articles de Armophorea - Encyclopédie de la Vie

Armophorea ( anglais )

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Armophorea is a class of ciliates in the subphylum Intramacronucleata.^[1]^[2] .^[3] It was first resolved in 2004^[4] and comprises three orders: Metopida, Clevelandellida,^[5] and Armophorida.^[6] Previously members of this class were thought to be heterotrichs because of similarities in morphology, most notably a characteristic dense arrangement of cilia surrounding their oral structures.^[7] However, the development of genetic tools and subsequent incorporation of DNA sequence information has led to major revisions in the evolutionary relationships of many protists, including ciliates.^[8] Metopids, clevelandellids, and armophorids were grouped into this class based on similarities in their small subunit rRNA sequences, making them one of two so-called "riboclasses" of ciliates, however, recent analyses suggest that Armophorida may not be related to the other two orders.^[9]

Etymology

The name Armophorea is thought to be derived from the Latin word arma, meaning weapons, or armus, meaning shoulder. This name refers to the caenomorphid members of this class, which have a characteristic military helmet-like morphology, and also a twisted appearance that looks like a shoulder.^[7]

Habitat and ecology

Free-living armophoreans live in anoxic or microaerobic habitats, in the sediment or water column where there is reduced or absent oxygen. Thus their distribution is quite limited, although they are found globally in both marine and freshwater habitats, as well as in terrestrial sediment. Clevelandellids live as commensal symbionts inside of the digestive tracts of terrestrial and aquatic animals.^[7]

Armophoreans can survive by encystment when in unfavorable environmental conditions. This is quite important for clevelandellids because it facilitates their transmission between hosts.^[7]

Like most anaerobic ciliates, armophoreans have mitochondria-derived organelles called hydrogenosomes. These specialized organelles produce energy for the cell in absence of oxygen by the fermentation of pyruvate into acetate and hydrogen. Armophoreans harbor methanogenic endosymbiotic archaea that have been located in the cytoplasm adjacent to their hydrogenosomes. Host cells can contain up to 10,000 methanogens, and they are thought to play roles in host growth and metabolism.^[10] It is hypothesized that these symbionts consume the hydrogen that is produced as an end-product of fermentation, making it a more favorable reaction and increasing its energetic yield.^[11] Marine armophoreans also harbor ectosymbiotic bacteria that are sulfate reducers, which are thought to play a similar role as the endosymbiotic methanogens in that they also consume hydrogen as a metabolite of host fermentation.^[10]

Methanogenesis by these endosymbiotic archaea can contribute substantially to the production of methane in sulphate-rich, anoxic detrital sediments and the anoxic water column, but the contribution is modest (>2%) in sandy sediments where the ciliates are lower in number.^[12] This is in contrast to clevelandellids: over 80% of the methane produced by the American cockroach can be attributed to these ciliates via their methanogenic endosymbionts.^[7]

Taxonomy

Order Metopida

Order Clevelandellida (de Puytorac & Grain, 1976)

Family Clevelandellidae (Kidder, 1938)

Genus Anteclevelandella gen. nov.^[13]
Genus Clevelandella Kidder, 1938
Genus Paraclevelandia Kidder, 1937
Genus Rhynchoclevelandella gen. nov.^[13]

Family Nyctotheridae (Amara, 1972)

