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2. A novel strain of Leishmania braziliensis harbors not a toti- but a bunyavirus.

Author

Alexei Yu Kostygov, Danyil Grybchuk, Senne Heeren, Evgeny S Gerasimov, Donnamae Klocek, Aditya Reddy, Jovana Sádlová, Lenka Pacáková, Alain Kohl, František Stejskal, Petr Volf, Jean-Claude Dujardin, and Vyacheslav Yurchenko

Subjects
Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270
Abstract

Leishmania is a genus of the family Trypanosomatidae that unites obligatory parasitic flagellates causing a variety of vector-borne diseases collectively called leishmaniasis. The symptoms range from relatively innocuous skin lesions to complete failures of visceral organs. The disease is exacerbated if a parasite harbors Leishmania RNA viruses (LRVs) of the family Pseudototiviridae. Screening a novel isolate of L. braziliensis, we revealed that it possesses not a toti-, but a bunyavirus of the family Leishbuviridae. To the best of our knowledge, this is a very first discovery of a bunyavirus infecting a representative of the Leishmania subgenus Viannia. We suggest that these viruses may serve as potential factors of virulence in American leishmaniasis and encourage researchers to test leishmanial strains for the presence of not only LRVs, but also other RNA viruses.

Published
2024
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4. Intricate balance of dually-localized catalase modulates infectivity of Leptomonas seymouri (Kinetoplastea: Trypanosomatidae)

Author

Chmelová, Ľubomíra, Kraeva, Natalya, Saura, Andreu, Krayzel, Adam, Vieira, Cecilia Stahl, Ferreira, Tainá Neves, Soares, Rodrigo Pedro, Bučková, Barbora, Galan, Arnau, Horáková, Eva, Vojtková, Barbora, Sádlová, Jovana, Malysheva, Marina N., Butenko, Anzhelika, Prokopchuk, Galina, Frolov, Alexander O., Lukeš, Julius, Horváth, Anton, Škodová-Sveráková, Ingrid, Feder, Denise, Yu. Kostygov, Alexei, and Yurchenko, Vyacheslav

Published
2024
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6. Diversity of RNA viruses in the cosmopolitan monoxenous trypanosomatid Leptomonas pyrrhocoris

Author

Diego H. Macedo, Danyil Grybchuk, Jana Režnarová, Jan Votýpka, Donnamae Klocek, Tatiana Yurchenko, Jan Ševčík, Alice Magri, Michaela Urda Dolinská, Kristína Záhonová, Julius Lukeš, Elena Servienė, Alexandra Jászayová, Saulius Serva, Marina N. Malysheva, Alexander O. Frolov, Vyacheslav Yurchenko, and Alexei Yu. Kostygov

Subjects
Tombus-like viruses, Ostravirus, Leishbuviridae, Qinviridae, Pyrrhocoris apterus, Biology (General), QH301-705.5
Abstract

Abstract Background Trypanosomatids are parasitic flagellates well known because of some representatives infecting humans, domestic animals, and cultural plants. Many trypanosomatid species bear RNA viruses, which, in the case of human pathogens Leishmania spp., influence the course of the disease. One of the close relatives of leishmaniae, Leptomonas pyrrhocoris, has been previously shown to harbor viruses of the groups not documented in other trypanosomatids. At the same time, this species has a worldwide distribution and high prevalence in the natural populations of its cosmopolitan firebug host. It therefore represents an attractive model to study the diversity of RNA viruses. Results We surveyed 106 axenic cultures of L. pyrrhocoris and found that 64 (60%) of these displayed 2–12 double-stranded RNA fragments. The analysis of next-generation sequencing data revealed four viral groups with seven species, of which up to five were simultaneously detected in a single trypanosomatid isolate. Only two of these species, a tombus-like virus and an Ostravirus, were earlier documented in L. pyrrhocoris. In addition, there were four new species of Leishbuviridae, the family encompassing trypanosomatid-specific viruses, and a new species of Qinviridae, the family previously known only from metatranscriptomes of invertebrates. Currently, this is the only qinvirus with an unambiguously determined host. Our phylogenetic inferences suggest reassortment in the tombus-like virus owing to the interaction of different trypanosomatid strains. Two of the new Leishbuviridae members branch early on the phylogenetic tree of this family and display intermediate stages of genomic segment reduction between insect Phenuiviridae and crown Leishbuviridae. Conclusions The unprecedented wide range of viruses in one protist species and the simultaneous presence of up to five viral species in a single Leptomonas pyrrhocoris isolate indicate the uniqueness of this flagellate. This is likely determined by the peculiarity of its firebug host, a highly abundant cosmopolitan species with several habits ensuring wide distribution and profuseness of L. pyrrhocoris, as well as its exposure to a wider spectrum of viruses compared to other trypanosomatids combined with a limited ability to transmit these viruses to its relatives. Thus, L. pyrrhocoris represents a suitable model to study the adoption of new viruses and their relationships with a protist host.

Published
2023
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7. Shining the spotlight on the neglected: new high-quality genome assemblies as a gateway to understanding the evolution of Trypanosomatidae

Author

Amanda T. S. Albanaz, Mark Carrington, Alexander O. Frolov, Anna I. Ganyukova, Evgeny S. Gerasimov, Alexei Y. Kostygov, Julius Lukeš, Marina N. Malysheva, Jan Votýpka, Alexandra Zakharova, Kristína Záhonová, Sara L. Zimmer, Vyacheslav Yurchenko, and Anzhelika Butenko

