Showing total 189 results

1. Past‐President address: My journey in microbial ecology—footprints in the sand, island hopping, supply chains, and technology bridges.

Author

Langlois, Gaytha A.

Subjects

MICROBIAL ecology, SUPPLY chains, SAND, ISLANDS, RESEARCH personnel, ECOLOGICAL impact

Abstract

This paper highlights and honors the connectivity among protistan researchers, using my own research journey as a backdrop, with attention to the supply chain of ideas, supporters, and other influencers who helped to shape and guide my career by sharing their ideas, protocols, skills, and enthusiasm. In looking back at the journey, the supply chain in my career has also included changes in the conceptual framework for my research studies, converging with a continuous flow of ideas and support from colleagues and mentors. To illustrate the complex map of ideas and supporters, this paper will examine technological advances, paradigm shifts in ecological constructs, geographical considerations, breakthroughs in peritrich biology, and the importance of an integrated perspective as we navigate the changing realities of today's scientific challenges. [ABSTRACT FROM AUTHOR]

Published

2024

2. In memoriam: Thomas Cavalier‐Smith (1942–2021).

Author

Langlois, Gaytha A. and Rueckert, Sonja

Subjects

ENDOSYMBIOSIS, MOLECULAR biology, BIOLOGY

Abstract

Thomas Cavalier‐Smith, born in London, U.K., on October 21, 1942, was a Professor of Evolutionary Biology in the Department of Zoology at the University of Oxford at the time of his death on March 19, 2021. Credited with at least 235 research works and over 20,000 citations, Cavalier‐Smith was a well‐known and widely respected scientist who took a bold and detailed approach to understanding major transitions in evolution, including the role of endosymbiosis. He was noted for his willingness to question theories and constantly accumulate and evaluate data, motivated by science for the sake of science. This paper reviews Thomas Cavalier‐Smith's major accomplishments, examines his theoretical approaches, and provides highlights from the "Tree of Life Symposium" sponsored by the International Society of Protistologists (ISOP) and the International Society of Evolutionary Protistology (ISEP) on June 21, 2021, to celebrate Tom's life and work. [ABSTRACT FROM AUTHOR]

Published

2024

3. AAK1‐like: A putative pseudokinase with potential roles in cargo uptake in bloodstream form Trypanosoma brucei parasites.

Author

Black, Jennifer A., Klinger, Christen M., Lemgruber, Leandro, Dacks, Joel B., Mottram, Jeremy C., and McCulloch, Richard

Subjects

TRYPANOSOMA brucei, FREIGHT & freightage, COATED vesicles, TRYPANOSOMA, PROTEIN kinases, CELL membranes

Abstract

Selection and internalization of cargo via clathrin‐mediated endocytosis requires adaptor protein complexes. One complex, AP‐2, acts during cargo selection at the plasma membrane. African trypanosomes lack all components of the AP‐2 complex, except for a recently identified orthologue of the AP‐2‐associated protein kinase 1, AAK1. In characterized eukaryotes, AAK1 phosphorylates the μ2 subunit of the AP‐2 complex to enhance cargo recognition and uptake into clathrin‐coated vesicles. Here, we show that kinetoplastids encode not one, but two AAK1 orthologues: one (AAK1L2) is absent from salivarian trypanosomes, while the other (AAK1L1) lacks important kinase‐specific residues in a range of trypanosomes. These AAK1L1 and AAK1L2 novelties reinforce suggestions of functional divergence in endocytic uptake within salivarian trypanosomes. Despite this, we show that AAK1L1 null mutant Trypanosoma brucei, while viable, display slowed proliferation, morphological abnormalities including swelling of the flagellar pocket, and altered cargo uptake. In summary, our data suggest an unconventional role for a putative pseudokinase during endocytosis and/or vesicular trafficking in T. brucei, independent of AP‐2. [ABSTRACT FROM AUTHOR]

Published

2023

4. Unexpected ubiquity of heart‐shaped scale morphotype in Centroplasthelida (Haptista): Ancestral trait or multiple acquisitions?

Author

Gerasimova, Elena A., Mindolina, Yulia V., Tikhonenkov, Denis V., Kataev, Vladimir Y., Balkin, Alexander S., Mikhailov, Kirill V., Zagumyonnyi, Dmitry G., Plotnikov, Andrey O., and Zlatogursky, Vasily V.

Subjects

SCANNING electron microscopy, SPINE

Abstract

Centrohelids (Haptista: Centroplasthelida) are axopodial protists with a remarkable diversity of external siliceous scale morphologies. It is believed that the last common ancestor of centrohelids had a double layer of siliceous scales composed of plate scales closer to a cell surface and spine scales radiating outwards. The characteristic morphotype of spine scales with a heart‐shaped base was once believed to be a unique feature of the genus Choanocystis, as it was defined by Siemensma and Roijackers (1988). Further research revealed that this morphology is present in different and sometimes distantly related lineages: Ozanamiidae, Meringosphaeridae, and Marophryidae. Here, we report the fourth clade, Pterocystidae, which is also revealed to contain representatives having this phenotype. Cernunnos gen. nov. is erected here to place Cernunnos uralica sp. nov., Cernunnos arctica sp. nov., Cernunnos america sp. nov., and Cernunnos antarctica Tikhonenkov et Mylnikov, 2010, Gerasimova comb. nov. C. uralica was studied with scanning electron microscopy and SSU rDNA sequencing. Molecular phylogenetic analysis placed it into marine environmental clade P within Pterocystida. The ubiquity of spine scales with heart‐shaped bases could be an example of parallel evolution, but taking into account the considerable similarity it is likely an ancestral trait, acquired from the last common ancestor of centrohelids. [ABSTRACT FROM AUTHOR]

Published

2023

5. Silica‐scaled heterotrophic protists Rotosphaerida, Thaumatomonadida, and Centroplasthelida in the large continuous ecosystem connecting Lake Baikal to the Kara Sea.

Author

Bessudova, Anna Yu., Firsova, Alena D., and Likhoshway, Yelena V.

Subjects

PROTISTA, FRESH water, BRACKISH waters, MICROSCOPY, SPECIES diversity

Abstract

Heterotrophic protists Rotosphaerida, Thaumatomonadida, and centrohelid heliozoans are among the less studied silicified protists in terms of their biogeography and ecology. These organisms inhabit fresh and brackish water, and leave behind siliceous structural elements after death that are species‐specific and amenable to electron microscopic analysis. This paper is the first to present data on species richness and taxonomic structure of silica‐scaled heterotrophic protists—rotosphaerids, colorless free‐living thaumatomonad flagellates and centrohelid heliozoans—in the large continuous water system of Siberia connecting Lake Baikal to the Kara Sea. In the study area, electron microscopy revealed 21 centrohelid heliozoan species from the genera Raphidiophrys (1), Acanthocystis (7), Choanocystis (3), Raineriophrys (2), Raphidocystis (6), and Pterocystis (2), seven rotosphaerid species from the genera Pinaciophora (3), Turriplaca (2), Rabdiophrys (1), and Pompholyxophrys (1), and one thaumatomonad flagellate species Thaumatomastix. Two species of rotosphaerids, Rabdiophrys cf. anulifera and Pinaciophora tridentata, and two species of centrohelid heliozoans, Acanthocystis cf. tubata, and A. cf. cornuta, were found in the waters of Russia for the first time. The most widespread species in fresh water from Lake Baikal to the Lower Yenissei River were Pinaciophora fluviatilis and Raineriophrys cf. fortesca. These species disappeared from the protist assemblages of the Yenissei gulf of the Kara Sea due to higher salinity, with only three species, Acanthocystis cf. mylnikovi (at 3.12‰ salinity) and A. pectinata and Raphidocystis sp. 2 (at 8‰ salinity), found in the area. The sensitivity of silica‐scaled heterotrophic protists to changes in habitat parameters suggests that these microeukaryotes could be new indicator organisms. [ABSTRACT FROM AUTHOR]

Published

2022

6. The amoebae of Idionectes vortex (Cutosea, Amoebozoa): Motility, cytoskeleton architecture and extracellular scales.

Subjects

LIFE history theory, CELL motility, AMOEBA, ALGAL cells, GENETIC distance, PHAGOCYTOSIS, CYTOSKELETON

Abstract

The Cutosea represent a deep‐branching lineage within the phylum Amoebozoa that is still relatively poorly explored. Currently, there are four cutosean representatives known – the monotypic genera Armaparvus, Idionectes, Sapocribrum, and Squamamoeba – with marked genetic distances. Idionectes vortex is the deepest‐branching species and differs markedly from the other Cutosea in ecology, life history, and most importantly, in its ability to form a flagellated swarmer with an exceptional swimming mechanism. As far as we know, the other Cutosea lack flagella and rather represent small, marine amoebae with a characteristic cell coat. The present paper focuses on the amoeboid life history stage of the algivorous amoeboflagellate Idionectes vortex to provide data for a first in‐depth comparison with other Cutosea and to document structural specialties. The amoeboid stage of Idionectes is mainly associated with the specific feeding process, that is, the interaction with algal prey cells and phagocytosis of protoplast material. Yet, the present data from time‐lapse microscopy, cytochemical stainings, and electron microscopy demonstrate clear similarities with the other cutosean species concerning amoeboid locomotion and cell coat ultrastructure. Furthermore, Idionectes amoebae exhibit a well‐developed microtubular cytoskeleton, and an unusual basal apparatus that seems to undergo marked changes during the life history of this exceptional amoebozoan. [ABSTRACT FROM AUTHOR]

Published

2021

7. Vegetative cell fusion and a new stage in the life cycle of the Aphelida (Opisthosporidia).

Author

Tcvetkova, Victoria S., Pozdnyakov, Igor R., Seliuk, Alexei O., Zorina, Natalia A., and Karpov, Sergey A.

