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{{About|the protozoan phylum Ciliophora|the type of ciliate cells in general|Ciliate cells|the type of leaf margin|Leaf#Margins (edge)}}{{Automatic taxobox
630Ediacaran–Recent}}| image = Ciliate collage.jpg| image_caption = Some examples of ciliate diversity. Clockwise from top left: Lacrymaria, Coleps, Stentor, Dileptus, Paramecium| display_parents = 4| taxon = Ciliophora| authority = Doflein, 1901 emend.LAST2=WARRENLAST3=ZHANGLAST4=GONGLAST5=MIAOLAST6=SUNLAST7=XULAST8=HUANGLAST9=YIDATE=2016-04-29JOURNAL=SCIENTIFIC REPORTSVOLUME=6ISSN=2045-2322PMID=27126745BIBCODE=2016NATSR...624874G, | subdivision = See text for subclasses.| synonyms =
  • Ciliata Perty, 1852
}}The ciliates are a group of protozoans characterized by the presence of hair-like organelles called cilia, which are identical in structure to eukaryotic flagella, but are in general shorter and present in much larger numbers, with a different (wikt:undulating|undulating) pattern than flagella. Cilia occur in all members of the group (although the peculiar Suctoria only have them for part of their life-cycle) and are variously used in swimming, crawling, attachment, feeding, and sensation.Ciliates are an important group of protists, common almost anywhere there is water — in lakes, ponds, oceans, rivers, and soils. About 3,500 species have been described, and the potential number of extant species is estimated at 30,000.JOURNAL, Adl, Sina M., et al, 2007, Diversity, nomenclature, and taxonomy of protists, 17661235, Systematic Biology, 56, 4, 684–9, 10.1080/10635150701494127, Included in this number are many ectosymbiotic and endosymbiotic species, as well as some obligate and opportunistic parasites. Ciliate species range in size from as little as 10 µm to as much as 4 mm in length, and include some of the most morphologically complex protozoans.JOURNAL, Nielsen, Torkel Gissel, Kiørboe, Thomas, 1994, Regulation of zooplankton biomass and production in a temperate, coastal ecosystem. 2. Ciliates, Limnology and Oceanography, 39, 3, 508–519, 10.4319/lo.1994.39.3.0508, 1994LimOc..39..508N, BOOK, The Ciliated Protozoa 3rd Edition, Lynn, Denis, Springer, 2008, 978-1-4020-8238-2, 129, In most systems of taxonomy, "Ciliophora" is ranked as a phylum,WEB, ITIS Report,weblink Integrated Taxonomic Information System, 11 December 2014, under either the kingdom ProtistaJOURNAL, Yi Z, Song W, Clamp JC, Chen Z, Gao S, Zhang Q, Reconsideration of systematic relationships within the order Euplotida (Protista, Ciliophora) using new sequences of the gene coding for small-subunit rRNA and testing the use of combined data sets to construct phylogenies of the Diophrys-complex, Mol. Phylogenet. Evol., 50, 3, 599–607, December 2008, 19121402, 10.1016/j.ympev.2008.12.006, or Protozoa.JOURNAL, Miao M, Song W, Chen Z, A unique euplotid ciliate, Gastrocirrhus (Protozoa, Ciliophora): assessment of its phylogenetic position inferred from the small subunit rRNA gene sequence, J. Eukaryot. Microbiol., 54, 4, 371–8, 2007, 17669163, 10.1111/j.1550-7408.2007.00271.x, etal, In some systems of classification, ciliated protozoa are placed within the class "Ciliata"WEB,weblink Introduction to the Ciliata, 2009-01-16, WEB,weblink Medical Definition of CILIATA,, en, 2017-12-22, (a term which can also refer to a genus of fish). In the taxonomic scheme proposed by the International Society of Protistologists, which eliminates formal rank designations such as "phylum" and "class", "Ciliophora" is an unranked taxon within Alveolata.JOURNAL, Adl, Sina M., etal, 2005, The new higher level classification of eukaryotes with emphasis on the taxonomy of protists, Journal of Eukaryotic Microbiology, 52, 5, 399–451, 10.1111/j.1550-7408.2005.00053.x, 16248873, JOURNAL, Adl, Sina M., etal, 2012, The revised classification of eukaryotes, Journal of Eukaryotic Microbiology, 59, 5, 429–514, 10.1111/j.1550-7408.2012.00644.x, 23020233, 3483872,

