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Sex in Trypanosomatids
Kvapilová, Kateřina ; Volf, Petr (advisor) ; Čepička, Ivan (referee)
3 Abstrakt Rody Leishmania a Trypanosoma jsou původci vážných lidských onemocnění: leishmaniózy a trypanosomózy. Dlouhá léta nebyly u těchto parazitů nalezeny přesvědčivé důkazy o genetické výměně, a proto byly rody Trypanosoma a Leishmania považovány za klonálně se rozmnožující, a to binárním štěpením jako většina prvoků. Výzkum ztěžovaly i skutečnosti, že pohlavní dimorfismus není patrný a chromosomy nekondenzují, tudíž nejsou viditelné. Nicméně klonální model začaly zpochybňovat pozorování přirozeně se vyskytujících hybridních druhů. Nejdříve byla existence sexu popsána u trypanosom a to prvním přímým důkazem hybridů T. brucei, získaných po společném přenosu rodičů mouchou tsetse. U leishmanii byl důkaz poskytnut na základě dvojitě rezistentních hybridů a sexuální výměna podstupovala stejný meiotický proces jako T. brucei. Byli pozorovaní přirozeně se vyskytující hybridi Nového i Starého světa jak u rodu Viannia, tak i u rodu Leishmania. Otázkou dalších výzkumů bylo, jaký je mechanismus genetické výměny, ale odpověď dodnes není jasná. Klíčová slova: genetická výměna, Trypanosoma, Leishmania, klonalita, meióza, GFP, přenašeč Abstract Genera Leishmania and Trypanosoma are agents of serious human diseases: leishmaniasis and trypanosomózy. For many years these parasites were considered clone-replicating by...
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Evolution of mastigont in Excavata
Táborský, Petr ; Čepička, Ivan (advisor) ; Hampl, Vladimír (referee)
In recent years we have been discovering a huge diversity of eukaryotic organisms. One of the big super-groups is Excavata. Examination of the organisms from this group is fairly important as far as theoretical and practical reasons are concerned. A significant number of authors believe that there is the root of all eukaryotic organisms in this group. And what is more, a lot of studies prove the point. Within Excavata group we can find the organisms with the most primitive mitochondrial genome which is known. Several other representatives are an important human pathogenes. In the first part of the thesis I focus on the historical review of the creation of the super-group Excavata and I also include a part regarding the theory about Archezoa. The next section deals with the general description of mastigont (basal bodies and cytoskeleton that is associated with them). The last part presents mastigont descriptions of some derived representatives of Excavata. Some of these organisms may be free-living and some live inside other organisms.
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Lateral gene transfer and its utilisation for the phylogeny of eukaryotes
Novák, Lukáš ; Hampl, Vladimír (advisor) ; Čepička, Ivan (referee)
Lateral gene transfer is a relatively rare event in eukaryotes. Presence of a specific gene acquired by lateral transfer in multiple lineages can be therefore considered to be their common synapomorphy, defining them as a monophyletic group. In contrast to usual phylogenetic methods, this approach can potentially shed light even on the direction of evolution and therefore find the position of a root of a given group of organisms. In the first part of this work I discuss various aspects of lateral gene transfer utilisation in eukaryote phylogeny including advantages and disadvantages against common approaches. In the second part I present particular studies that have recently used this method. Key words: Lateral gene transfer, rare genomic changes, long branch attraction artefact, endosymbiosis, phylogeny, eukaryots, protists.
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Cryptic diversity of free-living trichomonads and their phylogenetic position within Parabasalia
Céza, Vít ; Čepička, Ivan (advisor) ; Hampl, Vladimír (referee)
Trichomonads (Parabasalia) are anaerobic microeukaryotes classified in the supergroup Excavata. Inclusion of parabasalids within Excavata is exclusively based on the molecular- phylogenetic evidence. Over 400 species of parabasalids have been described so far, and the vast majority of them are endobiotic. In contrast, only few species of free-living parabasalids forming four independent lineages have been described (Pseudotrichomonas keilini, Ditrichomonas honigbergii, Monotrichomonas carabina, Honigbergiella sp., Tetratrichomonas undula, and Lacusteria cypriaca). Lacusteria cypriaca is a new species and genus described in our recent paper. In this paper we published the first two sequences of SSU rDNA from Pseudotrichomonas keilini as well. All of these lineages are likely secondarily free-living, and they developed from endobiotic ancestors. In addition to the already published Lacusteria cypriaca and Pseudotrichomonas keilini strains, we have recently obtained seven another isolates of free-living trichomonads (LAGOS2D, E2NT, CK, LAGOS2M, GR8, GOU23 LIVADIAN, and VAV1A1); from all of these isolates we sequenced SSU rDNA and performed phylogenetic analyses. These isolates split into four independent evolutionary lineages, which indicate that free-living parabasalids are more diversed and...