Subjects
Trypanosomatids, Genome assembly, Whole-genome sequencing, Monoxenous, Dixenous, Parasite, Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Protists of the family Trypanosomatidae (phylum Euglenozoa) have gained notoriety as parasites affecting humans, domestic animals, and agricultural plants. However, the true extent of the group's diversity spreads far beyond the medically and veterinary relevant species. We address several knowledge gaps in trypanosomatid research by undertaking sequencing, assembly, and analysis of genomes from previously overlooked representatives of this protistan group. Results We assembled genomes for twenty-one trypanosomatid species, with a primary focus on insect parasites and Trypanosoma spp. parasitizing non-human hosts. The assemblies exhibit sizes consistent with previously sequenced trypanosomatid genomes, ranging from approximately 18 Mb for Obscuromonas modryi to 35 Mb for Crithidia brevicula and Zelonia costaricensis. Despite being the smallest, the genome of O. modryi has the highest content of repetitive elements, contributing nearly half of its total size. Conversely, the highest proportion of unique DNA is found in the genomes of Wallacemonas spp., with repeats accounting for less than 8% of the assembly length. The majority of examined species exhibit varying degrees of aneuploidy, with trisomy being the most frequently observed condition after disomy. Conclusions The genome of Obscuromonas modryi represents a very unusual, if not unique, example of evolution driven by two antidromous forces: i) increasing dependence on the host leading to genomic shrinkage and ii) expansion of repeats causing genome enlargement. The observed variation in somy within and between trypanosomatid genera suggests that these flagellates are largely predisposed to aneuploidy and, apparently, exploit it to gain a fitness advantage. High heterogeneity in the genome size, repeat content, and variation in chromosome copy numbers in the newly-sequenced species highlight the remarkable genome plasticity exhibited by trypanosomatid flagellates. These new genome assemblies are a robust foundation for future research on the genetic basis of life cycle changes and adaptation to different hosts in the family Trypanosomatidae.

Published
2023
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11. A neo-functionalized homolog of host transmembrane protein controls localization of bacterial endosymbionts in the trypanosomatid Novymonas esmeraldas

Author

Zakharova, Alexandra, Tashyreva, Daria, Butenko, Anzhelika, Morales, Jorge, Saura, Andreu, Svobodová, Michaela, Poschmann, Gereon, Nandipati, Satish, Zakharova, Alena, Noyvert, David, Gahura, Ondřej, Týč, Jiří, Stühler, Kai, Kostygov, Alexei Y., Nowack, Eva C.M., Lukeš, Julius, and Yurchenko, Vyacheslav

Published
2023
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13. A novel strain of Leishmania braziliensis harbors not a toti- but a bunyavirus.

Author

Kostygov, Alexei Yu., Grybchuk, Danyil, Heeren, Senne, Gerasimov, Evgeny S., Klocek, Donnamae, Reddy, Aditya, Sádlová, Jovana, Pacáková, Lenka, Kohl, Alain, Stejskal, František, Volf, Petr, Dujardin, Jean-Claude, and Yurchenko, Vyacheslav

Subjects
CUTANEOUS leishmaniasis, NEGLECTED diseases, LEISHMANIASIS, VECTOR-borne diseases, RNA viruses
Abstract

Leishmania is a genus of the family Trypanosomatidae that unites obligatory parasitic flagellates causing a variety of vector-borne diseases collectively called leishmaniasis. The symptoms range from relatively innocuous skin lesions to complete failures of visceral organs. The disease is exacerbated if a parasite harbors Leishmania RNA viruses (LRVs) of the family Pseudototiviridae. Screening a novel isolate of L. braziliensis, we revealed that it possesses not a toti-, but a bunyavirus of the family Leishbuviridae. To the best of our knowledge, this is a very first discovery of a bunyavirus infecting a representative of the Leishmania subgenus Viannia. We suggest that these viruses may serve as potential factors of virulence in American leishmaniasis and encourage researchers to test leishmanial strains for the presence of not only LRVs, but also other RNA viruses. Author summary: Parasites of the genus Leishmania cause a series of neglected tropical diseases collectively known as leishmaniasis. Many isolates of these parasites possess Leishmania RNA viruses (LRVs) of the family Pseudototiviridae that increase a chance of developing more severe mucocutaneous leishmaniasis over the cutaneous form, facilitate the spread of leishamaniae, and make these flagellates more resistant to treatments. In this work, we demonstrate that pseudototiviruses are not the only infecting agents and some isolates of Leishmania may harbor other viruses, exemplified by the leishbuvirus LbrLBV1 of L. braziliensis. Because they may also be considered as potential factors of virulence, we advocate for routine testing of leishmanial strains for the presence of not only LRVs, but also other RNA viruses. [ABSTRACT FROM AUTHOR]

Published
2024
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14. The Mite Steatonyssus periblepharus Is a Novel Potential Vector of the Bat Parasite Trypanosoma dionisii

Author

Marina N. Malysheva, Anna I. Ganyukova, Alexander O. Frolov, Dmitriy V. Chistyakov, and Alexei Yu. Kostygov

Subjects
Chiroptera, bats, trypanosome, 18S rRNA gene, developmental stages, life cycle, Biology (General), QH301-705.5
Abstract

Trypanosoma dionisii, for which only bat bugs (Cimicidae) had previously been demonstrated as vectors, was, for the first time, detected in the gamasine mite Steatonyssus periblepharus in Russia. The molecular phylogenetic analysis indicated that trypanosomes found in these mites belong to the “clade A” of T. dionisii, which, based on genetic distances, can be considered as a species separate from the sister clade B, and according to available data also has a distinct geographic distribution. The presence of developmental forms of T. dionisii resembling those previously described during the development of this trypanosome in cimicids suggests that S. periblepharus is a novel vector of the studied trypanosome.

Published
2023
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15. Recent advances in trypanosomatid research: genome organization, expression, metabolism, taxonomy and evolution

Author

Maslov, Dmitri A, Opperdoes, Fred R, Kostygov, Alexei Y, Hashimi, Hassan, Lukeš, Julius, and Yurchenko, Vyacheslav

Subjects
Biological Sciences, Ecology, Animals, Biological Evolution, Gene Expression Regulation, Genome, Protozoan, Humans, Phylogeny, Trypanosomatina, Gene exchange, kinetoplast, metabolism, molecular and cell biology, taxonomy, trypanosomatidae, Veterinary Sciences, Mycology & Parasitology, Veterinary sciences, Microbiology
Abstract

Unicellular flagellates of the family Trypanosomatidae are obligatory parasites of invertebrates, vertebrates and plants. Dixenous species are aetiological agents of a number of diseases in humans, domestic animals and plants. Their monoxenous relatives are restricted to insects. Because of the high biological diversity, adaptability to dramatically different environmental conditions, and omnipresence, these protists have major impact on all biotic communities that still needs to be fully elucidated. In addition, as these organisms represent a highly divergent evolutionary lineage, they are strikingly different from the common 'model system' eukaryotes, such as some mammals, plants or fungi. A number of excellent reviews, published over the past decade, were dedicated to specialized topics from the areas of trypanosomatid molecular and cell biology, biochemistry, host-parasite relationships or other aspects of these fascinating organisms. However, there is a need for a more comprehensive review that summarizing recent advances in the studies of trypanosomatids in the last 30 years, a task, which we tried to accomplish with the current paper.