Cell structure

(File:Paramecium diagram.png|thumb|left|360px|Diagram of the ciliate Paramecium)


Unlike most other eukaryotes, ciliates have two different sorts of nuclei: a tiny, diploid micronucleus (the "generative nucleus," which carries the germline of the cell), and a large, polyploid macronucleus (the "vegetative nucleus," which takes care of general cell regulation, expressing the phenotype of the organism). The latter is generated from the micronucleus by amplification of the genome and heavy editing. The micronucleus passes its genetic material to offspring, but does not express its genes. The macronucleus provides the small nuclear RNA for vegetative growth.Division of the macronucleus occurs by amitosis, and the segregation of the chromosomes occurs by a process whose mechanism is unknown. This process is not perfect, and after about 200 generations the cell shows signs of aging. Periodically the macronuclei must be regenerated from the micronuclei. In most, this occurs during conjugation. Here two cells line up, the micronuclei undergo meiosis, some of the haploid daughters are exchanged and then fuse to form new micronuclei and macronuclei.


Food vacuoles are formed through phagocytosis and typically follow a particular path through the cell as their contents are digested and broken down by lysosomes so the substances the vacuole contains are then small enough to diffuse through the membrane of the food vacuole into the cell. Anything left in the food vacuole by the time it reaches the cytoproct (anal pore) is discharged by exocytosis. Most ciliates also have one or more prominent contractile vacuoles, which collect water and expel it from the cell to maintain osmotic pressure, or in some function to maintain ionic balance. In some genera, such as Paramecium, these have a distinctive star shape, with each point being a collecting tube.

Specialized structures in ciliates

{{anchor|Specialized_structures_in_ciliates}}Cilia are arranged in rows called kineties. In some forms there are also body polykinetids, for instance, among the spirotrichs where they generally form bristles called cirri. More often body cilia are arranged in mono- and dikinetids, which respectively include one and two kinetosomes (basal bodies), each of which may support a cilium. These are arranged into rows called kineties, which run from the anterior to posterior of the cell. The body and oral kinetids make up the infraciliature, an organization unique to the ciliates and important in their classification, and include various fibrils and microtubules involved in coordinating the cilia.The infraciliature is one of the main components of the cell cortex. Others are the alveoli, small vesicles under the cell membrane that are packed against it to form a pellicle maintaining the cell's shape, which varies from flexible and contractile to rigid. Numerous mitochondria and extrusomes are also generally present. The presence of alveoli, the structure of the cilia, the form of mitosis and various other details indicate a close relationship between the ciliates, Apicomplexa, and dinoflagellates. These superficially dissimilar groups make up the alveolates.


Most ciliates are heterotrophs, feeding on smaller organisms, such as bacteria and algae, and detritus swept into the oral groove (mouth) by modified oral cilia. This usually includes a series of membranelles to the left of the mouth and a paroral membrane to its right, both of which arise from polykinetids, groups of many cilia together with associated structures. The food is moved by the cilia through the mouth pore into the gullet, which forms food vacuoles.Feeding techniques vary considerably, however. Some ciliates are mouthless and feed by absorption (osmotrophy), while others are predatory and feed on other protozoa and in particular on other ciliates. Some ciliates parasitize animals, although only one species, Balantidium coli, is known to cause disease in humans.BOOK, The Ciliated Protozoa: Characterization, Classification, and Guide to the Literature, Springer, 2008, 978-1-4020-8238-2, 3, 58, 1007/978-1-4020-8239-9, Lynn, Denis,

Reproduction and sexual phenomena

(File:Some types of ciliate fission.png|thumb|450x450px|Most ciliates divide transversally, but other kinds of binary fission occur in some species)