Subjects

LIFE cycles (Biology), CELL fusion, PARASITOIDS, GENE families, PLASMODIUM

Abstract

The aphelids, intracellular parasitoids of algae, represent a large cluster of species sister to Fungi in molecular phylogenetic trees. Sharing a common ancestor with Fungi, they are very important in terms of evolution of these groups of Holomycota. Aphelid life cycle being superficially similar to that of Chytridiomycetes is understudied. We have found in the aphelids a new stage—big multiflagellar and amoeboid cells, formed from a plasmodium that has two sorts of nuclei after trophic stage fusion. The families of protein‐coding genes involved in the vegetative cell fusion in Opisthokonta were also discussed. [ABSTRACT FROM AUTHOR]

Published

2023

8. The photic‐aphotic divide is a strong ecological and evolutionary force determining the distribution of ciliates (Alveolata, Ciliophora) in the ocean.

Author

Santoferrara, Luciana F., Qureshi, Aleena, Sher, Amina, and Blanco‐Bercial, Leocadio

Subjects

CILIATA, DNA sequencing, INFORMATION resources, DATABASE design, MULTIVARIATE analysis

Abstract

The bulk of knowledge on marine ciliates is from shallow and/or sunlit waters. We studied ciliate diversity and distribution across epi‐ and mesopelagic oceanic waters, using DNA metabarcoding and phylogeny‐based metrics. We analyzed sequences of the 18S rRNA gene (V4 region) from 369 samples collected at 12 depths (0–1000 m) at the Bermuda Atlantic Time‐series Study site of the Sargasso Sea (North Atlantic) monthly for 3 years. The comprehensive depth and temporal resolutions analyzed led to three main findings. First, there was a gradual but significant decrease in alpha‐diversity (based on Faith's phylogenetic diversity index) from surface to 1000‐m waters. Second, multivariate analyses of beta‐diversity (based on UniFrac distances) indicate that ciliate assemblages change significantly from photic to aphotic waters, with a switch from Oligotrichea to Oligohymenophorea prevalence. Third, phylogenetic placement of sequence variants and clade‐level correlations (EPA‐ng and GAPPA algorithms) show Oligotrichea, Litostomatea, Prostomatea, and Phyllopharyngea as anti‐correlated with depth, while Oligohymenophorea (especially Apostomatia) have a direct relationship with depth. Two enigmatic environmental clades include either prevalent variants widely distributed in aphotic layers (the Oligohymenophorea OLIGO5) or subclades differentially distributed in photic versus aphotic waters (the Discotrichidae NASSO1). These results settle contradictory relationships between ciliate alpha‐diversity and depth reported before, suggest functional changes in ciliate assemblages from photic to aphotic waters (with the prevalence of algivory and mixotrophy vs. omnivory and parasitism, respectively), and indicate that contemporary taxon distributions in the vertical profile have been strongly influenced by evolutionary processes. Integration of DNA sequences with organismal data (microscopy, functional experiments) and development of databases that link these sources of information remain as major tasks to better understand ciliate diversity, ecological roles, and evolution in the ocean. [ABSTRACT FROM AUTHOR]

Published

2023

9. Phylogenomics of novel ploeotid taxa contribute to the backbone of the euglenid tree.

Author

Lax, Gordon, Cho, Anna, and Keeling, Patrick J.

Subjects

SPINE, EUGLENOIDS, MICROSCOPY, TREES, FLAGELLATA

Abstract

Euglenids are a diverse group of flagellates that inhabit most environments and exhibit many different nutritional modes. The most prominent euglenids are phototrophs, but phagotrophs constitute the majority of phylogenetic diversity of euglenids. They are pivotal to our understanding of euglenid evolution, yet we are only starting to understand relationships amongst phagotrophs, with the backbone of the tree being most elusive. Ploeotids make up most of this backbone diversity—yet despite their morphological similarities, SSU rDNA analyses and multigene analyses show that they are non‐monophyletic. As more ploeotid diversity is sampled, known taxa have coalesced into some subgroups (e.g. Alistosa), but the relationships amongst these are not always supported and some taxa remain unsampled for multigene phylogenetics. Here, we used light microscopy and single‐cell transcriptomics to characterize five ploeotid euglenids and place them into a multigene phylogenetic framework. Our analyses place Decastava in Alistosa; while Hemiolia branches with Liburna, establishing the novel clade Karavia. We describe Hemiolia limna, a freshwater‐dwelling species in an otherwise marine clade. Intriguingly, two undescribed ploeotids are found to occupy pivotal positions in the tree: Chelandium granulatum nov. gen. nov. sp. branches as sister to Olkasia, and Gaulosia striata nov. gen. nov. sp. remains an orphan taxon. [ABSTRACT FROM AUTHOR]

Published

2023

10. The Mixoplankton Database (MDB): Diversity of photo‐phago‐trophic plankton in form, function, and distribution across the global ocean.

Author

Mitra, Aditee, Caron, David A., Faure, Emile, Flynn, Kevin J., Leles, Suzana Gonçalves, Hansen, Per J., McManus, George B., Not, Fabrice, do Rosario Gomes, Helga, Santoferrara, Luciana F., Stoecker, Diane K., and Tillmann, Urban

Subjects

DATABASES, MARINE zooplankton, PLANKTON, PREDATION, MARINE ecology, ZOOPLANKTON, VITAL statistics

Abstract

Protist plankton are major members of open‐water marine food webs. Traditionally divided between phototrophic phytoplankton and phagotrophic zooplankton, recent research shows many actually combine phototrophy and phagotrophy in the one cell; these protists are the "mixoplankton." Under the mixoplankton paradigm, "phytoplankton" are incapable of phagotrophy (diatoms being exemplars), while "zooplankton" are incapable of phototrophy. This revision restructures marine food webs, from regional to global levels. Here, we present the first comprehensive database of marine mixoplankton, bringing together extant knowledge of the identity, allometry, physiology, and trophic interactivity of these organisms. This mixoplankton database (MDB) will aid researchers that confront difficulties in characterizing life traits of protist plankton, and it will benefit modelers needing to better appreciate ecology of these organisms with their complex functional and allometric predator–prey interactions. The MDB also identifies knowledge gaps, including the need to better understand, for different mixoplankton functional types, sources of nutrition (use of nitrate, prey types, and nutritional states), and to obtain vital rates (e.g. growth, photosynthesis, ingestion, factors affecting photo' vs. phago' ‐trophy). It is now possible to revisit and re‐classify protistan "phytoplankton" and "zooplankton" in extant databases of plankton life forms so as to clarify their roles in marine ecosystems. [ABSTRACT FROM AUTHOR]

Published

2023

11. Morphological and molecular diagnosis of two new species of Trypanosoma Gruby, 1843 infecting South African cordylid lizards (Squamata: Cordylidae: Cordylinae), Trypanosoma (Squamatrypanum) ndumoensis n. sp. and Trypanosoma (Trypanosoma) tokoloshi n. sp.

Author

Jordaan, Bernard J., van As, Johann, and Netherlands, Edward C.

Subjects

TRYPANOSOMA, MOLECULAR diagnosis, SQUAMATA, LIZARDS, SPECIES, TRYPANOSOMIASIS, COLUBRIDAE

Abstract

Despite reptile trypanosomes forming a large group, the majority of species descriptions are data deficient, lacking key characteristic data and supporting molecular data. Reptile hosts show potential to facilitate transmission of zoonotic trypanosomiases and offer key information to understanding the genus of Trypanosoma. Several species of squamates from different localities in South Africa were screened molecularly and microscopically for trypanosomes in the present study. Based on the combination of morphological and molecular analyses, two new species of Trypanosoma, Trypanosoma (Squamatrypanum) ndumoensis n. sp. and Trypanosoma (Trypanosoma) tokoloshi n. sp., infecting South African cordylid lizards (Cordylidae: Cordylinae) are described in this study. The first molecular data for a South African reptile trypanosome is provided herewith. [ABSTRACT FROM AUTHOR]

Published

2023

12. Molecular prevalence and subtypes distribution of Blastocystis sp. among outpatients and inpatients in north and south areas of Henan Province, China.

Author

Mei, Xuefang, Su, Changwei, Wang, Weijuan, Zhang, Bo, Wei, Lai, Zhang, Zhenchao, Tian, Xiaowei, Yang, Zhenke, Li, Xiangrui, Duan, Aijun, and Wang, Shuai

Subjects

BLASTOCYSTIS, LOGISTIC regression analysis, INTESTINAL parasites, POLYMERASE chain reaction, PROVINCES

Abstract

Blastocystis sp. is one of the most common intestinal parasites in humans and many animals. To further understand the infection of Blastocystis hominis (B. hominis) and the distribution of its genotype in some areas of Henan Province, China, 793 stool samples from outpatients and inpatients in Xinxiang City and Xinyang City, Henan Province were collected from April 2020 to July 2022. The samples were detected by polymerase chain reaction and analyzed by univariate analysis and logistic regression analysis. The results showed that the infection rates of B. hominis in Xinxiang and Xinyang were 10.97% (51/465) and 10.98% (36/328), respectively. Although there were no significant differences in B. hominis infection between gender, age, residence, and disease background, the incidence of hematochezia significantly differed from the incidence of abdominal pain, diarrhea, and constipation among participants (χ2 = 15.795, p = 0.002). A total of 87 positive samples were sequenced and compared with Basic Local Alignment Search Tool, and five subtypes (ST1, ST3, ST4, ST6, and ST7) were identified, of which ST3 was the dominant subtype (63.22%, 55/87), followed by ST7 (17.24%, 15/87) and ST1 (16.09%, 14/87). This is the first study that analyzed the prevalence and subtype distribution of B. hominis in southern and northern Henan Province, thus providing new insights into the epidemiology of B. hominis. [ABSTRACT FROM AUTHOR]

Published

2023

13. Construction a novel detection method for Trichomonas vaginalis based on recombinant enzyme polymerase amplification targeting the Actin gene.

