Coccomyxa is a genus of green algae in the family Coccomyxaceae.[1] This genus is defined by their small, elliptical to spherical shape, and the presence of a simple parietal chloroplast. These features, along with their occurrence in various lifestyles such as free-living, parasitic, or as photobionts, have been used to identify more than 40 species.[2] Using additional morphological features, such as brown akinetes formation, allows for the differentiation between Coccomyxa and the genus Pseudococcomyxa, as they tend to share some morphological characteristics like the general cell shape and one-sided mucilage cap.[3] Recent molecular analysis, however, indicates that the genus Pseudococcomyxa is contained within different Coccomyxa clades, signaling the fact that the two genera are the same.[4] Coccomyxa has often been used as a model organism, and its genome is being completely sequenced. The genus is also an attractive candidate for biofuels.[5]
Coccomyxa | |
---|---|
Coccomyxa polymorpha | |
Scientific classification | |
Clade: | Viridiplantae |
Division: | Chlorophyta |
Class: | Trebouxiophyceae |
Order: | incertae sedis |
Family: | Coccomyxaceae |
Genus: | Coccomyxa Schmidle, 1901 |
Type species | |
Coccomyxa dispar | |
Species[1] | |
See text |
Etymology
editCoccomyxa is a combination of two greco-Latin roots, cocco- and -myxa. Cocco- is a Latinized form of the Greek word kokkos, meaning “berry”, or “seed”.[6] This is in regards to shape, referencing that the Coccomyxa takes on an elliptical and globular structure. -myxa is a Greek term meaning “mucus”,[7] in reference to Coccomyxa’s production of mucoid substances.
Morphology
editCoccomyxa species are relatively small in size, measuring at about 6-14 by 3-6 μm and green in colour due to the presence of chlorophyll a and b.[8] These green algae are elliptical to globular. Their cell wall varies in thickness, from about 40-100 nm, and the cup-shaped chloroplast makes up about half of the volume of the cell. Starch grains are located around the thylakoids.[9] The genus Coccomyxa has a simple parietal chloroplast, but lacks a pyrenoid and flagellated stages.[4]
Coccomyxa are haplontic, meaning they spend a majority of their life cycles as haploids, and generally reproduce asexually.[3]
Habitat and ecology
editCoccomyxa has a worldwide distribution, and are able to form biofilms, inhabiting both marine and freshwater environments. They can be dominant in certain ecosystems and display an impressive diversity in habitat, possessing lifestyles that range from free-living to parasitic. Coccomyxa has been recorded free-living in terrestrial biofilms, as soil algae, connected with mosses, planktonic in limnic ecosystems, in symbiotic associations with fungi and higher plants, and parasitic to marine mussels.[4] There is, however, no current studies that show Coccomyxa free-living in marine environments.
Green algae have been shown to play a significant role in ecosystems. A species of Coccomyxa, Coccomyxa parasitica, has been noted as parasitizing the wild mussels from the Vigo estuary in Galicia, Spain. The aggregations of the green algae occur in the mantle, gill filaments, adductor muscle, visceral mass, and haemolymph of the species M. galloprovincialis.[4] Species of Coccomyxa are photobiont partners in many lichens.[10]
Practical importance
editCoccomyxa is often used as a model organism, as its entire genome sequence has been published.[4] This allows for further research as Coccomyxa can serve as a frame of reference or for further experimentation. Additionally, a free living Coccomyxa species, Coccomyxa sp.C-169,[check spelling] was suggested to be used for biofuels, as their enzyme-digestable cell wall and lipid production gained traction for research use above other strains.
Species list
edit- C. actinabiotis
- C. arvernensis
- C. astericola
- C. brevis
- C. chodatii
- C. confluens
- C. corbierei
- C. curvata
- C. dispar
- C. elongata
- C. flava
- C. galuniael
- C. glaronensis
- C. gloeobotrydiformis
- C. icmadophilae
- C. litoralis
- C. melkonianii
- C. mucigena
- C. naegeliana
- C. olivacea
- C. ophiura
- C. ovalis
- C. pallescens
- C. parasitica
- C. peltigerae
- C. peltigerae variolosae
- C. polymorpha
- C. rayssiae
- C. scabra
- C. solorinae
- C. solorinae bisporae
- C. solorinae saccatae
- C. solorinae-crocae
- C. subellipsoida
- C. subglobosa
- C. subsphaerica
- C. terrestris
- C. thallosa
- C. vinatzeri
- C. viridis
References
edit- ^ a b "Coccomyxa". Taxonomy browser. National Center for Biotechnology Information. Retrieved August 30, 2011.
- ^ Schmidle, W. (1901). "Ueber drei Algengenera". Berichte der Deutschen Botanischen Gesellschaft. 19 (1): 10–24. doi:10.1111/j.1438-8677.1901.tb04939.x. S2CID 250472699.
- ^ a b Grube, Martin; Seckbach, Joseph; Muggia, Lucia (2017). Algal and cyanobacteria symbioses. Grube, Martin; Seckbach, J. (Joseph); Muggia, Lucia. New Jersey. ISBN 978-1786340573. OCLC 935984643.
{{cite book}}
: CS1 maint: location missing publisher (link) - ^ a b c d e Darienko, Tatyana; Gustavs, Lydia; Eggert, Anja; Wolf, Wiebke; Pröschold, Thomas (2015-06-16). "Evaluating the Species Boundaries of Green Microalgae (Coccomyxa, Trebouxiophyceae, Chlorophyta) Using Integrative Taxonomy and DNA Barcoding with Further Implications for the Species Identification in Environmental Samples". PLOS ONE. 10 (6): e0127838. Bibcode:2015PLoSO..1027838D. doi:10.1371/journal.pone.0127838. ISSN 1932-6203. PMC 4469705. PMID 26080086.
- ^ "Home - Coccomyxa sp. C-169". genome.jgi.doe.gov. Retrieved 2018-04-22.
- ^ "the definition of cocco-". Dictionary.com. Retrieved 2018-04-22.
- ^ "Definition of -MYXA". www.merriam-webster.com. Retrieved 2018-04-22.
- ^ Whittle, S.J.; Casselton, P.J. (1969). "The chloroplast pigments of some green and yellow-green algae". British Phycological Journal. 4: 55–64. doi:10.1080/00071616900650041.
- ^ Peveling, Elisabeth; Galun, Margalith (1976-11-01). "Electron-microscopical studies on the phycobiont Coccomyxa Schmidle". New Phytologist. 77 (3): 713–718. doi:10.1111/j.1469-8137.1976.tb04665.x. ISSN 1469-8137.
- ^ Sanders, William B.; Masumoto, Hiroshi (2021). "Lichen algae: the photosynthetic partners in lichen symbioses". The Lichenologist. 53 (5): 347–393. doi:10.1017/S0024282921000335.