Genus Nyctotherus Leidy, 1849

Order Armophorida

References

^ Gao, Feng; Warren, Alan; Zhang, Qianqian; Gong, Jun; Miao, Miao; Sun, Ping; Xu, Dapeng; Huang, Jie; Yi, Zhenzhen; Song, Weibo (2016). "The all-data-based evolutionary hypothesis of ciliated protists with a revised classification of the Phylum Ciliophora (Eukaryota, Alveolata)". Scientific Reports. 6: 24874. doi:10.1038/srep24874. PMC 4850378. PMID 27126745.
^ Da Silva Paiva, T; Do Nascimento Borges, B; Da Silva-Neto, I. D. (2013). "Phylogenetic study of Class Armophorea (Alveolata, Ciliophora) based on 18S-rDNA data". Genetics and Molecular Biology. 36 (4): 571–585. doi:10.1590/S1415-47572013000400017. PMC 3873190. PMID 24385862.
^ Li, Can; Zhao, Weishan; Zhang, Dong; Wang, Runqiu; Wang, Guitang; Zou, Hong; Li, Wenxiang; Wu, Shangong; Li, Ming (2018). "Sicuophora (Syn. Wichtermania) multigranularis from Quasipaa spinosa (Anura): morphological and molecular study, with emphasis on validity of Sicuophora (Armophorea, Clevelandellida)". Parasite. 25: 38. doi:10.1051/parasite/2018035. ISSN 1776-1042. PMC 6063722. PMID 30052499.
^ AFFA'A, FELIX-MARIE; HICKEY, DONAL A.; STRUDER-KYPKE, MICHAELA; LYNN, DENIS H. (May 2004). "Phylogenetic Position of Species in the Genera Anoplophrya, Plagiotoma, and Nyctotheroides (Phylum Ciliophora), Endosymbiotic Ciliates of Annelids and Anurans". The Journal of Eukaryotic Microbiology. 51 (3): 301–306. doi:10.1111/j.1550-7408.2004.tb00570.x. ISSN 1066-5234. PMID 15218698.
^ De Puytorac, P; Grain, J (1976). "Ultrastructure du cortex buccal et évolution chez les ciliés". Protistologica. 12: 49–67.
^ Jankowski, AW (1964). "Morphology and evolution of Ciliophora. III. Diagnoses and phylogenesis of 53 sapropelobionts, mainly of the order Heterotrichida". Protist. 107: 185–294.
^ ^a ^b ^c ^d ^e Lynn, Denis H.. (2008). The Ciliated Protozoa : Characterization, Classification, and Guide to the Literature. Springer Science + Business Media B.V. ISBN 9781402082399. OCLC 758317642.
^ Caron, David A.; Countway, Peter D.; Jones, Adriane C.; Kim, Diane Y.; Schnetzer, Astrid (2012-01-15). "Marine Protistan Diversity". Annual Review of Marine Science. 4 (1): 467–493. doi:10.1146/annurev-marine-120709-142802. ISSN 1941-1405. PMID 22457984.
^ Li, Song; Bourland, William A.; Al-Farraj, Saleh A.; Li, Lifang; Hu, Xiaozhong (October 2017). "Description of two species of caenomorphid ciliates (Ciliophora, Armophorea): Morphology and molecular phylogeny". European Journal of Protistology. 61: 29–40. doi:10.1016/j.ejop.2017.08.001.
^ ^a ^b Fenchel, Tom; Finlay, Bland J. (2010), "Free-Living Protozoa with Endosymbiotic Methanogens", (Endo)symbiotic Methanogenic Archaea, Springer Berlin Heidelberg, pp. 1–11, doi:10.1007/978-3-642-13615-3_1, ISBN 9783642136146
^ Worm, Petra; Müller, Nicolai; Plugge, Caroline M.; Stams, Alfons J. M.; Schink, Bernhard (2010), "Syntrophy in Methanogenic Degradation", (Endo)symbiotic Methanogenic Archaea, Springer Berlin Heidelberg, pp. 143–173, doi:10.1007/978-3-642-13615-3_9, ISBN 9783642136146
^ Fenchel, T. (January 1993). "Methanogenesis in marine shallow water sediments: The quantitative role of anaerobic protozoa with endosymbiotic methanogenic bacteria". Ophelia. 37 (1): 67–82. doi:10.1080/00785326.1993.10430378. ISSN 0078-5326.
^ ^a ^b Lukáš Pecina; Peter Vďačný (2022). "DNA barcoding and coalescent-based delimitation of endosymbiotic clevelandellid ciliates (Ciliophora: Clevelandellida): a shift to molecular taxonomy in the inventory of ciliate diversity in panesthiine cockroaches". Zoological Journal of the Linnean Society. 194 (4): 1072–1102. doi:10.1093/zoolinnean/zlab063.