Published
2019

16. Development of two species of the Trypanosoma theileri complex in tabanids

Author

Alexei Yu. Kostygov, Alexander O. Frolov, Marina N. Malysheva, Anna I. Ganyukova, Daria Drachko, Vyacheslav Yurchenko, and Vera V. Agasoi

Subjects
Trypanosomes, Life cycle, Vector, Horseflies, Deerflies, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Trypanosoma theileri species complex includes parasites of Bovidae (cattle, sheep, goat, etc.) and Cervidae (deer) transmitted mainly by Tabanidae (horse flies and deerflies) and keds (Hippoboscidae). While morphological discrimination of species is challenging, two big clades, TthI and TthII, each containing parasites isolated from bovids and cervids, have been identified phylogenetically. To date, the development in the vector has been studied in detail only for the ked-transmitted sheep parasite T. melophagium (TthII), while the fate of trypanosomes in tabanids was described only briefly by light microscopy. Methods We collected infected tabanids of various species and identified trypanosomes by molecular phylogenetic analysis. The morphology and development of trypanosomes was studied using the combination of statistical analyses as well as light and electron microscopy. Results Two trypanosome species belonging to both TthI and TthII clades of the T. theileri complex were identified. The phylogenetic position of these two trypanosomes suggests that they parasitize deer. Both species were indiscernible by morphology in the vector and showed the same development in its intestine. In contrast to the previously described development of T. melophagium, both trypanosomes of tabanids only transiently infected midgut and settled mainly in the ileum, while pylorus and rectum were neglected. Meanwhile, the flagellates developing in the tabanid ileum (pyriform epimastigotes and metacyclic trypomastigotes) showed similarities to the corresponding stages in T. melophagium by morphology, mode of attachment to the host cuticle and formation of the fibrillar matrix surrounding the mass of developing parasites. In addition, for the first time to our knowledge we documented extraintestinal stages in these trypanosomes, located in the space between the epithelium and circular muscles. Conclusions The development of different species of flagellates of the T. theileri complex in their insect vectors shows many similarities, which can be explained not only by their common origin, but also the same transmission mode, i.e. contamination of the oral mucosa with the gut content released after squashing the insect either by tongue or teeth. The observed differences (concerning primarily the distribution of developmental stages in the intestine) are associated rather with the identity of vectors than the phylogenetic position of parasites. Graphical Abstract

Published
2022
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18. Elimination of LRVs Elicits Different Responses in Leishmania spp.

Author

Andreu Saura, Alexandra Zakharova, Donnamae Klocek, Evgeny S. Gerasimov, Anzhelika Butenko, Diego H. Macedo, Elena Servienė, Diana Zagirova, Anastasia Meshcheryakova, Igor B. Rogozin, Saulius Serva, Alexei Yu. Kostygov, and Vyacheslav Yurchenko

Subjects
Leishmania guyanensis, Leishmania major, LRV1, LRV2, capsid, Microbiology, QR1-502
Abstract

ABSTRACT Leishmaniaviruses (LRVs) have been demonstrated to enhance progression of leishmaniasis, a vector-transmitted disease with a wide range of clinical manifestations that is caused by flagellates of the genus Leishmania. Here, we used two previously proposed strategies of the LRV ablation to shed light on the relationships of two Leishmania spp. with their respective viral species (L. guyanensis, LRV1 and L. major, LRV2) and demonstrated considerable difference between two studied systems. LRV1 could be easily eliminated by the expression of exogenous capsids regardless of their origin (the same or distantly related LRV1 strains, or even LRV2), while LRV2 was only partially depleted in the case of the native capsid overexpression. The striking differences were also observed in the effects of complete viral elimination with 2'C-methyladenosine (2-CMA) on the transcriptional profiles of these two Leishmania spp. While virtually no differentially expressed genes were detected after the LRV1 removal from L. guyanensis, the response of L. major after ablation of LRV2 involved 87 genes, the analysis of which suggested a considerable stress experienced even after several passages following the treatment. This effect on L. major was also reflected in a significant decrease of the proliferation rate, not documented in L. guyanensis and naturally virus-free strain of L. major. Our findings suggest that integration of L. major with LRV2 is deeper compared with that of L. guyanensis with LRV1. We presume this determines different effects of the viral presence on the Leishmania spp. infections. IMPORTANCE Leishmania spp. represent human pathogens that cause leishmaniasis, a widespread parasitic disease with mild to fatal clinical manifestations. Some strains of leishmaniae bear leishmaniaviruses (LRVs), and this has been shown to aggravate disease course. We investigated the relationships of two distally related Leishmania spp. with their respective LRVs using different strategies of virus removal. Our results suggest the South American L. guyanensis easily loses its virus with no important consequences for the parasite in the laboratory culture. Conversely, the Old-World L. major is refractory to virus removal and experiences a prominent stress if this removal is nonetheless completed. The drastically different levels of integration between the studied Leishmania spp. and their viruses suggest distinct effects of the viral presence on infections in these species of parasites.