Author

Li, Fakun, Deng, Yangyang, Sheng, Wanxin, Gao, Xihui, Wang, Weijuan, Chu, Zhili, Mei, Xuefang, Yang, Zhenke, Tian, Xiaowei, Wang, Shuai, and Zhang, Zhenchao

Subjects

TRICHOMONAS vaginalis, GENE targeting, SEXUALLY transmitted diseases, POLYMERASES, TOXOPLASMA gondii, THEILERIA, GENE amplification, TRICHOMONIASIS

Abstract

Trichomoniasis is a common and curable sexually transmitted disease worldwide. The rapid, convenient, and accurate diagnosis of trichomoniasis is an important link in the prevention and treatment of the disease. The current detection methods of Trichomonas vaginalis are mainly wet mount microscopy, culture, nested PCR, and loop‐mediated isothermal amplification. However, these detection methods have some shortcomings. In this study, a recombinant enzyme polymerase amplification (RPA) assay had been conducted to detect T. vaginalis. The target gene and the corresponding primers were screened, and the reaction system and conditions were optimized in the assay of RPA. The sensitivity and specificity of this detection method were analyzed. The detection efficiency of wet mount microscopy, culture, nested PCR, and RPA was compared by testing 53 clinical samples from vaginal secretions. By screening, the actin gene of T. vaginalis could be used as a target gene for RPA detection of T. vaginalis, and the optimum reaction condition to amplify the actin gene by RPA was at 39°C for 30 min. The detection limit of T. vaginalis DNA using RPA was 1 pg, corresponding to a sensitivity of approximately five trophozoites. The RPA assay demonstrated high specificity for T. vaginalis, and there was no cross‐reactivity with Giardia lamblia, Escherichia coli, Lactobacillus, Toxoplasma gondii, Staphylococcus aureus, and Candida albicans. Of the 53 clinical samples, the positive rates of T. vaginalis detected by wet mount microscopy, culture, nested PCR and RPA were 50.9 4% (27/53), 71.7% (38/53), 71.7% (38/53), and 69.81% (37/53), respectively. Compared with culture which was used as the gold standard for diagnosing trichomoniasis, testing clinical samples by wet mount microscopy showed 71.05% sensitivity, 100% specificity, and moderate diagnostic agreement with the culture (K = 0.581, Z = 4.661, p < 0.001). The nested PCR showed 100% sensitivity, 100% specificity, and excellent diagnostic agreement (K = 1, Z = 7.28, p < 0.001), while RPA displayed 97.37% sensitivity, 100% specificity, and excellent diagnostic agreement (K = 0.954, Z = 6.956, p < 0.001). At the present study, rapid amplification of actin gene by RPA could be used as a tool for detection of T. vaginalis. The detection method of RPA was more sensitive than wet mount microscopy and displayed excellent specificity. Moreover, RPA amplification of actin gene did not require a PCR instrument and the amplification time was shorter than that of ordinary PCR. Therefore, the RPA assay was proposed in this study as a point‐of‐care examination and a diagnostic method of T. vaginalis infection, which exhibited the potential value in the treatment and prevention of trichomoniasis. [ABSTRACT FROM AUTHOR]

Published

2023

14. Phaeogromids of the mesopelagic marine plankton: Temporal variability of concentrations and observations of feeding structures of four species from the mesopelagic in the Mediterranean Sea.

Author

Dolan, John R. and Coppola, Laurent

Subjects

MARINE plankton, SPECIES, PROTISTA, SEAWATER

Abstract

Challengerids, phaeogromids rhizarian protists, are emblematic protists of the deep sea but are also enigmatic as they occur in very low concentrations. In previous studies, we reported on temporal changes in abundance at a near‐shore mesopelagic site, but only as part of sampling of the entire microplankton assemblage, not well‐suited for examining phaeogromids. Consequently, we turned to using a closing plankton net to provide material from large volumes of seawater, thus allowing for more robust estimates of concentrations and material for observations of living cells, to our knowledge the first made. Here, we report our results on the four most commonly occurring species: Challengeranium diadon, Challengereron willemoesii, Challengeria xiphodon, and Euphysetta lucani. In contrast to our previous report, we found that changes in concentrations were not related to water column stratification, and the four species roughly co‐varied with time. Observations of live cells revealed that all four species deploy tentacle‐like pseudopods and also very large unstructured webs of fine pseudopods. The similarities in feeding webs suggest similar prey are exploited, and the similar temporal changes in abundances suggest a common factor or factors (unknown at this time) govern their concentrations. Films of live cells are provided in Supplementary Files. [ABSTRACT FROM AUTHOR]

Published

2023

15. Formation of multicellular colonies by choanoflagellates increases susceptibility to capture by amoeboid predators.

Author

Chin, Nicole E., Wu, Tiffany C., O'Toole, J. Michael, Xu, Kevin, Hata, Tom, and Koehl, Mimi A. R.

Subjects

COLONIES (Biology), STARTLE reaction, LAMELLIPODIA, PREDATION, PREDATORY animals, MULTICELLULAR organisms, PARAMECIUM

Abstract

Many heterotrophic microbial eukaryotes are size‐selective feeders. Some microorganisms increase their size by forming multicellular colonies. We used choanoflagellates, Salpingoeca helianthica, which can be unicellular or form multicellular colonies, to study the effects of multicellularity on vulnerability to predation by the raptorial protozoan predator, Amoeba proteus, which captures prey with pseudopodia. Videomicrography used to measure the behavior of interacting S. helianthica and A. proteus revealed that large choanoflagellate colonies were more susceptible to capture than were small colonies or single cells. Swimming colonies produced larger flow fields than did swimming unicellular choanoflagellates, and the distance of S. helianthica from A. proteus when pseudopod formation started was greater for colonies than for single cells. Prey size did not affect the number of pseudopodia formed and the time between their formation, pulsatile kinematics and speed of extension by pseudopodia, or percent of prey lost by the predator. S. helianthica did not change swimming speed or execute escape maneuvers in response to being pursued by pseudopodia, so size‐selective feeding by A. proteus was due to predator behavior rather than prey escape. Our results do not support the theory that the selective advantage of becoming multicellular by choanoflagellate‐like ancestors of animals was reduced susceptibility to protozoan predation. [ABSTRACT FROM AUTHOR]

Published

2023

16. Contrasting Strategies: Human Eukaryotic Versus Bacterial Microbiome Research.

Author

Hooks, Katarzyna B. and O'Malley, Maureen A.

Subjects

HUMAN microbiota, EUKARYOTES, PROBIOTICS

Abstract

Most discussions of human microbiome research have focused on bacterial investigations and findings. Our target is to understand how human eukaryotic microbiome research is developing, its potential distinctiveness, and how problems can be addressed. We start with an overview of the entire eukaryotic microbiome literature (578 papers), show tendencies in the human‐based microbiome literature, and then compare the eukaryotic field to more developed human bacterial microbiome research. We are particularly concerned with problems of interpretation that are already apparent in human bacterial microbiome research (e.g. disease causality, probiotic interventions, evolutionary claims). We show where each field converges and diverges, and what this might mean for progress in human eukaryotic microbiome research. Our analysis then makes constructive suggestions for the future of the field. [ABSTRACT FROM AUTHOR]

Published

2020

17. On stomatocysts of Paraphysomonas caelifrica (Stramenopiles, Paraphysomonadida).

Author

Kapustin, Dmitry, Ignatenko, Marina, and Yatsenko‐Stepanova, Tatyana

Subjects

HETEROKONTOPHYTA, SCANNING electron microscopy, NATURE reserves

Abstract

Stomatocysts of the rare heterotrophic chrysophyte, Paraphysomonas caelifrica, were discovered from a shallow ephemeral pond Tavolgasai ("Orenburgskiy" State Nature Reserve, Orenburg Region, Russia). Morphology of stomatocysts was studied using scanning electron microscopy. Stomatocysts of P. caelifrica are spherical and smooth with a cylindrical collar surrounding the regular pore. So, they do not belong to the stomatocyst 1 Duff and Smol as previously thought. The description of a new stomatocyst morphotype is provided. [ABSTRACT FROM AUTHOR]

Published

2023

18. Cascading effects of prey identity on gene expression in a kleptoplastidic ciliate.

Author

Paight, Christopher, Johnson, Matthew D., Lasek‐Nesselquist, Erica, and Moeller, Holly V.

Subjects

GENE expression, MIRROR neurons, PHOTOSYNTHETIC rates, CHLOROPLASTS, PHYSIOLOGY, CHLOROPHYLL

Abstract

Kleptoplastidic, or chloroplast stealing, lineages transiently retain functional photosynthetic machinery from algal prey. This machinery, and its photosynthetic outputs, must be integrated into the host's metabolism, but the details of this integration are poorly understood. Here, we study this metabolic integration in the ciliate Mesodinium chamaeleon, a coastal marine species capable of retaining chloroplasts from at least six distinct genera of cryptophyte algae. To assess the effects of feeding history on ciliate physiology and gene expression, we acclimated M. chamaeleon to four different types of prey and contrasted well‐fed and starved treatments. Consistent with previous physiological work on the ciliate, we found that starved ciliates had lower chlorophyll content, photosynthetic rates, and growth rates than their well‐fed counterparts. However, ciliate gene expression mirrored prey phylogenetic relationships rather than physiological status, suggesting that, even as M. chamaeleon cells were starved of prey, their overarching regulatory systems remained tuned to the prey type to which they had been acclimated. Collectively, our results indicate a surprising degree of prey‐specific host transcriptional adjustments, implying varied integration of prey metabolic potential into many aspects of ciliate physiology. [ABSTRACT FROM AUTHOR]

Published

2023

19. New contributions to the Cyrtophoria ciliates (Protista, Ciliophora): Establishment of new taxa and phylogenetic analyses using two ribosomal genes.

