Redescription of <i>Tintinnopsis everta</i> Kofoid and Campbell 1929 (Alveolata, Ciliophora, Tintinnina) Based on Taxonomic and Genetic Analyses—Discovery of a New Complex Ciliary Pattern

Gruber, Michael; Strüder‐Kypke, Michaela C.

doi:10.1111/jeu.12496

“…Based on ITS1-5.8S-ITS2, a sequence previously obtained for this species in Qingdao, China (KU715813; [48]) groups with our sequence, and both are 96.2% similar. Tintinnopsis kiaochowensis forms a fully-supported clade with T. everta (MG461220; [33]) based on SSU rDNA, and both sequences are 99.0% similar. The newly sequenced population of T. uruguayensis forms a fully-supported clade with the North-Atlantic population of the same species, based on both SSU rDNA and LSU rDNA (JN831838 and JN831923; [25]); the two populations are 100% identical in both markers.…”

Section: Sequence Comparison and Phylogenetic Analysesmentioning

confidence: 99%

“…Thus, we applied common criteria to verify that eld-isolated specimens were not confounded with other species (e.g. as done by Gruber et al [33]): the three species were distinguished by careful evaluation of their morphological features and lorica size in vivo, and the absence of potentially confounding, cooccurring species was con rmed with further analyses of loricae and protargol-stained cells. For each species, a single specimen was isolated at 400× magni cation, washed ve times with 0.22-μm ltered sample water, and used for DNA extraction with the DNeasy Blood & Tissue kit (Qiagen).…”

Section: Dna Extraction Pcr Ampli Cation and Sequencingmentioning

confidence: 99%

“…Thus, the current lorica-based taxonomy does not allow estimating tintinnine diversity accurately, and it does not provide a natural classi cation. Accordingly, several studies have incorporated more informative characters, namely, cytological and/ or molecular data, in tintinnine systematics (e.g., [27] [28] [29] [30] [31] [32] [33][34] [35] [36]). Still, cell characters and DNA sequences are only known for about 3% and 10% of the described tintinnine morphospecies, respectively (e.g., [22] [37]), and considerable efforts are needed to increase the availability of these types of information.…”

Section: Introductionmentioning

confidence: 99%

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Three redescriptions in Tintinnopsis (Protista：Ciliophora: Tintinnina) from coastal waters of China, with cytology and phylogenetic analyses based on ribosomal RNA genes

Bai

¹

,

Wang

²

,

Song

³

et al. 2020

Preprint

0

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Background: The taxonomy of tintinnine ciliates is vastly unresolved because it has traditionally been based on the lorica (a secreted shell) and it has only recently incorporated cytological and molecular information. Tintinnopsis, the most speciose tintinnine genus, is also the most problematic: it is known to be non-monophyletic, but it cannot be revised until more of its species are studied with modern methods. Results: Here, T. hemispiralis Yin, 1956, T. kiaochowensis Yin, 1956, and T. uruguayensis Balech, 1948, from coastal waters of China, were studied. Lorica and cell features were morphometrically investigated in living and protargol-stained specimens, and sequences of three ribosomal RNA (rRNA) loci were phylogenetically analyzed. The three species show a complex ciliary pattern (with ventral, dorsal, and posterior kineties and right, left, and lateral ciliary fields), but differ in lorica morphology, details of the somatic ciliature and rRNA gene sequences. Tintinnopsis hemispiralis is further distinguished by a ciliary tuft (a ribbon of very long cilia originating from the middle portion of the ventral kinety and extending out of the lorica) and multiple macronuclear nodules. Both T. kiaochowensis and T. uruguayensis have two macronuclear nodules, but differ in the number of somatic kineties and the position of the posterior kinety. Two neotypes are fixed for T. hemispiralis and T. kiaochowensis to stabilize the species names objectively, mainly because of the previous unavailability of type materials. By phylogenetic analysis and comparison with closely-related species, we infer that the ciliary tuft and details such as the commencement of the rightmost kinety in the lateral ciliary field are synapomorphies that may help clarify the systematics of Tintinnopsis-like taxa. Conclusion: The redescriptions of three poorly known Tintinnopsis species, namely T. hemispiralis, T. kiaochowensis, and T. uruguayensis firstly revealed their ciliary pattern and rRNA sequences. This study expands knowledge and database of tintinnines and helps in identifying potential synapomorphies for future taxonomic rearrangements.