Published
2022
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19. Novel Trypanosomatid-Bacterium Association: Evolution of Endosymbiosis in Action

Author

Kostygov, Alexei Y, Dobáková, Eva, Grybchuk-Ieremenko, Anastasiia, Váhala, Dalibor, Maslov, Dmitri A, Votýpka, Jan, Lukeš, Julius, and Yurchenko, Vyacheslav

Subjects
Microbiology, Biological Sciences, Ecology, Evolutionary Biology, Infection, Burkholderiaceae, Ecuador, Phylogeny, Symbiosis, Trypanosomatina, Biochemistry and cell biology, Medical microbiology
Abstract

UnlabelledWe describe a novel symbiotic association between a kinetoplastid protist, Novymonas esmeraldas gen. nov., sp. nov., and an intracytoplasmic bacterium, "Candidatus Pandoraea novymonadis" sp. nov., discovered as a result of a broad-scale survey of insect trypanosomatid biodiversity in Ecuador. We characterize this association by describing the morphology of both organisms, as well as their interactions, and by establishing their phylogenetic affinities. Importantly, neither partner is closely related to other known organisms previously implicated in eukaryote-bacterial symbiosis. This symbiotic association seems to be relatively recent, as the host does not exert a stringent control over the number of bacteria harbored in its cytoplasm. We argue that this unique relationship may represent a suitable model for studying the initial stages of establishment of endosymbiosis between a single-cellular eukaryote and a prokaryote. Based on phylogenetic analyses, Novymonas could be considered a proxy for the insect-only ancestor of the dixenous genus Leishmania and shed light on the origin of the two-host life cycle within the subfamily Leishmaniinae.ImportanceThe parasitic trypanosomatid protist Novymonas esmeraldas gen. nov., sp. nov. entered into endosymbiosis with the bacterium "Ca. Pandoraea novymonadis" sp. nov. This novel and rather unstable interaction shows several signs of relatively recent establishment, qualifying it as a potentially unique transient stage in the increasingly complex range of eukaryotic-prokaryotic relationships.

Published
2016

20. Genome of Leptomonas pyrrhocoris: a high-quality reference for monoxenous trypanosomatids and new insights into evolution of Leishmania.

Author

Flegontov, Pavel, Butenko, Anzhelika, Firsov, Sergei, Kraeva, Natalya, Eliáš, Marek, Field, Mark C, Filatov, Dmitry, Flegontova, Olga, Gerasimov, Evgeny S, Hlaváčová, Jana, Ishemgulova, Aygul, Jackson, Andrew P, Kelly, Steve, Kostygov, Alexei Y, Logacheva, Maria D, Maslov, Dmitri A, Opperdoes, Fred R, O'Reilly, Amanda, Sádlová, Jovana, Ševčíková, Tereza, Venkatesh, Divya, Vlček, Čestmír, Volf, Petr, Votýpka, Jan, Záhonová, Kristína, Yurchenko, Vyacheslav, and Lukeš, Julius

Subjects
Trypanosomatina, Leishmania, Gene Expression Profiling, Evolution, Molecular, Phylogeny, Virulence, Species Specificity, Energy Metabolism, Genes, Protozoan, Genome, Protozoan, Gene Ontology, Evolution, Molecular, Genes, Protozoan, Genome
Abstract

Many high-quality genomes are available for dixenous (two hosts) trypanosomatid species of the genera Trypanosoma, Leishmania, and Phytomonas, but only fragmentary information is available for monoxenous (single-host) trypanosomatids. In trypanosomatids, monoxeny is ancestral to dixeny, thus it is anticipated that the genome sequences of the key monoxenous parasites will be instrumental for both understanding the origin of parasitism and the evolution of dixeny. Here, we present a high-quality genome for Leptomonas pyrrhocoris, which is closely related to the dixenous genus Leishmania. The L. pyrrhocoris genome (30.4 Mbp in 60 scaffolds) encodes 10,148 genes. Using the L. pyrrhocoris genome, we pinpointed genes gained in Leishmania. Among those genes, 20 genes with unknown function had expression patterns in the Leishmania mexicana life cycle suggesting their involvement in virulence. By combining differential expression data for L. mexicana, L. major and Leptomonas seymouri, we have identified several additional proteins potentially involved in virulence, including SpoU methylase and U3 small nucleolar ribonucleoprotein IMP3. The population genetics of L. pyrrhocoris was also addressed by sequencing thirteen strains of different geographic origin, allowing the identification of 1,318 genes under positive selection. This set of genes was significantly enriched in components of the cytoskeleton and the flagellum.

Published
2016

21. Vickermania gen. nov., trypanosomatids that use two joined flagella to resist midgut peristaltic flow within the fly host

Author

Alexei Y. Kostygov, Alexander O. Frolov, Marina N. Malysheva, Anna I. Ganyukova, Lyudmila V. Chistyakova, Daria Tashyreva, Martina Tesařová, Viktoria V. Spodareva, Jana Režnarová, Diego H. Macedo, Anzhelika Butenko, Claudia M. d’Avila-Levy, Julius Lukeš, and Vyacheslav Yurchenko

Subjects
Herpetomonas muscarum ingenoplastis, Cell cycle, Flagella connector, Trypanosoma brucei, Biology (General), QH301-705.5
Abstract

Abstract Background The family Trypanosomatidae encompasses parasitic flagellates, some of which cause serious vector-transmitted diseases of humans and domestic animals. However, insect-restricted parasites represent the ancestral and most diverse group within the family. They display a range of unusual features and their study can provide insights into the biology of human pathogens. Here we describe Vickermania, a new genus of fly midgut-dwelling parasites that bear two flagella in contrast to other trypanosomatids, which are unambiguously uniflagellate. Results Vickermania has an odd cell cycle, in which shortly after the division the uniflagellate cell starts growing a new flagellum attached to the old one and preserves their contact until the late cytokinesis. The flagella connect to each other throughout their whole length and carry a peculiar seizing structure with a paddle-like apex and two lateral extensions at their tip. In contrast to typical trypanosomatids, which attach to the insect host’s intestinal wall, Vickermania is separated from it by a continuous peritrophic membrane and resides freely in the fly midgut lumen. Conclusions We propose that Vickermania developed a survival strategy that relies on constant movement preventing discharge from the host gut due to intestinal peristalsis. Since these parasites cannot attach to the midgut wall, they were forced to shorten the period of impaired motility when two separate flagella in dividing cells interfere with each other. The connection between the flagella ensures their coordinate movement until the separation of the daughter cells. We propose that Trypanosoma brucei, a severe human pathogen, during its development in the tsetse fly midgut faces the same conditions and follows the same strategy as Vickermania by employing an analogous adaptation, the flagellar connector.

