''Trimastix'' is a genus of excavates, the sole occupant of the order Trimastigida. ''Trimastix'' are bacterivorous, free living and anaerobic. When first observed in 1881 by William Kent, the morphology of Trimastix was not well describedKent, W. S. (1881). A manual of the infusoria: including a description of all known flagellate, ciliate, and tentaculiferous protozoa, British and foreign, and an account of the organization and affinities of the sponges (Vol. 1). David Bogue, London, England. but over time the oral structure and flagellar organization have become clearer.Brugerolle, G., & Patterson, D. (1997). Ultrastructure of Trimastix convexa Hollande, an amitochondriate anaerobic flagellate with a previously undescribed organization. European Journal of Protistology, 33(2), 121-130. There are few known species, and the genus's role in the ecosystem is largely unknown. However, it is known that they generally live in marine environments within the tissues of decaying organisms to maintain an anoxic environment. Much interest in this group is related to its close association with other members of

Anaeromonadea Anaeromonadea is a class of excavates, comprising the oxymonad The Oxymonads (or Oxymonadida) are a group of flagellated protozoa found exclusively in the intestines of termites and other wood-eating insects. Along with the similar parabasalid ...

. These organisms do not have classical

mitochondria A mitochondrion (; ) is an organelle found in the cells of most Eukaryotes, such as animals, plants and fungi. Mitochondria have a double membrane structure and use aerobic respiration to generate adenosine triphosphate (ATP), which is used ...

, and as such, much of the research involving these microbes is aimed at investigating the evolution of mitochondria. One species is ''Trimastix pyriformis''.

Taxonomy

* Order Trimastigida Cavalier-Smith 2003 ** Family Trimastigidae Saville Kent 1880 *** Genus ''Trimastix'' Saville Kent 1880 **** Species '' T. elaverinus'' Dumas 1930 **** Species '' T. inaequalis'' Bernard, Simpson & Patterson 2000 **** Species '' T. marina'' Kent 1880

History of Knowledge

''Trimastix'' were first described by William Kent in 1881 when he observed a ''Trimastix'' cell in a sample sourced from decaying fuci seaweed. He described the genera at the time as free-swimming naked animalcules that are oval, or pear shaped, with a membranous border and three flagella inserted on the anterior end. Kent observed one flagellum facing forwards and two facing backwards. It was also noted in this account that ''Trimastix'' had a visually apparent nucleus and contractile vacuole but no visual oral aperture. Kent determined that ''Trimastix'' was a distinct genus, despite similarities to ''Dallingeria'', because of the lateral border he observed which was not present in ''Dallingeria''. It was later determined that the lateral border Kent was referring to was in fact the oral aperture of ''Trimastix'', which also contained a fourth flagella. Today, the morphology of ''Trimastix'' is better understood, including details not initially observed by Kent, such as Trimastix lacking a conventional mitochondrion.Zubáčová, Z., Novák, L., Bublíková, J., Vacek, V., Fousek, J., Rídl, J., Tachezy J, Doležal P, Vlček C, & Hampl, V. (2013). The mitochondrion-like organelle of ''Trimastix pyriformis'' contains the complete glycine cleavage system. ''PLoS One'', 8(3). Current research indicates that despite there being no strong evidence that the organelle can produce ATP, there are many mitochondrial functions that it appears to have maintained.

Habitat and Ecology

''Trimastix'' can only survive in anaerobic habitats, but unlike many amitochondriate anaerobes, ''Trimastix'' are not generally parasitic. ''Trimastix'' instead consume bacteria through their ventral groove. In order to maintain an anoxic environment without parasitism or endosymbiosis, ''Trimastix'' are most often found inside the tissues of dead and decaying marine vegetation.

Morphology

''Trimastix'' cells are oblong broad anteriorly and taper posteriorly. ''Trimastix'' is 20 µm long and 8 µm wide. A kinetid of four flagella is located on the anterior end of the cell with one flagella anteriorly oriented, two flagella posteriorly oriented, and the fourth flagella sitting within an oral groove on the ventral side.O’Kelly, C. J., Farmer, M. A., & Nerad, T. A. (1999). Ultrastructure of Trimastix pyriformis (Klebs) Bernard et al.: similarities of Trimastix species with retortamonad and jakobid flagellates. Protist, 150(2), 149-162. ''Trimastix'' species do not have mitochondria, but they do have remnants of an ancestral mitochondria, in the form of a

mitosome A mitosome is an organelle found in some unicellular eukaryotic organisms, like in members of the supergroup Excavata. The mitosome was found and named in 1999, and its function has not yet been well characterized. It was termed a ''crypton'' by ...

. There is no evidence this mitochondria-like organelle produces ATP, but there is evidence that the glycolytic pathway is intact within it. The mitosome also still appears to be targeted by proteins involved in amino acid metabolism, transport and maturation of proteins and transport of metabolites so it likely retains some mitochondrial function relating to those areas. ''Trimastix'' have one anterior pear-shaped nucleus that contains a large nucleolus, with the exception of ''Trimastix marina'' which has two nuclei.

References

{{Taxonbar, from=Q622727 Metamonads Excavata genera