Author

Wang, Congcong, Jiang, Limin, Pan, Hongbo, Warren, Alan, and Hu, Xiaozhong

Subjects

CILIATA, MORPHOLOGY, PROTISTA, RIBOSOMAL RNA, TERRITORIAL waters, SPECIES diversity

Abstract

Periphytic ciliates play a vital role in the material cycle and energy flow of microbial food web, however, their taxonomy and biodiversity are inadequately studied given their high species richness. Two new and one little known species, viz. Derouxella lembodes gen. et sp. nov., Cyrtophoron multivacuolatum sp. nov., and Cyrtophoron apsheronica Aliev, 1991, collected from coastal waters of China, were investigated using modern methods. Derouxella gen. nov. can be recognized by having dorsoventrally flattened body, a podite, one fragmented preoral kinety, two parallel circumoral kineties, and somatic kineties progressively shortened from right to left. Morphological classification and phylogenetic analyses based on nuclear small subunit ribosomal RNA (nSSU rRNA) and mitochondrial small subunit ribosomal RNA (mtSSU rRNA) gene sequence data inferred that Derouxella gen. nov. occupies an intermediate position between Hartmannulidae and Dysteriidae. Cyrtophoron multivacuolatum sp. nov. is characterized by large body size, the numbers of somatic kineties and nematodesmal rods, and having numerous contractile vacuoles. The genus Cyrtophoron and the poorly known species C. apsheronica were redefined. Even with the addition of newly obtained nSSU rRNA and mtSSU rRNA gene sequences of Cyrtophoron, the family Chlamydodontidae was still recovered as a monophyletic group, the monophyly of Cyrtophoron was supported too. [ABSTRACT FROM AUTHOR]

Published

2023

20. Sterols of morphologically distinct, okadaic acid‐producing Prorocentrum texanum var. texanum and var. cuspidatum isolated from the Gulf of Mexico.

Author

Leblond, Jeffrey D., Lowrie, Shelby D., and Myers, Chelsea S.

Subjects

STEROLS, EUKARYOTIC cells, CELL membranes, ERGOSTEROL, CHOLESTEROL

Abstract

Prorocentrum texanum var. texanum and its morphologically distinct yet genetically identical (as based on the sequences of five genes) variety P. texanum var. cuspidatum represent a species of Prorocentrum recently isolated from the Gulf of Mexico. Together, these two varieties represent a sister species to Prorocentrum micans. P. micans has had its sterols, which are ringed lipids common to eukaryotic cell membranes, shown in some studies to be comprised of cholesterol (cholest‐5‐en‐3β‐ol), 23,24‐dimethyl‐cholesta‐5,22‐dien‐3β‐ol, 23,24‐dimethyl‐5α‐cholest‐22E‐en‐3β‐ol, dinosterol, and 4α,23,24‐trimethyl‐5α‐cholestan‐3β‐ol (dinostanol) as major sterols, thus placing it within a previously identified cluster of dinoflagellates characterized by the predominance of cholesterol and dinosterol. In this study we have determined the sterol compositions of these two varieties of P. texanum to be abundant in cholesterol, 23,24‐dimethyl‐cholesta‐5,22‐dien‐3β‐ol, 23,24‐dimethyl‐5α‐cholest‐22E‐en‐3β‐ol, dinosterol, and dinostanol such that the varieties are virtually indistinguishable from each other, making them both in general agreement with the sterols of P. micans, its closest species relative. This expands our knowledge of the sterols of this environmentally important dinoflagellate genus. [ABSTRACT FROM AUTHOR]

Published

2023

21. Molecular identification of Tetrahymena species.

Author

Cassidy‐Hanley, Donna Marie, Doerder, F. Paul, Hossain, Mozammal, Devine, Catherine, and Clark, Theodore

Subjects

SPECIES, ENDANGERED species, TETRAHYMENA, IDENTIFICATION, RIBOSOMAL RNA, BAR codes

Abstract

Mitochondrial cox1 689 bp barcodes are routinely used for identification of Tetrahymena species. Here, we examine whether two shorter nuclear sequences, the 5.8S rRNA gene region and the intergenic region between H3 and H4 histone genes, might also be useful either singly or in combination with each other or cox1. We obtained sequences from ~300 wild isolates deposited at the Tetrahymena Stock Center and analyzed additional sequences obtained from GenBank. The 5.8S rRNA gene and portions of its transcribed flanks identify isolates as to their major clade and uniquely identify some, but not all, species. The ~330 bp H3/H4 intergenic region possesses low intraspecific variability and is unique for most species. However, it fails to distinguish between two pairs of common species and their rarer counterparts, and its use is complicated by the presence of duplicate genes in some species. The results show that while the cox1 sequence is the best single marker for Tetrahymena species identification, 5.8S rRNA, and the H3/H4 intergenic regions sequences are useful, singly or in combination, to confirm cox1 species assignments or as part of a preliminary survey of newly collected Tetrahymena. From our newly collected isolates, the results extend the biogeographical range of T. shanghaiensis and T. malaccensis and identify a new species, Tetrahymena arleneae n. sp. herein described. [ABSTRACT FROM AUTHOR]

Published

2023

22. Comparative genomic analysis illustrates evolutionary dynamics of multisubunit tethering complexes across green algal diversity.

Author

Phanprasert, Yasinee, Maciszewski, Kacper, Gentekaki, Eleni, and Dacks, Joel B.

Subjects

GENOMICS, COMPARATIVE studies, PEROXISOMES, EUKARYOTES, ORGANELLES, CYTOLOGY

Abstract

The chlorophyte algae are a dominant group of photosynthetic eukaryotes. Although many are photoautotrophs, there are also mixotrophs, heterotrophs, and even parasites. The physical characteristics of green algae are also highly diverse, varying greatly in size, shape, and habitat. Given this morphological and trophic diversity, we postulated that diversity may also exist in the protein components controlling intracellular movement of material by vesicular transport. One such set is the multisubunit tethering complexes (MTCs)—components regulating cargo delivery. As they span endomembrane organelles and are well‐conserved across eukaryotes, MTCs should be a good proxy for assessing the evolutionary dynamics across the diversity of Chlorophyta. Our results reveal that while green algae carry a generally conserved and unduplicated complement of MTCs, some intriguing variation exists. Notably, we identified incomplete sets of TRAPPII, exocyst, and HOPS/CORVET components in all Mamiellophyceae, and what is more, not a single subunit of Dsl1 was found in Cymbomonas tetramitiformis. As the absence of Dsl1 has been correlated with having unusual peroxisomes, we searched for peroxisome biogenesis machinery, finding very few components in Cymbomonas, suggestive of peroxisome degeneration. Overall, we demonstrate conservation of MTCs across green algae, but with notable taxon‐specific losses suggestive of unusual endomembrane systems. [ABSTRACT FROM AUTHOR]

Published

2023

23. Biogenesis and metabolic homeostasis of trypanosomatid glycosomes: New insights and new questions.

Author

Michels, Paul A. M. and Gualdrón‐López, Melisa

Subjects

HOMEOSTASIS, PLANT cell microbodies, CELL metabolism, LIPID metabolism, PEROXISOMES, MULTIENZYME complexes

Abstract

Kinetoplastea and Diplonemea possess peroxisome‐related organelles that, uniquely, contain most of the enzymes of the glycolytic pathway and are hence called glycosomes. Enzymes of several other core metabolic pathways have also been located in glycosomes, in addition to some characteristic peroxisomal systems such as pathways of lipid metabolism. A considerable amount of research has been performed on glycosomes of trypanosomes since their discovery four decades ago. Not only the role of the glycosomal enzyme systems in the overall cell metabolism appeared to be unique, but also the organelles display remarkable features regarding their biogenesis and structural properties. These features are similar to those of the well‐studied peroxisomes of mammalian and plant cells and yeasts yet exhibit also differences reflecting the large evolutionary distance between these protists and the representatives of other major eukaryotic lineages. Despite all research performed, many questions remain about various properties and the biological roles of glycosomes and peroxisomes. Here, we review the current knowledge about glycosomes, often comparing it with information about peroxisomes. Furthermore, we highlight particularly many questions that remain about the biogenesis, and the heterogeneity in structure and content of these enigmatic organelles, and the properties of their boundary membrane. [ABSTRACT FROM AUTHOR]

Published

2022

24. The Trypanosoma brucei RNA‐Binding Protein TbRRM1 is Involved in the Transcription of a Subset of RNA Pol II‐Dependent Genes.

Author

Bañuelos, Carolina P., Levy, Gabriela V., Níttolo, Analía G., Roser, Leandro G., Tekiel, Valeria, and Sánchez, Daniel O.