Published
2020
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22. A Study of Oribatid Mites as Potential Intermediate Hosts of Anoplocephalid Tapeworms of Tatra chamois and Tatra marmots from the Tatra Mountains, Central Europe, and Report of a New Intermediate Host for Andrya cuniculi, the Parasite of Leporidae

Author

Alexandra Jászayová, Jana Režnarová, Gabriela Chovancová, Alexei Yu Kostygov, Vyacheslav Yurchenko, Daniela Antolová, Tomasz Zwijacz-Kozica, Alexander Csanády, and Zuzana Hurníková

Subjects
Anoplocephalidae, Andrya cuniculi, chamois, marmot, Oribatida, parasites, Science
Abstract

Tatra chamois (Rupicapra rupicapra tatrica (Blahout 1972)) and Tatra marmot (Marmota marmota latirostris (Kratochvíl 1961)) are significant endemic subspecies of the subalpine and alpine ranges of the Tatra Mountains in Central Europe. In four studied localities in the range of their typical biotopes in Slovakia and Poland, we investigated intestinal parasites of Tatra chamois and Tatra marmots, with an emphasis on anoplocephalid tapeworms. We also studied the occurrence, species diversity, and abundance of oribatid mites as intermediate hosts thereof, and the prevalence of cysticercoid larval stages of anoplocephalid tapeworms in collected oribatids using morphological and molecular methods. Coprological analyses revealed the average positivity of Moniezia spp. in chamois faeces at 23.5% and Ctenotaenia marmotae in marmot samples at 71.1%, with significant differences between the localities under study. Morphological analyses determined the presence of cysticercoids in five oribatid species: Ceratozetes gracilis, Edwardzetes edwardsi, Scheloribates laevigatus, Trichoribates novus, and Tectocepheus velatus sarekensis. This is the first record of T. v. sarekensis as an intermediate host of anoplocephalid tapeworms, as well as the first report of Andrya cuniculi occurrence in the territory of the Tatra Mountains, confirmed also by molecular methods.

Published
2023
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26. The Roles of Mosquitoes in the Circulation of Monoxenous Trypanosomatids in Temperate Climates

Author

Alexei Y. Kostygov, Marina N. Malysheva, Anna I. Ganyukova, Alexey V. Razygraev, Daria O. Drachko, Vyacheslav Yurchenko, Vera V. Agasoi, and Alexander O. Frolov

Subjects
Trypanosomatidae, prevalence, specificity, transmission, Paratrypanosoma, Crithidia, Medicine
Abstract

Monoxenous (insect-restricted) trypanosomatids are highly diverse and abundant in nature. While many papers focus on the taxonomy and distribution of these parasites, studies on their biology are still scarce. In particular, this concerns trypanosomatids inhabiting the ubiquitous mosquitoes. To shed light on the circulation of monoxenous trypanosomatids with the participation of mosquitoes, we performed a multifaceted study combining the examination of naturally- and experimentally-infected insects using light and electron microscopy and molecular identification of parasites. Our examination of overwintering mosquitoes (genera Culex and Culiseta) revealed that their guts contained living trypanosomatids, which can be spread during the next season. Experimental infections with Crithidia spp. demonstrated that imagines represent permissive hosts, while larvae are resistant to these parasites. We argue that for the parasites with wide specificity, mosquitoes act as facultative hosts. Other trypanosomatids may have specific adaptations for vertical transmission in these insects at the expense of their potential to infect a wider range of hosts and, consequently, abundance in nature.

Published
2022
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27. A New Model Trypanosomatid, Novymonas esmeraldas: Genomic Perception of Its 'Candidatus Pandoraea novymonadis' Endosymbiont

Author

Alexandra Zakharova, Andreu Saura, Anzhelika Butenko, Lucie Podešvová, Sandra Warmusová, Alexei Yu. Kostygov, Anna Nenarokova, Julius Lukeš, Fred R. Opperdoes, and Vyacheslav Yurchenko

Subjects
Trypanosomatidae, Leishmaniinae, bacterial endosymbiont, genomics, metabolism, Microbiology, QR1-502
Abstract

ABSTRACT The closest relative of human pathogen Leishmania, the trypanosomatid Novymonas esmeraldas, harbors a bacterial endosymbiont “Candidatus Pandoraea novymonadis.” Based on genomic data, we performed a detailed characterization of the metabolic interactions of both partners. While in many respects the metabolism of N. esmeraldas resembles that of other Leishmaniinae, the endosymbiont provides the trypanosomatid with heme, essential amino acids, purines, some coenzymes, and vitamins. In return, N. esmeraldas shares with the bacterium several nonessential amino acids and phospholipids. Moreover, it complements its carbohydrate metabolism and urea cycle with enzymes missing from the “Ca. Pandoraea novymonadis” genome. The removal of the endosymbiont from N. esmeraldas results in a significant reduction of the overall translation rate, reduced expression of genes involved in lipid metabolism and mitochondrial respiratory activity, and downregulation of several aminoacyl-tRNA synthetases, enzymes involved in the synthesis of some amino acids, as well as proteins associated with autophagy. At the same time, the genes responsible for protection against reactive oxygen species and DNA repair become significantly upregulated in the aposymbiotic strain of this trypanosomatid. By knocking out a component of its flagellum, we turned N. esmeraldas into a new model trypanosomatid that is amenable to genetic manipulation using both conventional and CRISPR-Cas9-mediated approaches. IMPORTANCE Novymonas esmeraldas is a parasitic flagellate of the family Trypanosomatidae representing the closest insect-restricted relative of the human pathogen Leishmania. It bears symbiotic bacteria in its cytoplasm, the relationship with which has been established relatively recently and independently from other known endosymbioses in protists. Here, using the genome analysis and comparison of transcriptomic profiles of N. esmeraldas with and without the endosymbionts, we describe a uniquely complex cooperation between both partners on the biochemical level. We demonstrate that the removal of bacteria leads to a decelerated growth of N. esmeraldas, substantial suppression of many metabolic pathways, and increased oxidative stress. Our success with the genetic transformation of this flagellate makes it a new model trypanosomatid species that can be used for the dissection of mechanisms underlying the symbiotic relationships between protists and bacteria.

