendages are also possible.[1]
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.[2]
Types in prokaryotes
A number of cell-surface appendages are found in prokaryotes – bacteria and archaea, and include archaella, flagella, pili, fimbriae, and prosthecae also called stalks.
Archaea
A number of cell-surface appendages may be present on different archaea. Two types of appendage are species-specific; cannulae are specific to Pyrodictium species, and hami are specific to Altiarchaeum.[3] Other various types of surface structure include pili, archaella (archaeal flagella), structures called bindisomes that bind sugars, and posttranslationally modified archaellins and pilins.[4][5]
Archaella are the similar structures to bacterial flagella with the same function in motility particularly swimming, but with a different composition and action. Pili are used in attachment to surfaces, possible communication between cells enabling cell to cell contact allowing genetic transfer, and the formation of biofilms.[4] 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.[4] Appendage fibres described as Iho670 fibres are unique to Ignicoccus hospitalis.[4]
Bacteria
Bacterial cell-surface appendages include flagella, pili, short attachment pili known as fimbriae, and on some species curli fibres. Some bacteria also have stalks known as prosthecae. Other appendages are bacterial nanowires.
Types in eukaryotes
Cell appendages are membrane protrusions that extend from the cell membrane, examples are microvilli and cilia.
Types in plants
A leaf is the main appendage of a plant stem. Prosthechea is a genus of orchids named for the prostheca appendage on the back of the column. Hair like structures known as trichomes are found on many types of plants.
See also
References
- ^ Morris, Simon Conway (1979). "The Burgess Shale (Middle Cambrian) Fauna". Annual Review of Ecology and Systematics. 10: 327–349. doi:10.1146/annurev.es.10.110179.001551. JSTOR 2096795. Retrieved 17 November 2020.
- ^ Emerald, B. Starling; Cohen, Stephen (March 2004). "Spatial and temporal regulation of the homeotic selector gene Antennapedia is required for the establishment of leg identity in Drosophila". Developmental Biology. 267 (2): 462–472. doi:10.1016/j.ydbio.2003.12.006. PMID 15013806.
- ^ van Wolferen, M; Pulschen, AA; Baum, B; Gribaldo, S; Albers, SV (November 2022). "The cell biology of archaea". Nature Microbiology. 7 (11): 1744–1755. doi:10.1038/s41564-022-01215-8. PMC 7613921. PMID 36253512.
- ^ a b c d Jarrell, KF; Ding, Y; Nair, DB; Siu, S (24 January 2013). "Surface appendages of archaea: structure, function, genetics and assembly". Life. 3 (1): 86–117. Bibcode:2013Life....3...86J. doi:10.3390/life3010086. PMC 4187195. PMID 25371333.
- ^ Lassak, K; Ghosh, A; Albers, SV (November 2012). "Diversity, assembly and regulation of archaeal type IV pili-like and non-type-IV pili-like surface structures". Research in Microbiology. 163 (9–10): 630–44. doi:10.1016/j.resmic.2012.10.024. PMID 23146836. S2CID 37802794.