Subjects

RNA-binding proteins, TRYPANOSOMA brucei, RNA, DNA polymerases, RNA polymerases, GENES

Abstract

It has been long thought that RNA Polymerase (Pol) II transcriptional regulation does not operate in trypanosomes. However, recent reports have suggested that these organisms could regulate RNA Pol II transcription by epigenetic mechanisms. In this paper, we investigated the role of TbRRM1 in transcriptional regulation of RNA Pol II‐dependent genes by focusing both in genes located in a particular polycistronic transcription unit (PTU) and in the monocistronic units of the SL‐RNA genes. We showed that TbRRM1 is recruited throughout the PTU, with a higher presence on genes than intergenic regions. However, its depletion leads both to the decrease of nascent RNA and to chromatin compaction only of regions located distal to the main transcription start site. These findings suggest that TbRRM1 facilitates the RNA Pol II transcriptional elongation step by collaborating to maintain an open chromatin state in particular regions of the genome. Interestingly, the SL‐RNA genes do not recruit TbRRM1 and, after TbRRM1 knockdown, nascent SL‐RNAs accumulate while the chromatin state of these regions remains unchanged. Although it was previously suggested that TbRRM1 could regulate RNA Pol II‐driven genes, we provide here the first experimental evidence which involves TbRRM1 to transcriptional regulation. [ABSTRACT FROM AUTHOR]

Published

2019

25. Redescription of a Hymenostome Ciliate, Tetrahymena setosa (Protozoa, Ciliophora) Notes on its Molecular Phylogeny.

Author

Pan, Mengmeng, Wang, Yurui, Yin, Haiwei, Pan, Xuyue, Mu, Weijie, Al‐Rasheid, Khaled A. S., Fan, Xinpeng, and Pan, Xuming

Subjects

TETRAHYMENA, PROTOZOA, MOLECULAR phylogeny, RIBOSOMAL RNA, CYCLOOXYGENASES

Abstract

In recent years, Tetrahymena species have been used as model organisms for research in a wide range of fields, highlighting the need for a fuller understanding of the taxonomy of this group. It is in this context that this paper uses living observation and silver staining methods to investigate the morphology and infraciliature of one Tetrahymena species, T. setosa (Schewiakoff 1892 Verh. Naturh. Med. Ver. Heidelb., 4:544) McCoy (1975) Acta Protozool., 14:253; the senior subjective synonym of T. setifera Holz and Corliss (1956) J. Protozool., 3:112; isolated from a freshwater pond in Harbin, north‐eastern China. This organism can be distinguished from other described Tetrahymena species mainly by its single caudal cilium, which is about twice the length of the somatic ciliature. While the Harbin isolate appears similar to the population described by Holz and Corliss (1956) J. Protozool., 3:112, an improved diagnosis for T. setosa is given based on the previous descriptions and the Harbin population. In summary, this species can be recognized mainly by the combination of the following characters: body in vivo approximately 40 μm × 25 μm, 21–26 somatic kineties, one to four contractile vacuole pores associated with meridians 6–11 and a single caudal cilium. The small subunit ribosomal (SSU) rRNA gene and the cox1 gene sequences of Harbin population are also characterized in order to corroborate that the isolated species branches in phylogenetic trees as a T. setosa species. The phylogenetic analysis also indicated that sequences of populations of Tetrahymena species should be published with detailed morphological identifications. [ABSTRACT FROM AUTHOR]

Published

2019

26. Evolutionary bioenergetics of ciliates.

Author

Lynch, Michael, Schavemaker, Paul E., Licknack, Timothy J., Hao, Yue, and Pezzano, Arianna

Subjects

BIOENERGETICS, CELL size, CELL cycle, COST estimates, CILIATA, CYTOLOGY, CILIA & ciliary motion, RIBOSOMES

Abstract

Understanding why various organisms evolve alternative ways of living requires information on both the fitness advantages of phenotypic modifications and the costs of constructing and operating cellular features. Although the former has been the subject of a myriad of ecological studies, almost no attention has been given to how organisms allocate resources to alternative structures and functions. We address these matters by capitalizing on an array of observations on diverse ciliate species and from the emerging field of evolutionary bioenergetics. A relatively robust and general estimator for the total cost of a cell per cell cycle (in units of ATP equivalents) is provided, and this is then used to understand how the magnitudes of various investments scale with cell size. Among other things, we examine the costs associated with the large macronuclear genomes of ciliates, as well as ribosomes, various internal membranes, osmoregulation, cilia, and swimming activities. Although a number of uncertainties remain, the general approach taken may serve as blueprint for expanding this line of work to additional traits and phylogenetic lineages. [ABSTRACT FROM AUTHOR]

Published

2022

27. Paramecium epigenetics in development and proliferation.

Author

Drews, Franziska, Boenigk, Jens, and Simon, Martin

Subjects

EPIGENETICS, PARAMECIUM, GENETIC variation, HISTONE methylation, UNICELLULAR organisms, CYTOSINE, HISTONES, MULTICELLULAR organisms

Abstract

The term epigenetics is used for any layer of genetic information aside from the DNA base‐sequence information. Mammalian epigenetic research increased our understanding of chromatin dynamics in terms of cytosine methylation and histone modification during differentiation, aging, and disease. Instead, ciliate epigenetics focused more on small RNA‐mediated effects. On the one hand, these do concern the transport of RNA from parental to daughter nuclei, representing a regulated transfer of epigenetic information across generations. On the other hand, studies of Paramecium, Tetrahymena, Oxytricha, and Stylonychia revealed an almost unique function of transgenerational RNA. Rather than solely controlling chromatin dynamics, they control sexual progeny's DNA content quantitatively and qualitatively. Thus epigenetics seems to control genetics, at least genetics of the vegetative macronucleus. This combination offers ciliates, in particular, an epigenetically controlled genetic variability. This review summarizes the epigenetic mechanisms that contribute to macronuclear heterogeneity and relates these to nuclear dimorphism. This system's adaptive and evolutionary possibilities raise the critical question of whether such a system is limited to unicellular organisms or binuclear cells. We discuss here the relevance of ciliate genetics and epigenetics to multicellular organisms. [ABSTRACT FROM AUTHOR]

Published

2022

28. Mechanisms for establishing primary and secondary endosymbiosis in Paramecium.

Author

Fujishima, Masahiro and Kodama, Yuuki

Subjects

ENDOSYMBIOSIS, CELLULAR evolution, LIFE cycles (Biology), SPECIES specificity, EUKARYOTIC cells, LYSOSOMES, PARAMECIUM

Abstract

Primary (eukaryote and procaryote) and secondary (eukaryote and eukaryote) endosymbioses are driving forces in eukaryotic cell evolution. These phenomena are still contributing to acquire new cell structures and functions. To understand mechanisms for establishment of each endosymbiosis, experiments that can induce endosymbiosis synchronously by mixing symbionts isolated from symbiont‐bearing host cells and symbiont‐free host cells are indispensable. Recent progress on endosymbiosis using Paramecium and their endonuclear symbiotic bacteria Holospora or symbiotic green alga Chlorella has been remarkable, providing excellent opportunities for elucidating host–symbiont interactions. These organisms are now becoming model organisms to know the mechanisms for establishing primary and secondary endosymbioses. Based on experiments of many researchers, we introduce how these endosymbionts escape from the host lysosomal fusion, how they migrate in the host cytoplasm to localize specific locations within the host, how their species specificity and strain specificity of the host cells are controlled, how their life cycles are controlled, how they escape from the host cell to infect more young host cell, how they affect the host viability and gene expression, what kind of substances are needed in these phenomena, and what changes had been induced in the symbiont and the host genomes. [ABSTRACT FROM AUTHOR]

Published

2022

29. Anterior–posterior pattern formation in ciliates.

Author

Cole, Eric and Gaertig, Jacek

Subjects

CILIATA, CELL division, TETRAHYMENA, KINASES, ORGANELLES

Abstract

As single cells, ciliates build, duplicate, and even regenerate complex cortical patterns by largely unknown mechanisms that precisely position organelles along two cell‐wide axes: anterior–posterior and circumferential (left–right). We review our current understanding of intracellular patterning along the anterior–posterior axis in ciliates, with emphasis on how the new pattern emerges during cell division. We focus on the recent progress at the molecular level that has been driven by the discovery of genes whose mutations cause organelle positioning defects in the model ciliate Tetrahymena thermophila. These investigations have revealed a network of highly conserved kinases that are confined to either anterior or posterior domains in the cell cortex. These pattern‐regulating kinases create zones of cortical inhibition that by exclusion determine the precise placement of organelles. We discuss observations and models derived from classical microsurgical experiments in large ciliates (including Stentor) and interpret them in light of recent molecular findings in Tetrahymena. In particular, we address the involvement of intracellular gradients as vehicles for positioning organelles along the anterior‐posterior axis. [ABSTRACT FROM AUTHOR]

Published

2022

30. Ecology of planktonic ciliates in a changing world: Concepts, methods, and challenges.

Author

Weisse, Thomas and Montagnes, David J.S.

Subjects

CILIATA, MARINE zooplankton, TECHNOLOGICAL innovations, CLIMATE research, CLIMATE change, GLOBAL warming, GENE expression

Abstract

Plankton ecologists ultimately focus on forecasting, both applied and environmental outcomes. We review how appreciating planktonic ciliates has become central to these predictions. We explore the 350‐year‐old canon on planktonic ciliates and examine its steady progression, which has been punctuated by conceptual insights and technological breakthroughs. By reflecting on this process, we offer suggestions as to where future leaps are needed, with an emphasis on predicting outcomes of global warming. We conclude that in terms of climate change research: (i) climatic hotspots (e.g. polar oceans) require attention; (ii) simply adding ciliate measurements to zooplankton/phytoplankton‐based sampling programs is inappropriate; (iii) elucidating the rare biosphere's functional ecology requires culture‐independent genetic methods; (iv) evaluating genetic adaptation (microevolution) and population composition shifts is required; (v) contrasting marine and freshwaters needs attention; (vi) mixotrophy needs attention; (vii) laboratory and field studies must couple automated measurements and molecular assessment of functional gene expression; (viii) ciliate trophic diversity requires appreciation; and (ix) marrying gene expression and function, coupled with climate change scenarios is needed. In short, continued academic efforts and financial support are essential to achieve the above; these will lead to understanding how ciliates will respond to climate change, providing tools for forecasting. [ABSTRACT FROM AUTHOR]

Published

2022

31. In Memoriam: Richard Dean Allen.

Author

Hausmann, Klaus and Plattner, Helmut

Subjects

BIOTIC communities, CYTOLOGY, BIOLOGICAL transport, CELL size

Abstract

It is remarkable, that apart from his printed legacy, Richard left behind also a pictorial legacy by creating in 2006 the extraordinary website " I Paramecium i and Other Ciliates: Richard Allen's Image Collection" (https://www..pbrc.hawaii.edu/allen/). Thereby, some parts of the membrane are rescued by partial retrieval (as discoidal vesicles) from the discharging food vacuole and used for the formation of a new food vacuole at the cytostome (Allen & Fok, [6]; Fok & Allen, [12], [13]). Aside from that, he was repeatedly invited to contribute articles for review organs, for example, I International Review of Cytology i (Allen & Fok, [6]; Allen & Naitoh, [8]; Fok & Allen, [12]), I Cell Biology International i (Tani et al., [21]), and chapters for monographs, for example, I Membrane Fusion i (Allen, [2]), I Paramecium i (Allen, [3]), I Advances in Cell and Molecular Biology of Membranes i (Allen & Fok, [5]; Fok & Allen, [13]), I Osmotic and Ionic Regulation: Cells and Animals i (Allen et al., [10]) and I Methods in Cell Biology i (Hausmann & Allen, [18]). Richard Dean Allen passed away on February 10, 2023, in Honolulu, Oahu, Hawaii, the United States. [Extracted from the article]

Published

2023

32. Morphological Redescription of Opalina undulata Nie 1932 from Fejervarya limnocharis with Molecular Phylogenetic Study of Opalinids (Heterokonta, Opalinea).