Published
2021
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30. Comparative genomics of Leishmania (Mundinia)

Author

Anzhelika Butenko, Alexei Y. Kostygov, Jovana Sádlová, Yuliya Kleschenko, Tomáš Bečvář, Lucie Podešvová, Diego H. Macedo, David Žihala, Julius Lukeš, Paul A. Bates, Petr Volf, Fred R. Opperdoes, and Vyacheslav Yurchenko

Subjects
Whole genome sequencing, Leishmania (Mundinia) enriettii, L. (M.) macropodum, L. (M.) martiniquensis, Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Trypanosomatids of the genus Leishmania are parasites of mammals or reptiles transmitted by bloodsucking dipterans. Many species of these flagellates cause important human diseases with clinical symptoms ranging from skin sores to life-threatening damage of visceral organs. The genus Leishmania contains four subgenera: Leishmania, Sauroleishmania, Viannia, and Mundinia. The last subgenus has been established recently and remains understudied, although Mundinia contains human-infecting species. In addition, it is interesting from the evolutionary viewpoint, representing the earliest branch within the genus and possibly with a different type of vector. Here we analyzed the genomes of L. (M.) martiniquensis, L. (M.) enriettii and L. (M.) macropodum to better understand the biology and evolution of these parasites. Results All three genomes analyzed were approximately of the same size (~ 30 Mb) and similar to that of L. (Sauroleishmania) tarentolae, but smaller than those of the members of subgenera Leishmania and Viannia, or the genus Endotrypanum (~ 32 Mb). This difference was explained by domination of gene losses over gains and contractions over expansions at the Mundinia node, although only a few of these genes could be identified. The analysis predicts significant changes in the Mundinia cell surface architecture, with the most important ones relating to losses of LPG-modifying side chain galactosyltransferases and arabinosyltransferases, as well as β-amastins. Among other important changes were gene family contractions for the oxygen-sensing adenylate cyclases and FYVE zinc finger-containing proteins. Conclusions We suggest that adaptation of Mundinia to different vectors and hosts has led to alternative host-parasite relationships and, thereby, made some proteins redundant. Thus, the evolution of genomes in the genus Leishmania and, in particular, in the subgenus Mundinia was mainly shaped by host (or vector) switches.

Published
2019
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32. Euglenozoa: taxonomy, diversity and ecology, symbioses and viruses

Author

Alexei Y. Kostygov, Anna Karnkowska, Jan Votýpka, Daria Tashyreva, Kacper Maciszewski, Vyacheslav Yurchenko, and Julius Lukeš

Subjects
euglenida, kinetoplastida, diplonemida, microbial eukaryotes, systematics, phylogeny, Biology (General), QH301-705.5
Abstract

Euglenozoa is a species-rich group of protists, which have extremely diverse lifestyles and a range of features that distinguish them from other eukaryotes. They are composed of free-living and parasitic kinetoplastids, mostly free-living diplonemids, heterotrophic and photosynthetic euglenids, as well as deep-sea symbiontids. Although they form a well-supported monophyletic group, these morphologically rather distinct groups are almost never treated together in a comparative manner, as attempted here. We present an updated taxonomy, complemented by photos of representative species, with notes on diversity, distribution and biology of euglenozoans. For kinetoplastids, we propose a significantly modified taxonomy that reflects the latest findings. Finally, we summarize what is known about viruses infecting euglenozoans, as well as their relationships with ecto- and endosymbiotic bacteria.

Published
2021
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34. Viral discovery and diversity in trypanosomatid protozoa with a focus on relatives of the human parasite Leishmania

Author

Grybchuk, Danyil, Akopyants, Natalia S., Kostygov, Alexei Y., Konovalovas, Aleksandras, Lye, Lon-Fye, Dobson, Deborah E., Zangger, Haroun, Fasel, Nicolas, Butenko, Anzhelika, Frolov, Alexander O., Votýpka, Jan, d’Avila-Levy, Claudia M., Kulich, Pavel, Moravcová, Jana, Plevka, Pavel, Rogozin, Igor B., Serva, Saulius, Lukeš, Julius, Beverley, Stephen M., and Yurchenko, Vyacheslav

Published
2018

35. CRITERION ANTIWEAR CHARACTERISTICS OF LUBRICATION OILS

Author

V.T. KOSTYGOV

Subjects
трибосистема, интенсивность изнашивания, поверхность трения, градиент, рентгеноструктурный анализ, смазочный материал, Mechanics of engineering. Applied mechanics, TA349-359
Abstract

It was suggested a new conception of identification of wear intensity of lubricated steel friction surfaces by size and distribut6ion of micromechanical characteristics in thin undersurface level, deformated by friction. Suggested criterion characterize antiwear features of lubrication oils.

Published
2018

36. Diversity and evolution of anuran trypanosomes: insights from the study of European species

Author

Viktoria V. Spodareva, Anastasiia Grybchuk-Ieremenko, Alexander Losev, Jan Votýpka, Julius Lukeš, Vyacheslav Yurchenko, and Alexei Yu Kostygov

Subjects
Trypanosomatidae, Mixed infections, Evolution, Frog trypanosomes, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Amphibian trypanosomes were the first ever described trypanosomatids. Nevertheless, their taxonomy remains entangled because of pleomorphism and high prevalence of mixed infections. Despite the fact that the first species in this group were described in Europe, virtually none of the trypanosomes from European anurans was analyzed using modern molecular methods. Methods In this study, we explored the diversity and phylogeny of trypanosomes in true frogs from Europe using light microscopy and molecular methods. Results A comparison of observed morphotypes with previous descriptions allowed us to reliably identify three Trypanosoma spp., whereas the remaining two strains were considered to represent novel taxa. In all cases, more than one morphotype per blood sample was observed, indicating mixed infections. One hundred and thirty obtained 18S rRNA gene sequences were unambiguously subdivided into five groups, correspondent to the previously recognized or novel taxa of anuran trypanosomes. Conclusions In this work we studied European frog trypanosomes. Even with a relatively moderate number of isolates, we were able to find not only three well-known species, but also two apparently new ones. We revealed that previous assignments of multiple isolates from distant geographical localities to one species based on superficial resemblance were unjustified. Our work also demonstrated a high prevalence of mixed trypanosome infections in frogs and proposed a plausible scenario of evolution of the genus Trypanosoma.