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Armophorea: Brief Summary ( anglais )

fourni par wikipedia EN

Armophorea is a class of ciliates in the subphylum Intramacronucleata. . It was first resolved in 2004 and comprises three orders: Metopida, Clevelandellida, and Armophorida. Previously members of this class were thought to be heterotrichs because of similarities in morphology, most notably a characteristic dense arrangement of cilia surrounding their oral structures. However, the development of genetic tools and subsequent incorporation of DNA sequence information has led to major revisions in the evolutionary relationships of many protists, including ciliates. Metopids, clevelandellids, and armophorids were grouped into this class based on similarities in their small subunit rRNA sequences, making them one of two so-called "riboclasses" of ciliates, however, recent analyses suggest that Armophorida may not be related to the other two orders.

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Armophorea ( espagnol ; castillan )

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Armophorea es una clase de protistas del filo Ciliophora.^[2] ^[3] Incluye formas de vida libre y endosimbióticas y presumiblemente todos los miembros poseen hidrogenosomas. La clase está respaldada por análisis moleculares, pues incluye géneros, como Metopus y Nyctotherus, cuyas cinétidas no son muy similares.^[4]

Ecología

Los armóforos de vida libre viven en hábitats anóxicos o microaeróbicos, en el sedimento o la columna de agua donde hay oxígeno reducido o ausente. Por tanto, su distribución es bastante limitada, aunque se encuentran a nivel mundial tanto en hábitats marinos como de agua dulce, así como en sedimentos terrestres. Los clevelandélidos viven como simbiontes comensales dentro del tracto digestivo de los animales terrestres y acuáticos.

Los armóforos pueden sobrevivir enquistados cuando se encuentran en condiciones ambientales desfavorables. Esto es bastante importante para los clevelandélidos porque facilita su transmisión entre huéspedes.

Como la mayoría de los ciliados anaeróbicos, los armóforos tienen orgánulos derivados de mitocondrias llamados hidrogenosomas. Estos orgánulos especializados producen energía para la célula en ausencia de oxígeno mediante la fermentación del piruvato en acetato e hidrógeno. Los armóforos albergan arqueas endosimbióticas metanogénicas que se han ubicado en el citoplasma adyacente a sus hidrogenosomas. Las células huésped pueden contener hasta 10 000 metanógenos y se cree que desempeñan funciones en el crecimiento y el metabolismo del huésped. Se plantea la hipótesis de que estos simbiontes consumen el hidrógeno que se produce como producto final de la fermentación, lo que la convierte en una reacción más favorable y aumenta su rendimiento energético. Los armóforos marinos también albergan bacterias ectosimbiontes que son reductoras de sulfato, que se cree que desempeñan un papel similar al de los metanógenos endosimbióticos en el sentido de que también consumen hidrógeno como metabolito de la fermentación del huésped.

La metanogénesis de estas arqueas endosimbióticas puede contribuir sustancialmente a la producción de metano en sedimentos detríticos anóxicos ricos en sulfato y en la columna de agua anóxica, pero la contribución es modesta (> 2%) en sedimentos arenosos donde los ciliados son más bajos. Esto contrasta con los clevelandélidos: más del 80 % del metano producido por la cucaracha americana se puede atribuir a estos ciliados a través de sus endosimbiontes metanogénicos.

Referencias

↑ Classification of the Phylum Ciliophora, down to genus, revised by Denis Lynn (unpubl.), http://www.uoguelph.ca/~ciliates/classification/genera.html Archivado el 15 de julio de 2017 en Wayback Machine., Consultado el 27 de agosto de 2015.
↑ Lynn, D. H. (2003). Morphology or molecules: how do we identify the major lineages of ciliates (Phylum Ciliophora). European Journal of Protistology, 39(4), 356-364.
↑ Lynn, Denis (2008). The Ciliated Protozoa: Characterization, Classification, and Guide to the Literature (3 ed.). Springer. p. 10.
↑ Paiva, T. D. S., Borges, B. D. N., & Silva-Neto, I. D. D. (2013). Phylogenetic study of Class Armophorea (Alveolata, Ciliophora) based on 18S-rDNA data. Genetics and molecular biology, 36(4), 571-585.

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Armophorea: Brief Summary ( espagnol ; castillan )