Discharge of Cortical Ampules in Euplotes aediculatusPierson, 1943 (Ciliophora, Hypotrichida)

Ultrastructure of Diophrys appendiculata and new systematic consideration of the euplotid family Uronychiidae (Protista, Ciliophora)

The ultrastructure of ciliates carries important cytological, taxonomical, and evolutionary signals for these single-celled eukaryotic organisms. However, little ultrastructural data have been accumulated for most ciliate groups with systematic problems. In the present work, a well-known marine uronychiid, Diophrys appendiculata, was investigated using electron microscopy and a comparison with, and a discussion considering, phylogenetic analyses were made. The new findings primarily show that: (i) this species lacks the typical alveolar plate, bears cortical ampule-like extrusomes, and has microtubular triads in the dorsal pellicle, and thus exhibits some ultrastructural features in common with most of its previously studied congeners; (ii) each adoral membranelle before the level of frontal cirrus II/2 contains three rows of kinetosomes and each membranelle after the level of frontal cirrus II/2 contains four rows, which might be related with morphogenesis and could be considered as a distinctive character of Diophrys; (iii) some structural details of the buccal field, such as the extra-pellicular fibrils, pellicle, pharyngeal disks and microtubular sheet, were documented. In addition, based on the ultrastructural comparison of representatives, we discuss the differentiation between the subfamilies Diophryinae and Uronychiinae. A hypothetical systematic relationship of members in the order Euplotida based on a wide range of data is also provided.

An Integrative Investigation of Parabistichella variabilis (Protista, Ciliophora, Hypotrichia) Including Its General Morphology, Ultrastructure, Ontogenesis, and Molecular Phylogeny

Hypotrichs are a highly differentiated and very diverse group of ciliated protists. Their systematics and taxonomy are challenging and call for detailed investigations on their general morphology, ultrastructure, ontogenesis, and molecular phylogeny. Here, a comprehensive study is conducted on a brackish water population of Parabistichella variabilis using light and electron microscopy and phylogenetic analyses based on small subunit ribosomal DNA sequence data. Its morphology, including the infraciliature, pellicle, nuclei, buccal seal, and extrusomes, is documented. The present findings indicate that in P. variabilis: (i) the cortical granules are extrusomes, which differ from those of other hypotrichs; (ii) the buccal seal is bounded by the plasma membrane and contains a single layer of longitudinal microtubules; (iii) two contractile vacuoles might be present rather than one; and (iv) the pharyngeal disks are bounded by a single membrane. Early-to-middle stages of ontogenesis are described for the first time, enabling the complete characterization of this process. Phylogenetic analyses indicate that Parabistichella variabilis is closely related to several species from different genera, such as Orthoamphisiella breviseries, Uroleptoides magnigranulosus, and Tachysoma pellionellum. However, ultrastructural and gene sequence data for more taxa are needed in order to resolve the systematics of Parabistichella.

Two Urosoma species (Ciliophora, Hypotrichia): A multidisciplinary approach provides new insights into their ultrastructure and systematics

The general morphology and ultrastructure of two soil hypotrichous ciliates, Urosoma emarginata and U. salmastra, were investigated using light microscopy, scanning electron microscopy and transmission electron microscopy. Phylogenetic analyses, based on the newly sequenced small subunit ribosomal (SSU) rRNA genes, were conducted on three U. emarginata populations and one U. salmastra population. Our findings support for the validity of Perilemmaphora Berger, 2008, a rankless taxon comprising spirotrich ciliates having a perilemma. The cortical granules of both species are extrusomes representing a new type of mucocyst in U. emarginata and possibly a new type of pigmentocyst in U. salmastra. Additionally, the lithosomes were revealed as subglobose structures composed of a low electron-dense, homogeneous inner part and an electron-dense outer part. The ultrastructural features of the cortical granules, together with ontogenetic and molecular phylogenetic data, suggest that the genus Urosoma might need to be divided. It is posited that ultrastructural features of hypotrichous ciliates in general may have important taxonomic value warranting further investigation.

Extrusomes in Ciliates: Diversification, Distribution, and Phylogenetic Implications

Exocytosis is, in all likelihood, an important communication method among microbes. Ciliates are highly differentiated and specialized micro-organisms for which versatile and/or sophisticated exocytotic organelles may represent important adaptive tools. Thus, in ciliates, we find a broad range of different extrusomes, i.e ejectable membrane-bound organelles. Structurally simple extrusomes, like mucocysts and cortical granules, are widespread in different taxa within the phylum. They play the roles in each case required for the ecological needs of the organisms. Then, we find a number of more elaborate extrusomes, whose distribution within the phylum is more limited, and in some way related to phylogenetic affinities. Herein we provide a survey of literature and our data on selected extrusomes in ciliates. Their morphology, distribution, and possible function are discussed. The possible phylogenetic implications of their diversity are considered.

A molecular approach to the tangled intrageneric relationships underlying phylogeny in Euplotes (Ciliophora, Spirotrichea)

The cosmopolitan genus Euplotes is remarkable among ciliates for its species richness. To understand the still tangled taxonomy and phylogenetic relationships within the genus, small subunit rRNA sequences of 11 morphologically defined species colonizing different habitats were determined. Euplotes 18S rRNA is unique among ciliates for its anomalous length and high evolutionary rate. Phylogenetic reconstruction pointed to a high divergence between this genus and the other Spirotrichea, together with a high variability within the genus. Some of the relationships within the Euplotes group were also resolved. Data from the literature, based on morphological features, habitat, and symbiotic relationships, have been compared with our results and are critically discussed. In many cases, the molecular phylogenetic analysis disagreed with species relatedness established on morphological and ecological grounds. The occurrence of a radiation phenomenon in the evolution of the genus is postulated.

Are rhoptries of Coccidia really extrusomes?

Some evidence that rhoptries of invasive stages of Coccidia are extrusive organelles has been found in a study of Toxoplasma, after conventional electron microscopy, cryosubstitution preparations, and freeze-fracture. Periodic rows of intramembranous particles were seen in the membrane of the rhoptries. The ducts of the organelles are positioned by two microtubules, and joined to an apical vesicle, through the conoid. Above the vesicle in the plasmalemma, there is sometimes a "rosette" of intramembranous particles. Extrusion of a dense substance was seen at the same time as an anterior vacuole. This represents degenerative "empty" rhoptries. This paper discusses whether rhoptries of Coccidia can be put in the group of extrusomes of protists.