Published
2018
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37. Shining the spotlight on the neglected: new high-quality genome assemblies as a gateway to understanding the evolution of Trypanosomatidae

Author

Albanaz, Amanda T. S., primary, Carrington, Mark, additional, Frolov, Alexander O., additional, Ganyukova, Anna I., additional, Gerasimov, Evgeny S., additional, Kostygov, Alexei Y., additional, Lukeš, Julius, additional, Malysheva, Marina N., additional, Votýpka, Jan, additional, Zakharova, Alexandra, additional, Záhonová, Kristína, additional, Zimmer, Sara L., additional, Yurchenko, Vyacheslav, additional, and Butenko, Anzhelika, additional

Published
2023
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41. Comparative Analysis of Three Trypanosomatid Catalases of Different Origin

Author

Ľubomíra Chmelová, Claretta Bianchi, Amanda T. S. Albanaz, Jana Režnarová, Richard Wheeler, Alexei Yu. Kostygov, Natalya Kraeva, and Vyacheslav Yurchenko

Subjects
Vickermania ingenoplastis, Leptomonas pyrrhocoris, Blastocrithidia sp., cyanide resistance, Therapeutics. Pharmacology, RM1-950
Abstract

Most trypanosomatid flagellates do not have catalase. In the evolution of this group, the gene encoding catalase has been independently acquired at least three times from three different bacterial groups. Here, we demonstrate that the catalase of Vickermania was obtained by horizontal gene transfer from Gammaproteobacteria, extending the list of known bacterial sources of this gene. Comparative biochemical analyses revealed that the enzymes of V. ingenoplastis, Leptomonas pyrrhocoris, and Blastocrithidia sp., representing the three independent catalase-bearing trypanosomatid lineages, have similar properties, except for the unique cyanide resistance in the catalase of the latter species.

Published
2021
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42. Analyses of Leishmania-LRV Co-Phylogenetic Patterns and Evolutionary Variability of Viral Proteins

Author

Alexei Y. Kostygov, Danyil Grybchuk, Yulia Kleschenko, Daniil S. Chistyakov, Alexander N. Lukashev, Evgeny S. Gerasimov, and Vyacheslav Yurchenko

Subjects
Leishmaniavirus, coevolution, phylogenomics, Microbiology, QR1-502
Abstract

Leishmania spp. are important pathogens causing a vector-borne disease with a broad range of clinical manifestations from self-healing ulcers to the life-threatening visceral forms. Presence of Leishmania RNA virus (LRV) confers survival advantage to these parasites by suppressing anti-leishmanial immunity in the vertebrate host. The two viral species, LRV1 and LRV2 infect species of the subgenera Viannia and Leishmania, respectively. In this work we investigated co-phylogenetic patterns of leishmaniae and their viruses on a small scale (LRV2 in L. major) and demonstrated their predominant coevolution, occasionally broken by intraspecific host switches. Our analysis of the two viral genes, encoding the capsid and RNA-dependent RNA polymerase (RDRP), revealed them to be under the pressure of purifying selection, which was considerably stronger for the former gene across the whole tree. The selective pressure also differs between the LRV clades and correlates with the frequency of interspecific host switches. In addition, using experimental (capsid) and predicted (RDRP) models we demonstrated that the evolutionary variability across the structure is strikingly different in these two viral proteins.

Published
2021
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43. Genomics of Trypanosomatidae: Where We Stand and What Needs to Be Done?

Author

Vyacheslav Yurchenko, Anzhelika Butenko, and Alexei Y. Kostygov

Subjects
trypanosomatids, next-generation sequencing, genomics, Medicine
Abstract

Trypanosomatids are easy to cultivate and they are (in many cases) amenable to genetic manipulation. Genome sequencing has become a standard tool routinely used in the study of these flagellates. In this review, we summarize the current state of the field and our vision of what needs to be done in order to achieve a more comprehensive picture of trypanosomatid evolution. This will also help to illuminate the lineage-specific proteins and pathways, which can be used as potential targets in treating diseases caused by these parasites.

Published
2021
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45. If host is refractory, insistent parasite goes berserk: Trypanosomatid Blastocrithidia raabei in the dock bug Coreus marginatus.

Author

Alexander O Frolov, Marina N Malysheva, Anna I Ganyukova, Viktoria V Spodareva, Jana Králová, Vyacheslav Yurchenko, and Alexei Y Kostygov

Subjects
Medicine, Science
Abstract

Here we characterized the development of the trypanosomatid Blastocrithidia raabei in the dock bug Coreus marginatus using light and electron microscopy. This parasite has been previously reported to occur in the host hemolymph, which is rather typical for dixenous trypanosomatids transmitted to a plant or vertebrate with insect's saliva. In addition, C. marginatus has an unusual organization of the intestine, which makes it refractory to microbial infections: two impassable segments isolate the anterior midgut portion responsible for digestion and absorption from the posterior one containing symbiotic bacteria. Our results refuted the possibility of hemolymph infection, but revealed that the refractory nature of the host provokes very aggressive behavior of the parasite and makes its life cycle more complex, reminiscent of that in some dixenous trypanosomatids. In the pre-barrier midgut portion, the epimastigotes of B. raabei attach to the epithelium and multiply similarly to regular insect trypanosomatids. However, when facing the impassable constricted region, the parasites rampage and either fiercely break through the isolating segments or attack the intestinal epithelium in front of the barrier. The cells of the latter group pass to the basal lamina and accumulate there, causing degradation of the epitheliocytes and thus helping the epimastigotes of the former group to advance posteriorly. In the symbiont-containing post-barrier midgut segment, the parasites either attach to bacterial cells and produce cyst-like amastigotes (CLAs) or infect enterocytes. In the rectum, all epimastigotes attach either to the cuticular lining or to each other and form CLAs. We argue that in addition to the specialized life cycle B. raabei possesses functional cell enhancements important either for the successful passage through the intestinal barriers (enlarged rostrum and well-developed Golgi complex) or as food reserves (vacuoles in the posterior end).

Published
2020
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47. Endosymbiont Capture, a Repeated Process of Endosymbiont Transfer with Replacement in Trypanosomatids Angomonas spp.