Ciliates reproduce asexually, by various kinds of fission.BOOK, The ciliated protozoa : characterization, classification, and guide to the literature, H., Lynn, Denis, 2008, Springer, 9781402082382, New York, 30, 272311632, During fission, the micronucleus undergoes mitosis and the macronucleus elongates and undergoes amitosis (except among the Karyorelictean ciliates, whose macronuclei do not divide). The cell then divides in two, and each new cell obtains a copy of the micronucleus and the macronucleus.(File:Unk.cilliate.jpg|thumb|Ciliate undergoing the last processes of binary fission|left)Typically, the cell is divided transversally, with the anterior half of the ciliate (the proter) forming one new organism, and the posterior half (the opisthe) forming another. However, other types of fission occur in some ciliate groups. These include budding (the emergence of small ciliated offspring, or "swarmers", from the body of a mature parent); strobilation (multiple divisions along the cell body, producing a chain of new organisms); and palintomy (multiple fissions, usually within a cyst).BOOK, The ciliated protozoa : characterization, classification, and guide to the literature, H., Lynn, Denis, 2008, Springer, 9781402082382, New York, 23, 272311632, Fission may occur spontaneously, as part of the vegetative cell cycle. Alternatively, it may proceed as a result of self-fertilization (autogamy),JOURNAL, Berger JD, Autogamy in Paramecium. Cell cycle stage-specific commitment to meiosis, Exp. Cell Res., 166, 2, 475–85, October 1986, 3743667, 10.1016/0014-4827(86)90492-1, or it may follow conjugation, a sexual phenomenon in which ciliates of compatible mating types exchange genetic material. While conjugation is sometimes described as a form of reproduction, it is not directly connected with reproductive processes, and does not directly result in an increase in the number of individual ciliates or their progeny.JOURNAL, Raikov, I.B, 1972, Nuclear phenomena during conjugation and autogamy in ciliates,weblink Research in Protozoology, 4, 149,


Ciliate conjugation is a sexual phenomenon that results in genetic recombination and nuclear reorganization within the cell. During conjugation, two ciliates of a compatible mating type form a bridge between their cytoplasms. The micronuclei undergo meiosis, the macronuclei disappear, and haploid micronuclei are exchanged over the bridge. In some ciliates (peritrichs, chonotrichs and some suctorians), conjugating cells become permanently fused, and one conjugant is absorbed by the other.Finley, Harold E. "The conjugation of Vorticella microstoma." Transactions of the American Microscopical Society (1943): 97-121. In most ciliate groups, however, the cells separate after conjugation, and both form new macronuclei from their micronuclei. Conjugation and autogamy are always followed by fission.In many ciliates, such as Paramecium, conjugating partners (gamonts) are similar or indistinguishable in size and shape. This is referred to as "isogamontic" conjugation. In some groups, partners are different in size and shape. This is referred to as "anisogamontic" conjugation. In sessile peritrichs, for instance, one sexual partner (the microconjugant) is small and mobile, while the other (macroconjugant) is large and sessile.
Stages of conjugation(File:Stages of ciliate conjugation.png|thumb|562x562px|Stages of conjugation in Paramecium caudatum)
In Paramecium caudatum, the stages of conjugation are as follows (see diagram at right):
  1. Compatible mating strains meet and partly fuse
  2. The micronuclei undergo meiosis, producing four haploid micronuclei per cell.
  3. Three of these micronuclei disintegrate. The fourth undergoes mitosis.
  4. The two cells exchange a micronucleus.
  5. The cells then separate.
  6. The micronuclei in each cell fuse, forming a diploid micronucleus.
  7. Mitosis occurs three times, giving rise to eight micronuclei.
  8. Four of the new micronuclei transform into macronuclei, and the old macronucleus disintegrates.
  9. Binary fission occurs twice, yielding four identical daughter cells.

DNA rearrangements (gene scrambling)

Ciliates contain two types of nuclei: somatic "macronucleus" and the germline "micronucleus". Only the DNA in the micronucleus is passed on during sexual reproduction (conjugation). On the other hand, only the DNA in the macronucleus is actively expressed and results in the phenotype of the organism. Macronuclear DNA is derived from micronuclear DNA by amazingly extensive DNA rearrangement and amplification.File:Development of the Oxytricha macronuclear genome.jpg|thumb |451x451px|Development of the OxytrichaOxytrichaThe macronucleus begins as a copy of the micronucleus. The micronuclear chromosomes are fragmented into many smaller pieces and amplified to give many copies. The resulting macronuclear chromosomes often contain only a single gene. In Tetrahymena, the micronucleus has 10 chromosomes (five per haploid genome), while the macronucleus has over 20,000 chromosomes.JOURNAL, Mochizuki, Kazufumi, DNA rearrangements directed by non-coding RNAs in ciliates, Wiley Interdisciplinary Reviews: RNA, 1, 3, 376–387, 2010, 21956937, 10.1002/wrna.34, 3746294, In addition, the micronuclear genes are interrupted by numerous "internal eliminated sequences" (IESs). During development of the macronucleus, IESs are deleted and the remaining gene segments, macronuclear destined sequences (MDSs), are spliced together to give the operational gene. Tetrahymena has about 6,000 IESs and about 15% of micronuclear DNA is eliminated during this process. The process is guided by small RNAs and epigenetic chromatin marks.In spirotrich ciliates (such as Oxytricha), the process is even more complex due to "gene scrambling": the MDSs in the micronucleus are often in different order and orientation from that in the macronuclear gene, and so in addition to deletion, DNA inversion and translocation are required for "unscrambling". This process is guided by long RNAs derived from the parental macronucleus. More than 95% of micronuclear DNA is eliminated during spirotrich macronuclear development.