Author

Li, Ming, Ponce‐Gordo, Francisco, Grim, J. Norman, Li, Can, Zou, Hong, Li, Wenxiang, Wu, Shangong, and Wang, Guitang

Subjects

FROG ecology, ANIMAL morphology, RECTUM, ZOOLOGICAL specimens, NUCLEIC acid regulatory sequences, BIOLOGICAL classification, PHYLOGENETIC models, CLADISTIC analysis

Abstract

The redescription of Opalina undulata Nie 1932, collected from the rectum of the frog Fejervarya limnocharis, is presented in this paper based on detailed morphological information and molecular data. Our results revealed that specimens collected from Diaocha Lake in late August were larger and had more nuclei than those collected from the same site in early May. We sequenced their SSU rDNA‐ITS1‐5.8S rDNA‐ITS2‐LSU rDNA (5′ end) and found that they were completely identical, which means that the two populations belonged to the same species. These facts gave us a hint that body dimension and number of nuclei are not reliable taxonomic parameters for opalinids during their life cycle. Therefore, we recommended that the specific identification of opalinids based on morphological features should be carried out during seasons except spring. Meanwhile, our molecular phylogenetic analysis confirmed the monophyly of Opalinata. Within Opalinata, Opalinea were monophyletic with all opalinid species grouping together. Karotomorpha and Proteromonas did not group together confirming the paraphyly of Proteromonadea. [ABSTRACT FROM AUTHOR]

Published

2018

33. Molecular data reallocates Sorosphaerula radicalis (Plasmodiophorida, Phytomyxea, Rhizaria) to the genus Hillenburgia.

Author

Hittorf, Michaela, Kirchmair, Martin, Garvetto, Andrea, and Neuhauser, Sigrid

Subjects

WATERCRESS, LIFE cycles (Biology), RIBOSOMAL RNA, PHYTOPATHOGENIC microorganisms, PHYLOGENY, RIBOSOMAL DNA

Abstract

This study reports the first record of Sorosphaerula radicalis (Phytomyxea, Rhizaria) in continental Europe (Tirol, Austria) and provides first molecular data for this species. An 18S rRNA phylogeny placed S. radicalis into the Plasmodiophorida, although distant from other members of the genus Sorosphaerula and close to the parasite of water cress Hillenburgia nasturtii. To resolve this polyphyly, we compare morphological data and life cycles of Sorosphaerula veronicae (the type species of the genus Sorosphaerula), Hillenburgia nasturtii, and Sorosphaerula radicalis. We conclude that Sorosphaerula radicalis belongs to the recently established genus Hillenburgia. [ABSTRACT FROM AUTHOR]

Published

2022

34. Investigation of the genome sizes and ploidy within the genus Monocercomonoides.

Author

Kornalíková, Martina, Hampl, Vladimír, and Treitli, Sebastian Cristian

Subjects

GENOME size, PLANT genomes, PLOIDY, FLUORESCENCE in situ hybridization

Abstract

Monocercomonoides is a genus of anaerobic flagellates found mainly in the gut of insects and vertebrates. We explored the ploidy of six strains of Monocercomonoides using fluorescence in situ hybridization (FISH) with probes against the SufDSU gene known to be in a single copy in M. exilis. Our results show that all investigated strains are haploid, with a single clear signal displayed in most of the analyzed nuclei. Staining of the telomeric repeats TTAGGG using FISH revealed that all investigated strains, except for strains of M. merkovicensis, exhibit a similar number of telomeric signals to those of M. exilis. DNA content of the nuclei in seven strains was assessed using flow cytometry. With the knowledge of the ploidy, their haploid genome sizes were estimated to vary from 60 to 161 Mbp. The genome size variation observed in Monocercomonoides is much larger than the variation within other genera of metamonads such as Trichomonas, Tritrichomonas, or Giardia, but similar to the variations observed within genera of algae or plants. [ABSTRACT FROM AUTHOR]

Published

2022

35. Molecular evolutionary analysis of the SM and SNARE vesicle fusion machinery in ciliates shows concurrent expansions in late secretory machinery.

Author

Kaur, Harpreet, Richardson, Elisabeth, Kamra, Komal, and Dacks, Joel B.

Subjects

CILIATA, COMPARATIVE genomics, PARAMECIUM, MACHINERY, PHYLOGENY, ORGANELLES

Abstract

Protists in the phylum Ciliophora possess a complex membrane‐trafficking system, including osmoregulatory Contractile Vacuoles and specialized secretory organelles. Molecular cell biological investigations in Tetrahymena thermophila have identified components of the protein machinery associated with the secretory organelles, mucocysts. The Qa‐SNARE Syn7lp plays a role in mucocyst biogenesis as do subunits of the CORVET tethering complex (specifically Vps8). Indeed, Tetrahymena thermophila possesses expanded gene complements of several CORVET components, including Vps33 which is also a Sec1/Munc18 (SM) protein that binds Qa‐SNAREs. Moreover, the Qa‐SNAREs in Paramecium tetraurelia have been localized to various endomembrane organelles. Here, we use comparative genomics and phylogenetics to determine the evolutionary history of the SM and Qa‐SNARE proteins across the Ciliophora. We identify that the last ciliate common ancestor possessed the four SM proteins and six Qa‐SNAREs common to eukaryotes, including the uncommonly retained Syntaxin 17. We furthermore identify independent expansion of these protein families in several ciliate classes, including concurrent expansions of the SM protein‐Qa SNARE partners Sec1:SynPM in the oligohymenophorean ciliates lineage, consistent with novel Contractile Vacuole specific innovations. Overall, these data are consistent with SM proteins and Qa‐SNAREs being a common set of components for endomembrane modulation in the ciliates. [ABSTRACT FROM AUTHOR]

Published

2022

36. Insights into the systematics of the family Ophryoscolecidae (Ciliophora, Entodiniomorphida).

Author

Cedrola, Franciane, Senra, Marcus Vinicius Xavier, Fregulia, Priscila, D'Agosto, Marta, and Dias, Roberto Júnio Pedroso

Subjects

RECOMBINANT DNA, TAXONOMY, SPECIES

Abstract

The family Ophryoscolecidae currently comprises 225 species of trichostomatid ciliates, subdivided into three subfamilies (Entodiniinae, Diplodiniinae, and Ophryoscolecinae). The last taxonomic review of the family was performed 55 years ago, but recent morphological and molecular studies indicate the need for a profound review of the systematics of this taxon, since its current taxonomy is insufficient to organize the diversity of the group. Here, we briefly review the systematics of the family Ophryoscolecidae based on information recovered from the literature and new morphological and molecular data. We add four new 18S rDNA sequences of ophryoscolecids to molecular databases, which contributed to improving the comprehension of intrafamily relationships within this group. Finally, we discuss some systematic problems and suggest approaches to resolve such inconsistencies in the future. [ABSTRACT FROM AUTHOR]

Published

2022

37. Newly designed foraminifera primers identify habitat‐specific lineages through metabarcoding analyses.

Author

Thakur, Rabindra, Collens, Adena B., Greco, Mattia, Sleith, Robin S., Grattepanche, Jean‐David, and Katz, Laura A.

Subjects

FRESHWATER biodiversity, ECOLOGICAL disturbances, FORAMINIFERA, GENETIC barcoding, FRESHWATER habitats, INTERTIDAL zonation, ABYSSAL zone

Abstract

Foraminifera include diverse shell‐building lineages found in a wide array of aquatic habitats from the deep‐sea to intertidal zones to brackish and freshwater ecosystems. Recent estimates of morphological and molecular foraminifera diversity have increased the knowledge of foraminiferal diversity, which is critical as these lineages are used as bioindicators of past and present environmental perturbation. However, a comparative analysis of foraminiferal biodiversity between their major habitats (freshwater, brackish, intertidal, and marine) is underexplored, particularly using molecular tools. Here, we present a metabarcoding survey of foraminiferal diversity across different ecosystems using newly designed foraminifera‐specific primers that target the hypervariable regions of the foraminifera SSU‐rRNA gene (~250–300 bp long). We tested these primer sets on four foraminifera species and then across several environments: the intertidal zone, coastal ecosystems, and freshwater vernal pools. We retrieved 655 operational taxonomic units (OTUs); the majority of which are undetermined taxa that have no closely matching sequences in the reference database. Furthermore, we identified 163 OTUs with distinct habitat preferences. Most of the observed OTUs belonged to lineages of single‐chambered foraminifera, including poorly explored freshwater foraminifera which encompass a clade of Reticulomyxa‐like forms. Our pilot study provides the community with an additional set of newly designed and taxon‐specific primers to elucidate foraminiferal diversity across different habitats. [ABSTRACT FROM AUTHOR]