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“…Furthermore, recent researches have revealed that a combination of both molecular and classic morphological data is indispensable for studying the diversity, taxonomy, phylogeny and biogeography of tintinnines [21][22][23][24][25][26][27][28]. Unfortunately, SSU rRNA gene sequences and cytological data, including details of the ciliature, are available for only 10 and 5 % of nominal morphospecies, respectively [18,[29][30][31][32][33][34][35][36][37][38][39][40][41][42][43]. Jörgensen, 1924 are characterized by having a broadly obovate bowl with densely agglomerated particles and a cylindrical, hyaline collar that may be either spiraled or annular.…”

Section: Introductionmentioning

confidence: 99%

Morphological redescriptions and neotypification of two poorly known tintinnine ciliates (Alveolata, Ciliophora, Tintinnina), with a phylogenetic investigation based on SSU rRNA gene sequences

Wang

¹

,

Song

²

,

Bai

³

et al. 2020

International Journal of Systematic and Evolutionary Microbiology

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show abstract

“…Thus, the current lorica-based taxonomy does not allow estimating tintinnine diversity accurately, and it does not provide a natural classi cation. Accordingly, several studies have incorporated more informative characters, namely, cytological and/ or molecular data, in tintinnine systematics (e.g., [27] [28] [29] [30] [31] [32] [33] [34] [35] [36]). Still, cell characters and DNA sequences are only known for about 3% and 10% of the described tintinnine morphospecies, respectively (e.g., [22] [37]), and considerable efforts are needed to increase the availability of these types of information.…”

Section: Introductionmentioning

confidence: 99%

Three redescriptions in Tintinnopsis (Protista: Ciliophora: Tintinnina) from coastal waters of China, with cytology and phylogenetic analyses based on ribosomal RNA genes

Bai

¹

,

Wang

²

,

Song

³

et al. 2020

Preprint

View full text Add to dashboard Cite

Background: The taxonomy of tintinnine ciliates is vastly unresolved because it has traditionally been based on the lorica (a secreted shell) and it has only recently incorporated cytological and molecular information. Tintinnopsis, the most speciose tintinnine genus, is also the most problematic: it is known to be non-monophyletic, but it cannot be revised until more of its species are studied with modern methods. Results: Here, T. hemispiralis Yin, 1956, T. kiaochowensis Yin, 1956, and T. uruguayensis Balech, 1948, from coastal waters of China, were studied. Lorica and cell features were morphometrically investigated in living and protargol-stained specimens, and sequences of three ribosomal RNA (rRNA) loci were phylogenetically analyzed. The three species show a complex ciliary pattern (with ventral, dorsal, and posterior kineties and right, left, and lateral ciliary fields), but differ in lorica morphology, details of the somatic ciliature and rRNA gene sequences. Tintinnopsis hemispiralis is further distinguished by a ciliary tuft (a ribbon of very long cilia originating from the middle portion of the ventral kinety and extending out of the lorica) and multiple macronuclear nodules. Both T. kiaochowensis and T. uruguayensis have two macronuclear nodules, but differ in the number of somatic kineties and the position of the posterior kinety. Two neotypes are fixed for T. hemispiralis and T. kiaochowensis to stabilize the species names objectively, mainly because of the previous unavailability of type materials. By phylogenetic analysis and comparison with closely-related species, we infer that the ciliary tuft and details such as the commencement of the rightmost kinety in the lateral ciliary field are synapomorphies that may help clarify the systematics of Tintinnopsis-like taxa. Conclusion: The redescriptions of three poorly known Tintinnopsis species, namely T. hemispiralis, T. kiaochowensis, and T. uruguayensis firstly revealed their ciliary pattern and rRNA sequences. This study expands knowledge and database of tintinnines and helps in identifying potential synapomorphies for future taxonomic rearrangements.

show abstract

Redescription of Tintinnopsis everta Kofoid and Campbell 1929 (Alveolata, Ciliophora, Tintinnina) Based on Taxonomic and Genetic Analyses—Discovery of a New Complex Ciliary Pattern

Cited by 19 publications

References 46 publications

Three redescriptions in Tintinnopsis (Protista：Ciliophora: Tintinnina) from coastal waters of China, with cytology and phylogenetic analyses based on ribosomal RNA genes

Three redescriptions in Tintinnopsis (Protista：Ciliophora: Tintinnina) from coastal waters of China, with cytology and phylogenetic analyses based on ribosomal RNA genes

Morphological redescriptions and neotypification of two poorly known tintinnine ciliates (Alveolata, Ciliophora, Tintinnina), with a phylogenetic investigation based on SSU rRNA gene sequences

Three redescriptions in Tintinnopsis (Protista: Ciliophora: Tintinnina) from coastal waters of China, with cytology and phylogenetic analyses based on ribosomal RNA genes

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