Fossil record

Until recently, the oldest ciliate fossils known were tintinnids from the Ordovician period. In 2007, Li et al. published a description of fossil ciliates from the Doushantuo Formation, about 580 million years ago, in the Ediacaran period. These included two types of tintinnids and a possible ancestral suctorian.JOURNAL, C.-W., Li, Ciliated protozoans from the Precambrian Doushantuo Formation, Wengan, South China, Geological Society, London, Special Publications, 2007, 286, 1, 151–156, 10.1144/SP286.11, etal, 2007GSLSP.286..151L, A fossil Vorticella has been discovered inside a leech cocoon from the Triassic period, about 200 million years ago.JOURNAL, Bomfleur, Benjamin, Kerp, Hans, Taylor, Thomas N., Moestrup, Øjvind, Taylor, Edith L., 2012-12-18, Triassic leech cocoon from Antarctica contains fossil bell animal, Proceedings of the National Academy of Sciences of the United States of America, 109, 51, 20971–20974, 10.1073/pnas.1218879109, 1091-6490, 3529092, 23213234, 2012PNAS..10920971B,


{{Further|Wikispecies:Ciliophora}}File:Stentor roeseli composite image.jpg|thumb|Stentor roeseliiStentor roeseliiSeveral different classification schemes have been proposed for the ciliates. The following scheme is based on a molecular phylogenetic analysis of up to four genes from 152 species representing 110 families:

Subphylum Postciliodesmatophora

Subphylum Intramacronucleata

File:Oxytricha trifallax.jpg|thumb|Oxytricha trifallaxOxytricha trifallax


  • Class Mesodiniea (a basal group, possibly separated at Subphylum level)
Some old classifications included Opalinidae in the ciliates. The fundamental difference between multiciliate flagellates (e.g., hemimastigids, Stephanopogon, Multicilia, opalines) and ciliates is the presence of macronuclei in ciliates alone.Cavalier-Smith, T. (2000). Flagellate megaevolution: the basis for eukaryote diversification. In: Leadbeater, B.S.C., Green, J.C. (eds.). The Flagellates. Unity, diversity and evolution. London: Taylor and Francis, pp. 361-390, p. 362, weblink.


The only member of the ciliate phylum known to be pathogenic to humans is Balantidium coli,WEB, Balantidiasis, 2013, DPDx — Laboratory Identification of Parasitic Diseases of Public Health Concern, Centers for Disease Control and Prevention,weblink {{harvid, DPDx Balantidiasis, }}BOOK, Ramachandran, Ambili, Introduction, The Parasite: Balantidium coli The Disease: Balantidiasis, 23 May 2003, ParaSite, Stanford University,weblink harv, which causes the disease balantidiasis. It is not pathogenic to the domestic pig.JOURNAL, Schister, Frederick L. and Lynn Ramirez-Avila, Current World Status of Balantidium coli, Clinical Microbiology Reviews, 21, 4, 626–638, October 2008, 18854484, 10.1128/CMR.00021-08, 2570149,



Further reading

  • BOOK, The ciliated protozoa : characterization, classification, and guide to the literature, Lynn, Denis H., 2008, Springer, 9781402082382, New York, 272311632,
  • BOOK, Ciliates : cells as organisms, 1996, Gustav Fischer Verlag, Hausmann, Klaus., Bradbury, Phyllis C. (Phyllis Clarke), 978-3437250361, Stuttgart, 34782787,
  • BOOK, An illustrated guide to the protozoa : organisms traditionally referred to as protozoa, or newly discovered groups, 2000, Society of Protozoologists, Lee, John J., Leedale, Gordon F., Bradbury, Phyllis C. (Phyllis Clarke), 9781891276224, 2nd, Lawrence, Kan., U.S.A., 49191284,
{{Eukaryota classification}}{{Alveolata}}{{Protozoa protist}}{{Antonie van Leeuwenhoek}}{{Life on Earth}}{{Taxonbar|from=Q106345}}{{Authority control}}

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