Showing total 13 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. 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

4. 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

5. 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

6. 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

7. 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

8. 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

9. 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

10. 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

11. 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, *RANIDAE, *CILIATA, *PHYLOGENY, *MORPHOLOGY, HOSTS of parasitoids

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

12. 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

13. Two New Species of Zoothamnium (Ciliophora, Peritrichia) from Korea, with New Observations of Z. parahentscheli Sun et al., 2009.

Author

Ji, Daode, Kim, Ji Hye, Shazib, Shahed Uddin Ahmed, Sun, Ping, Li, Liqiong, and Shin, Mann Kyoon

Subjects

*ZOOTHAMNIUM, *CILIATA, *RIBOSOMAL RNA, *COLONIAL animals (Marine invertebrates), *SILVER staining (Microscopy)

Abstract

Three peritrichous ciliates, Zoothamnium arcuatum n. sp., Z. grossi n. sp., and Z. parahentscheli Sun et al., 2009, were collected from an estuary of the Taehwagang River, Korea. All these species were investigated based on live observations and silver staining, and their small subunit ( SSU) rRNA gene was also sequenced. Zoothamnium arcuatum can be identified by a goblet-shaped colony, double-layered peristomial lip, and abstomally shortened row 3 of infundibular polykinety 3 (P3). Zoothamnium grossi is morphologically characterized by an alternately branched stalk with the lowest secondary stalk diverging from the main part of colony, asymmetrically bell-shaped zooids, and three short, parallel ciliary rows in P3. Phylogenetic analysis revealed that the three Zoothamnium species described in this paper clustered with other members of the family Zoothamniidae, as expected. [ABSTRACT FROM AUTHOR]

Published

2015