Published

2022

38. Prevalence and molecular subtyping of Blastocystis in domestic pigeons in Henan Province, Central China.

Author

Su, Changwei, Mei, Xuefang, Wei, Lai, Wang, Jiawen, Feng, Xia, Wang, Pei, He, Bo, Chang, Yuan, Xu, Fuyang, Wang, Mingyong, Tian, Xiaowei, Zhang, Zhenchao, Li, Xiangrui, and Wang, Shuai

Subjects

BLASTOCYSTIS, POLYMERASE chain reaction, DOMINANCE (Genetics), INTESTINAL parasites, PIGEONS

Abstract

Blastocystis is an anaerobic intestinal protozoan parasite found in humans and many kinds of animals that mainly causes diarrhea, abdominal pain, and other clinical symptoms. At present, research on the prevalence and subtype diversity of Blastocystis in domestic pigeons is very limited. The purpose of this study was to detect the infection rate and gene subtype distribution of Blastocystis in domestic pigeons in Henan Province, Central China, to provide a foundation for preventing and controlling Blastocystis in domestic pigeons. Fecal DNA was extracted from 504 fresh fecal samples of pigeons collected from four areas in Henan Province, Central China. All DNA samples were investigated by polymerase chain reaction, and positive samples were sequenced to analyze the gene subtypes based on small ribosomal subunit (SSU rRNA) gene. The overall infection rate of Blastocystis in pigeons in Henan Province was 7.7% (39/504). Four subtypes (STs) of Blastocystis were identified including ST1 (2/39, 5.1%), ST3 (16/39, 41%), ST4 (1/39, 2.6%), and ST7 (20/39, 51.3%), all of which belonged to zoonotic subtypes, and ST7 was the dominant gene subtype. The results show that Blastocystis infection is common in domestic pigeons in Henan Province, Central China, and the pathogens were zoonotic subtypes. Particular attention should be given to reducing the risk of transmission of Blastocystis from domestic pigeons to humans. [ABSTRACT FROM AUTHOR]

Published

2022

39. Somatic infraciliature in tintinnid ciliates (Alveolata, Ciliophora, Spirotricha): An ultrastructural comparison*.

Author

Agatha, Sabine, Gruber, Michael S., Bartel, Heidi, and Weißenbacher, Birgit

Subjects

CILIATA, TERRITORIAL waters

Abstract

A recent ultrastructural study on the tintinnid ciliate Schmidingerella meunieri displayed unique types of somatic kinetids. The dikinetids (paired basal bodies) have, besides kinetodesmal fibrils and transverse ribbons, some special features, that is, overlapping postciliary ribbons and three extraordinary microtubular ribbons, which together form a conspicuous network in the ciliated anterior cell portion. The distribution of this feature among tintinnids is studied in chemically fixed and ultrathin‐sectioned specimens from six genera and five families collected in European coastal waters. The taxa are scattered across the molecular tree. Actually, the somatic kinetids of these six genera share the special features discovered in S. meunieri. Accordingly, the overlapping postciliary ribbons and the three extraordinary ribbons were already present in the early stages of tintinnid evolution, namely in the last common ancestor of tintinnids with hard loricae. Owing to the lack of ultrastructural data in the basally branching Tintinnidiidae with their soft loricae and in aloricate choreotrichids other than the aberrant strobilidiids, the first appearance of the structures is still uncertain. The related oligotrichids do not possess overlapping postciliary ribbons, but show electron‐dense material at the sites where the ribbons I–III originate in tintinnids. None of these features is found in any other spirotrich ciliate. [ABSTRACT FROM AUTHOR]

Published

2022

40. Txikispora philomaios n. sp., n. g., a micro‐eukaryotic pathogen of amphipods, reveals parasitism and hidden diversity in Class Filasterea.

Author

Urrutia, Ander, Mitsi, Konstantina, Foster, Rachel, Ross, Stuart, Carr, Martin, Ward, Georgia M., van Aerle, Ronny, Marigomez, Ionan, Leger, Michelle M., Ruiz‐Trillo, Iñaki, Feist, Stephen W., and Bass, David

Subjects

PARASITISM, NERVE tissue, CONNECTIVE tissues, CELL division, ENVIRONMENTAL sampling, BEETLE anatomy, AMPHIPODA, PARASITES

Abstract

This study provides a morphological, ultrastructural, and phylogenetic characterization of a novel micro‐eukaryotic parasite (2.3–2.6 µm) infecting amphipod genera Echinogammarus and Orchestia. Longitudinal studies across two years revealed that infection prevalence peaked in late April and May, reaching 64% in Echinogammarus sp. and 15% in Orchestia sp., but was seldom detected during the rest of the year. The parasite infected predominantly hemolymph, connective tissue, tegument, and gonad, although hepatopancreas and nervous tissue were affected in heavier infections, eliciting melanization and granuloma formation. Cell division occurred inside walled parasitic cysts, often within host hemocytes, resulting in hemolymph congestion. Small subunit (18S) rRNA gene phylogenies including related environmental sequences placed the novel parasite as a highly divergent lineage within Class Filasterea, which together with Choanoflagellatea represent the closest protistan relatives of Metazoa. We describe the new parasite as Txikispora philomaios n. sp. n. g., the first confirmed parasitic filasterean lineage, which otherwise comprises four free‐living flagellates and a rarely observed endosymbiont of snails. Lineage‐specific PCR probing of other hosts and surrounding environments only detected T. philomaios in the platyhelminth Procerodes sp. We expand the known diversity of Filasterea by targeted searches of metagenomic datasets, resulting in 13 previously unknown lineages from environmental samples. [ABSTRACT FROM AUTHOR]

Published

2022

41. A comparative ultrastructural study of tintinnid loricae (Alveolata, Ciliophora, Spirotricha) and a hypothesis on their evolution.

Author

Agatha, Sabine and Bartel, Heidi

Subjects

CILIATA, COMPARATIVE studies, CHEMICAL properties, TRANSMISSION electron microscopy

Abstract

Tintinnid ciliates build loricae, whose structure, shape, and size still largely represent the basis for taxonomy and classification, although genetic analyses demonstrated their limited utility for inferring evolutionary relationships. The textures of the lorica walls, however, result from the chemical and physical properties of the forming material, which is supposed to be rather conserved in closely related taxa, viz., congeners and confamilial genera. Within a particular texture, small deviations in the chemical composition might affect the wall's stickiness and accordingly its capability to adhere foreign particles, explaining the intertwining of tintinnids with hyaline and agglutinated loricae in phylogenetic inferences. In a comprehensive comparative study, the lorica textures were electron microscopically and morphometrically analyzed in 21 species from 17 genera and more than nine families together with literature data. Most species were investigated for the first time, and the taxa cover a substantial portion of the molecular genealogy. The phylogeny‐aware analysis of the lorica‐related features provides a preliminary hypothesis on lorica evolution. Eventually, this conspectus suggests the dominance of hard lorica walls with an alveolar texture and proposes different modes of lorica formation. [ABSTRACT FROM AUTHOR]

Published

2022

42. Kinetid Structure of Aphelidium and Paraphelidium (Aphelida) Suggests the Features of the Common Ancestor of Fungi and Opisthosporidia.

Author

Karpov, Sergey A., Cvetkova, Victoria S., Annenkova, Nataliia V., and Vishnyakov, Andrey E.

Subjects

FUNGI, PARASITOIDS, ZOOSPORES, MICROSPORIDIA, MOLECULAR phylogeny, ANCESTORS

Abstract

The aphelids (phylum Aphelida) are phagotrophic parasitoids of algae and represent the most basal branch in superphylum Opisthosporidia, which contains the Microsporidia, Rozellosporidia and Aphelida. Being the closest group to traditional fungi, the aphelids should have ancestral features of both phyla. As in chytrids and other zoosporic fungi, the structure of zoospores is the most informative and important morphological feature for the phylogeny and taxonomy of aphelids. Though a general zoospore description exists for some aphelid species, their flagellar apparatus (kinetid) structure, which contains pivotal taxonomic and phylogenetic characters, has not been studied. Here we represent the kinetid structure in two genera, Aphelidium and Paraphelidium, and demonstrate independent reduction in the kinetid in each genus. The kinetid‐mitochondrion connection found in Aphelidium and Paraphelidium is rare for opisthokonts in general, but present in the most basal branches of Fungi and Opisthosporidia. We suggest, therefore, that this connection represents an ancestral character for both these phyla. [ABSTRACT FROM AUTHOR]

Published

2019

43. In Memoriam: Hugo David Freudenthal.

Author

LaJeunesse, Todd C. and Nitschke, Matthew R.

Subjects

SYMBIODINIUM, MARINE biology

Published

2021

44. Beyond the 'Code': A Guide to the Description and Documentation of Biodiversity in Ciliated Protists (Alveolata, Ciliophora).

Author

Warren, Alan, Patterson, David J., Dunthorn, Micah, Clamp, John C., Achilles‐Day, Undine E.M., Aescht, Erna, Al‐Farraj, Saleh A., Al‐Quraishy, Saleh, Al‐Rasheid, Khaled, Carr, Martin, Day, John G., Dellinger, Marc, El‐Serehy, Hamed A., Fan, Yangbo, Gao, Feng, Gao, Shan, Gong, Jun, Gupta, Renu, Hu, Xiaozhong, and Kamra, Komal

Subjects

NANOTECHNOLOGY, BIODIVERSITY, CILIATA, TAXONOMY, MOLECULAR phylogeny

Abstract

Recent advances in molecular technology have revolutionized research on all aspects of the biology of organisms, including ciliates, and created unprecedented opportunities for pursuing a more integrative approach to investigations of biodiversity. However, this goal is complicated by large gaps and inconsistencies that still exist in the foundation of basic information about biodiversity of ciliates. The present paper reviews issues relating to the taxonomy of ciliates and presents specific recommendations for best practice in the observation and documentation of their biodiversity. This effort stems from a workshop that explored ways to implement six Grand Challenges proposed by the International Research Coordination Network for Biodiversity of Ciliates ( IRCN- BC). As part of its commitment to strengthening the knowledge base that supports research on biodiversity of ciliates, the IRCN- BC proposes to populate The Ciliate Guide, an online database, with biodiversity-related data and metadata to create a resource that will facilitate accurate taxonomic identifications and promote sharing of data. [ABSTRACT FROM AUTHOR]

Published

2017

45. The importance of type species and their correct identification: A key example from tintinnid ciliates (Alveolata, Ciliophora, Spirotricha).

