Ilaria Andreoli scite author profile

Rickettsia-like organisms (RLO) are obligate, often highly fastidious, intracellular bacterial parasites associated with a variety of vertebrate and invertebrate hosts. Despite their importance as causative agents of severe mortality outbreaks in farmed aquatic species, little is known about their life cycle and their host range. The present work reports the characterization of "Candidatus Cryptoprodotis polytropus," a novel Rickettsia-like bacterium associated with the common ciliate species Pseudomicrothorax dubius by means of the "Full-Cycle rRNA Approach" and ultrastructural observations. The morphological description by in vivo and scanning electron microscopy and the 18S rRNA gene sequence of the host species is provided as well. Phylogenetic analysis based on the 16S rRNA gene supports the inclusion of "Candidatus Cryptoprodotis polytropus" within the family Rickettsiaceae (cl. Alphaproteobacteria) together with the genera Rickettsia and Orientia. Observations on natural ciliate populations account for the occasional nature of this likely parasitic association. The presence of a previously unknown RLO in ciliates sheds a new light on the possible role of protists as transient hosts, vectors or natural reservoir for some economically important pathogens.

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Molecular systematics and ultrastructural characterization of a forgotten species: <i>Chattonidium setense</i> (Ciliophora, Heterotrichea)

Modeo

Rosati

Andreoli

et al. 2006

Proceedings of the Japan Academy. Ser. B: Physical and Biologic

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In the present paper we redescribe the ciliate Chattonidium setense Villeneuve 1937 combining morphological observations (live, stained, scanning, and transmission electron microscope) with behavioral notes and molecular data. Ultrastructural analysis revealed remarkable similarities between Chattonidium and representative members of the class Heterotrichea in cortical structure and cytoplasmic organization. The most similar genus for these aspects appears to be Condylostoma. To verify this relatedness, 18S rRNA genes from Chattonidium and from one Condylostoma species were sequenced. Phylogenetic analysis indicates Chattonidium belongs to the class Heterotrichea defined according to the modern taxonomy, and confirms its relatedness with Condylostoma already hypothesized by Villeneuve-Brachon (1940). The presence of the aboral cavity complex, a unique feature never described in other ciliates, and its peculiar organization revealed by ultrastructural analysis fully justify, in our opinion, the maintenance of Chattonidium in the separate family Chattonidiidae, established by Villeneuve-Brachon in 1940.

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Apofrontonia dohrni sp. n. and the phylogenetic relationships within Peniculia (Protista, Ciliophora, Oligohymenophorea)

Fokin¹,

Andreoli²,

Verni³

et al. 2006

Zoologica Scripta

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Apofrontonia dohrni, a new peniculine ciliate, was discovered in a slightly brackish water sample from Mediterranean coastline puddle in Naples, Italy. Its morphology was studied in vivo, in silver- and Feulgen-stained preparations, as well as at the scanning electron microscope; 18S rRNA gene sequence was also determined. The species is characterized by a medium cell size (118 x 61 mu m - fixed cell) and an oval-extended body, flattened dorsoventrally; a very long sausage-like macronucleus rolled up into almost a ring; a comparatively large compact micronucleus; relatively small number of vestibular kineties (4) and a peculiar structure of 3 peniculi, consisting of 5-6, 4-5 and 3 ciliary rows, respectively. The ciliate always has about 20 contractile vacuoles distributed beneath its entire body surface. Using these features, A. dohrni, definitely, can be easily discriminated from the two other species of the genus: Apofrontonia lametschwandtneri and Apofrontonia obtusa. T..

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Molecular phylogeny of unculturable Karyorelictea (Alveolata, Ciliophora)

Andreoli¹,

Mangini²,

Ferrantini³

et al. 2009

Zoologica Scripta

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Karyorelictea is a class of traditionally unculturable ciliates characterized by a non-dividing macronucleus. Their classification has been recently revised and morphological redescription of many species has been performed as well. On the contrary, molecular data of karyorelictean ciliates are largely underrepresented in public databases. In the present article we resumed and improved a method to characterize 18S rRNA gene sequences through direct amplification and sequencing of single cells. Using this approach, we characterized 12 different karyorelictean molecular operational taxonomic units (MOTUs: nine trachelocercids, one Geleia, one Remanella and one Loxodes), most of which were also photo-recorded. These molecular data were used to reconstruct phylogenetic relationships among the three orders (Protostomatida, Loxodida and Protoheterotrichida) in which the class is traditionally subdivided. The most supported tree topology shows an association between orders Loxodida (Loxodes, Remanella) and Protoheterotrichida (Geleia), in contrast with previous works associating orders Loxodida and Protostomatida (trachelocercids) on a morphological basis.

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Ilaria Andreoli

Focusing on Genera to Improve Species Identification: Revised Systematics of the Ciliate Spirostomum

“Candidatus Cryptoprodotis polytropus,” A Novel Rickettsia‐Like Organism in the Ciliated Protist Pseudomicrothorax dubius (Ciliophora, Nassophorea)

Molecular systematics and ultrastructural characterization of a forgotten species: <i>Chattonidium setense</i> (Ciliophora, Heterotrichea)

Apofrontonia dohrni sp. n. and the phylogenetic relationships within Peniculia (Protista, Ciliophora, Oligohymenophorea)

Molecular phylogeny of unculturable Karyorelictea (Alveolata, Ciliophora)

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