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Evolution of anaerobic Heterolobosea
Pánek, Tomáš ; Čepička, Ivan (advisor) ; Oborník, Miroslav (referee)
Heterolobosea is a group of mainly free-living amoebae, flagellates and amoeboflagellates closely related to Euglenozoa and Jakobida (supergroup Excavata). At least two heterolobosean lineages have reduced their mitochondria and live in low concentrations of oxygen (Psalteriomonadidae and extremely halophilic Pleurostomum). Moreover, some other presumably anaerobic species have been described in aerobic heteroloboseid genera, but their sequence data are still missing. The aim of this study is to recognize the diversity and phylogenetic position of both already described and novel non-hypersaline anaerobic heteroloboseans. We have isolated and cultivated 34 strains of free-living heterolobosean flagellates, amoebae and amoeboflagellates from freshwater, brackish and marine microoxic/anoxic habitats. 33 of these strains constitute a single clade (Psalteriomonadidae). We recognize 2 new genera and 3 new species. Phylogenetic analysis of SSU rDNA showed the genus Percolomonas is polyphyletic. The similar morphology of species formally placed within the genus Percolomonas is probably plesiomorphic. Finally, the marine strain PC4AM is morphologically unique and its morphology can not be compared with other heteroloboseans and eukaryotes. It is probably the most derived heterolobosean. Its cell structure...
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Evolution of Retortamonadida (Eukaryota: Excavata: Fornicata)
Smejkalová, Pavla ; Kostka, Martin (referee) ; Čepička, Ivan (advisor)
Retortamonads (Retortamonadida; genera Chilomastix and Retortamonas) are a small group of protists comprising intestinal commensals of both vertebrates and invertebrates and one free-living species of the genus Chilomastix. Molecular phylogenetic studies showed that retortamonads are closely related to diplomonads, Carpediemonas, Dysnectes, Hicanonectes, Kipferlia and two undescribed lineages of free-living Carpediemonas-like organisms, together forming the monophyletic excavate group Fornicata. For a long time Retortamonadida have been assumed to be a monophyletic group. However, first molecular phylogenetic study including sequence data from both Retortamonas and Chilomastix suggested that Retortamonadida are paraphyletic and that diplomonads branch within Retortamonadida. Retortamonads still remain poorly studied protist group and their phylogeny is unclear. We sequenced and analysed SSU rDNA of ten Retortamonas and four Chilomastix SSU rDNA sequences. In addition, we sequenced SSU rDNA of an undescribed enteromonad lineage. The phylogenetic tree of Fornicata was largely unresolved and the phylogenetic position of the genus Chilomastix remained unclear. On the other hand, the genus Retortamonas and diplomonads formed a robust clade. Retortamonas sequences split into three host-specific lineages. The...
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Phylogeny of Archamoebae
Ptáčková, Eliška ; Vávra, Jiří (referee) ; Čepička, Ivan (advisor)
Archamoebae is a small group of anaerobic protists belonging to the eukaryotic supergroup Amoebozoa. Historically, they were regarded as primitively amitochondriate. However, a mitochondrial remnant has been found in some archamoebae. Phylogenetic analyses showed that Archamoebae are closely related to the aerobic slime moulds (Mycetozoa). Trophozoites of archamoebae are amoeboflagellates or aflagellated amoebae. The group includes both parasitic (Entamoeba, Endolimax and, possibly, Endamoeba and Iodamoeba) and free-living (Mastigamoeba, Mastigella, Pelomyxa) genera. The genus Mastigina comprises both endozoic and free-living representatives. Flagellated genera Mastigina, Mastigamoeba, Mastigella and Pelomyxa possess a single basal body associated with a microtubular cone which may or may not be associated with nucleus. The cone is a common feature for Archamoebae and mycetozoan slime moulds. The phylogeny of Archamoebae has not been fully elucidated yet and the taxonomy of free-living representatives is confusing. In the present study, we obtained 42 stable isolates of free-living Archamoebae. We sequenced and analyzed SSU rDNA of 15 of them. The Archamoebae split into five lineages. Based on TEM, we were able to recognize genera Mastigamoeba and Mastigella. The isolate IND8 probably represents a new...
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