Author

Agatha, Sabine, Ganser, Maximilian H., and Santoferrara, Luciana F.

Subjects

ZOOLOGICAL nomenclature, CILIATA, SPECIES, TAXONOMY

Abstract

Types and the corresponding rules in the International Code of Zoological Nomenclature are crucial for taxonomy and are meant to provide nomenclatural stability. In the case of neotypification, especially diligent taxonomic work is required to retain continuity. In the present communication, we first outline the main principles of typification and neotypification. We then discuss a critical case, using a current example from the marine planktonic tintinnid genus Tintinnopsis Stein, 1867 (Alveolata, Ciliophora). This diverse and ubiquitous genus is nonmonophyletic, but its revision and the erection of new related genera is currently prevented by the uncertain affiliation of its type species. [ABSTRACT FROM AUTHOR]

Published

2021

46. Description of the marine predator Sericomyxa perlucida gen. et sp. nov., a cultivated representative of the deepest branching lineage of vampyrellid amoebae (Vampyrellida, Rhizaria).

Author

More, Kiran, Simpson, Alastair G. B., and Hess, Sebastian

Subjects

AMOEBA, GENETIC variation, LAKE sediments, ELECTRON microscopy, MICROSCOPY

Abstract

The vampyrellids (Vampyrellida, Rhizaria) are naked amoebae of considerable genetic diversity. Three families have been well‐defined (Vampyrellidae, Leptophryidae, and Placopodidae), but most vampyrellid lineages detected by environmental sequencing are poorly known or completely uncharacterized. In the brackish sediment of Lake Bras D'Or, Nova Scotia, Canada, we discovered an amoeba with a vampyrellid‐like life history that was morphologically dissimilar from previously known vampyrellid taxa. We established a culture of this amoeba, studied its feeding behavior and prey range specificity, and characterized it with molecular phylogenetic methods and light and electron microscopy. The amoeba was a generalist predator (i.e. eukaryotroph), devouring a range of marine microalgae, with a strong affinity for some benthic diatoms and Chroomonas. Interestingly, the amoeba varied its feeding strategy depending on the prey species. Small diatoms were engulfed whole, while larger species were fed on through extraction with an invading pseudopodium. The SSU rRNA gene phylogenies robustly placed the amoeba in the most basal, poorly described lineage ("clade C") of the Vampyrellida. Based on the phylogenetic position and the distinct morphology of the studied amoeba, we here describe it as Sericomyxa perlucida gen. et sp. nov., and establish the new vampyrellid family Sericomyxidae for "clade C." [ABSTRACT FROM AUTHOR]

Published

2021

47. The long‐time orphan protist Meringosphaeramediterranea Lohmann, 1902 [1903] is a centrohelid heliozoan.

Author

Zlatogursky, Vasily V., Shɨshkin, Yegor, Drachko, Daria, and Burki, Fabien

Subjects

ORPHANS, ELECTRON microscopy, MICROSCOPY, GENETIC barcoding, RECOMBINANT DNA

Abstract

Meringosphaera is an enigmatic marine protist without clear phylogenetic affiliation, but it has long been suggested to be a chrysophyte‐related autotroph. Microscopy‐based reports indicate that it has a worldwide distribution, but no sequence data exist so far. We obtained the first 18S rDNA sequence for M. mediterranea (identified using light and electron microscopy) from the west coast of Sweden. Observations of living cells revealed granulated axopodia and up to 6 globular photosynthesizing bodies about 2 μm in diameter, the nature of which requires further investigation. The ultrastructure of barbed undulating spine scales and patternless plate scales with a central thickening is in agreement with previous reports. Molecular phylogenetic analysis placed M. mediterranea inside the NC5 environmental clade of Centroplasthelida (Haptista) along with additional environmental sequences, together closely related to Choanocystidae. This placement is supported by similar scales in Meringosphaera and Choanocystidae. We searched the Tara Oceans 18S V9 metabarcoding dataset, which revealed four OTUs with 94.8%–98.2% similarity, with oceanic distribution similar to that based on morphological observations. The current taxonomic position and species composition of the genus are discussed. The planktonic lifestyle of M. mediterranea contradicts the view of some authors that centrohelids enter the plankton only temporarily. [ABSTRACT FROM AUTHOR]

Published

2021

48. Chloromonas svalbardensis n. sp. with Insights into the Phylogroup Chloromonadinia (Chlorophyceae).

Author

Barcytė, Dovilė, Hodač, Ladislav, Nedbalová, Linda, and Elster, Josef

Subjects

CHLOROMONAS, PHYLOGENY, GREEN algae, CLASSIFICATION of algae, MICROORGANISMS, TAXONOMIC logic, COLD (Temperature), COLD-tolerant plants

Abstract

The traditional green algal genus Chloromonas accommodates mesophilic, cold‐tolerant and cold‐adapted microorganisms. In this paper, we studied a new strain isolated from a wet hummock meadow in the High Arctic. We used morphological, ultrastructural and molecular data to assess the taxonomic position and phylogenetic relationships of the new isolate. The observed morphological features generally corresponded to the cold‐tolerant Chloromonas characteristics. However, ellipsoidal or wide ellipsoidal vegetative cells, a massive parietal cup‐shaped chloroplast with a number of continuously connected lobes, a thick cell wall, a prominent hemispherical papilla and the anterior position of an oblong or round eyespot distinguished the alga from all previously described Chloromonas species. Analyses of rbcL and 18S rRNA genes showed that the new strain formed an independent lineage within a clade containing mesophilic and psychrotolerant Chloromonas species. Comparisons of secondary structure models of a highly variable ITS2 rDNA marker supported a separate species identity of the new isolate. Considering the morphological and molecular differences from its relatives, a new psychrotolerant species, Chloromonas svalbardensis, is proposed. Further, our results demonstrated the paraphyletic origin of Chloromonas within Chloromonadinia with genetically, morphologically and ecologically well‐defined clades. We discuss a scenario of a possible Chloromonas split and revision. [ABSTRACT FROM AUTHOR]

Published

2018

49. Morphology of Nyctotheroides hubeiensis Li et al. 1998 from Frog Hosts with Molecular Phylogenetic Study of Clevelandellid Ciliates (Armophorea, Clevelandellida).

Author

Li, Ming, Sun, Zong‐Yi, Grim, J. Norman, Ponce‐Gordo, Francisco, Wang, Gui‐tang, Zou, Hong, Li, Wen‐xiang, and Wu, Shan‐gong

Subjects

NYCTOTHERIDAE, AQUATIC biology, HOSTS of parasitoids, RANIDAE, CILIATA, PHYLOGENY, MORPHOLOGY

Abstract

The morphology of Nyctotheroides hubeiensis (Acta Hydrobiol. Sin. 1998, 22(suppl.):187), collected from the rectum of Phelophylax nigromaculatus, is presented in this paper based on detailed morphological information and molecular data. Our phylogenetic analysis showed that N. hubeiensis fell into the Nyctotheroides clade, which was strongly supported as monophyletic and clustered as basal to the genera Nyctotherus and Clevelandella. Also, the monophyly of the Order Clevelandellida and the affinity of parasitic nyctotherids and free-living metopids were indicated in our work. The origin of clevelandellid ciliates as well as their possible evolutionary history was also discussed here; however, the analysis of more species from other vertebrate hosts (fish, reptiles) should be made before a well-supported conclusion can be drawn. [ABSTRACT FROM AUTHOR]

Published

2016

50. Molecular Characterization of Acanthamoeba spp. Occurring in Water Bodies and Patients in Poland and Redefinition of Polish T16 Genotype.

Author

Adamska, Małgorzata

Subjects

ACANTHAMOEBA, PROTOZOAN phylogeny, GENE expression, BIOLOGICAL divergence, WATER sampling, BODIES of water, PROTOZOA

Abstract

ABSTRACT Acanthamoeba genus is divided into 20 genotypes (T1-T20) on the basis of the gene encoding 18S rRNA sequence. Using of at least 2 kbp gene fragments is strongly recommended to identify new genotypes and 5% difference is commonly used as a criterion of new genotypes, however, this value is questionable. In this paper, Polish Acanthamoeba strains described earlier on the basis of ~850 bp Ami fragment of 18S rRNA gene as T4, T11 and a new T16 genotype, have been analyzed using near-complete sequence of the gene. This analysis was needed because the Ami fragment does not reveal full variability within 18S rRNA gene. Phylogenetic analysis based on Ami fragment is biased by artifacts in the construction of the tree, so the fragment should not be used for identification of new putative Acanthamoeba genotypes. The analysis confirmed that the Polish sequences represent T4 and T11 genotypes and that the strains described earlier as T16 genotype are in fact a new subgroup of the T20 genotype and that this genotype should be divided into two subgroups: T20a (two strains described by [ J. Eukaryot. Microbiol. 62 (2015) 69]) and T20b (11 Polish strains described in this study). The T20b subgroup was isolated from both clinical samples and water bodies used by people as bathing places and there is a risk of infection for humans during contact with water. [ABSTRACT FROM AUTHOR]

Published

2016