Author

Tomáš Skalický, João M. P. Alves, Anderson C. Morais, Jana Režnarová, Anzhelika Butenko, Julius Lukeš, Myrna G. Serrano, Gregory A. Buck, Marta M. G. Teixeira, Erney P. Camargo, Mandy Sanders, James A. Cotton, Vyacheslav Yurchenko, and Alexei Y. Kostygov

Subjects
genome, bacterial endosymbionts, Trypanosomatidae, Angomonas, Medicine
Abstract

Trypanosomatids of the subfamily Strigomonadinae bear permanent intracellular bacterial symbionts acquired by the common ancestor of these flagellates. However, the cospeciation pattern inherent to such relationships was revealed to be broken upon the description of Angomonas ambiguus, which is sister to A. desouzai, but bears an endosymbiont genetically close to that of A. deanei. Based on phylogenetic inferences, it was proposed that the bacterium from A. deanei had been horizontally transferred to A. ambiguus. Here, we sequenced the bacterial genomes from two A. ambiguus isolates, including a new one from Papua New Guinea, and compared them with the published genome of the A. deanei endosymbiont, revealing differences below the interspecific level. Our phylogenetic analyses confirmed that the endosymbionts of A. ambiguus were obtained from A. deanei and, in addition, demonstrated that this occurred more than once. We propose that coinfection of the same blowfly host and the phylogenetic relatedness of the trypanosomatids facilitate such transitions, whereas the drastic difference in the occurrence of the two trypanosomatid species determines the observed direction of this process. This phenomenon is analogous to organelle (mitochondrion/plastid) capture described in multicellular organisms and, thereafter, we name it endosymbiont capture.

Published
2021
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48. Diversity of RNA viruses in the cosmopolitan monoxenous trypanosomatid Leptomonas pyrrhocoris

Author

Fagundes Macedo, Diego, Grybchuk, Danyil, Reznarova, Jana, Votypka, Jan, Klocek, Donnamae, Yurchenko, Tatiana, Sevcik, Jan, Magri, Alice, Dolinska, Michaela Urda, Zahonova, Kristina, Lukes, Julius, Serviene, Elena, Jaszayova, Alexandra, Serva, Saulius, Malysheva, Marina N., Frolov, Alexander O., Yurchenko, Vyacheslav, Kostygov, Alexei Yu., Fagundes Macedo, Diego, Grybchuk, Danyil, Reznarova, Jana, Votypka, Jan, Klocek, Donnamae, Yurchenko, Tatiana, Sevcik, Jan, Magri, Alice, Dolinska, Michaela Urda, Zahonova, Kristina, Lukes, Julius, Serviene, Elena, Jaszayova, Alexandra, Serva, Saulius, Malysheva, Marina N., Frolov, Alexander O., Yurchenko, Vyacheslav, and Kostygov, Alexei Yu.

Abstract

Background Trypanosomatids are parasitic flagellates well known because of some representatives infecting humans, domestic animals, and cultural plants. Many trypanosomatid species bear RNA viruses, which, in the case of human pathogens Leishmania spp., influence the course of the disease. One of the close relatives of leishmaniae, Leptomonas pyrrhocoris, has been previously shown to harbor viruses of the groups not documented in other trypanosomatids. At the same time, this species has a worldwide distribution and high prevalence in the natural populations of its cosmopolitan firebug host. It therefore represents an attractive model to study the diversity of RNA viruses.Results We surveyed 106 axenic cultures of L. pyrrhocoris and found that 64 (60%) of these displayed 2-12 double-stranded RNA fragments. The analysis of next-generation sequencing data revealed four viral groups with seven species, of which up to five were simultaneously detected in a single trypanosomatid isolate. Only two of these species, a tombus-like virus and an Ostravirus, were earlier documented in L. pyrrhocoris. In addition, there were four new species of Leishbuviridae, the family encompassing trypanosomatid-specific viruses, and a new species of Qinviridae, the family previously known only from metatranscriptomes of invertebrates. Currently, this is the only qinvirus with an unambiguously determined host. Our phylogenetic inferences suggest reassortment in the tombus-like virus owing to the interaction of different trypanosomatid strains. Two of the new Leishbuviridae members branch early on the phylogenetic tree of this family and display intermediate stages of genomic segment reduction between insect Phenuiviridae and crown Leishbuviridae.Conclusions The unprecedented wide range of viruses in one protist species and the simultaneous presence of up to five viral species in a single Leptomonas pyrrhocoris isolate indicate the uniqueness of this flagellate. This is likely determined by th

Published
2023
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49. The Mite Steatonyssus periblepharus Is a Novel Potential Vector of the Bat Parasite Trypanosoma dionisii.

Author

Malysheva, Marina N., Ganyukova, Anna I., Frolov, Alexander O., Chistyakov, Dmitriy V., and Kostygov, Alexei Yu.

Subjects
TRYPANOSOMA, MITES, BATS, PARASITES, GENETIC distance, LIFE cycles (Biology), MOLECULAR phylogeny
Abstract

Trypanosoma dionisii, for which only bat bugs (Cimicidae) had previously been demonstrated as vectors, was, for the first time, detected in the gamasine mite Steatonyssus periblepharus in Russia. The molecular phylogenetic analysis indicated that trypanosomes found in these mites belong to the "clade A" of T. dionisii, which, based on genetic distances, can be considered as a species separate from the sister clade B, and according to available data also has a distinct geographic distribution. The presence of developmental forms of T. dionisii resembling those previously described during the development of this trypanosome in cimicids suggests that S. periblepharus is a novel vector of the studied trypanosome. [ABSTRACT FROM AUTHOR]

Published
2023
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50. A Study of Oribatid Mites as Potential Intermediate Hosts of Anoplocephalid Tapeworms of Tatra chamois and Tatra marmots from the Tatra Mountains, Central Europe, and Report of a New Intermediate Host for Andrya cuniculi, the Parasite of Leporidae

Author

Jászayová, Alexandra, primary, Režnarová, Jana, additional, Chovancová, Gabriela, additional, Kostygov, Alexei Yu, additional, Yurchenko, Vyacheslav, additional, Antolová, Daniela, additional, Zwijacz-Kozica, Tomasz, additional, Csanády, Alexander, additional, and Hurníková, Zuzana, additional

Published
2023
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