Rhinomonas nottbecki n. sp. (Cryptomonadales) and Molecular Phylogeny of the Family Pyrenomonadaceae

@article{Majaneva2014RhinomonasNN,
  title={Rhinomonas nottbecki n. sp. (Cryptomonadales) and Molecular Phylogeny of the Family Pyrenomonadaceae},
  author={Markus Majaneva and Iina Remonen and Janne-Markus Rintala and Ilya Belevich and Anke Kremp and Outi Set{\"a}l{\"a} and Eija Jokitalo and Jaanika Blomster},
  journal={Journal of Eukaryotic Microbiology},
  year={2014},
  volume={61}
}
The cryptomonad Rhinomonas nottbecki n. sp., isolated from the Baltic Sea, is described from live and fixed cells studied by light, scanning, and transmission electron microscopy together with sequences of the partial nucleus‐ and nucleomorph‐encoded 18S rRNA genes as well as the nucleus‐encoded ITS1, 5.8S, ITS2, and the 5′‐end of the 28S rRNA gene regions. The sequence analyses include comparison with 43 strains from the family Pyrenomonadaceae. Rhinomonas nottbecki cells are dorsoventrally… 
View on Wiley
ncbi.nlm.nih.gov
9 Citations
Highly Influential Citations
1
Background Citations
2
Methods Citations
1

9 Citations

Rhodomonas storeatuloformis sp. nov. (Cryptophyceae, Pyrenomonadaceae), a new cryptomonad from the Black Sea: morphology versus molecular phylogeny

: We established a new cryptomonad species, Rhodomonas storeatuloformis sp. nov., based on morphological and molecular characters of cultured strain isolated from the Black Sea. Cells are slightly

Hemiselmis aquamarina sp. nov. (Cryptomonadales, Cryptophyceae), A Cryptophyte with A Novel Phycobiliprotein Type (Cr-PC 564).

Revision of the Genus Chroomonas HANSGIRG: The Benefits of DNA-containing Specimens.

Phenology of cryptomonads and the CRY1 lineage in a coastal brackish lagoon (Vistula Lagoon, Baltic Sea)

The phenology of the CRY1 lineage, three cryptomonadales clades and a species Proteomonas sulcata in a brackish lagoon of the Baltic Sea is investigated using fluorescence in situ hybridization, and it is suggested that the evolution of cryptomonads’ plastids might have been shorter than is currently assumed.

Dimorphism in cryptophytes—The case of Teleaulax amphioxeia/Plagioselmis prolonga and its ecological implications

It is demonstrated that P. prolonga is the haploid form of the diploid T. amphioxeia and described the seasonal dynamics of these two life stages, which might explain the success of this species by fostering high genetic diversity and enabling endurance in adverse conditions.

Cryptomonads: A Model Organism Sheds Light on the Evolutionary History of Genome Reorganization in Secondary Endosymbioses

Growth and Chloroplast Replacement of the Benthic Mixotrophic Ciliate Mesodinium coatsi

The growth response of the benthic ciliate Mesodinium coatsi to different cryptophyte prey using an established culture of this species is examined, suggesting that photosynthesis by ingested prey chloroplast leads to a significant increase in the growth of M. coatsi.

Microscopy Image Browser: A Platform for Segmentation and Analysis of Multidimensional Datasets

A new software package for high-performance segmentation and image processing of multidimensional datasets that improves and facilitates the full utilization and quantitative analysis of acquired data, which is freely available from a dedicated website.

Local adaptation in life history traits and population size estimation of aquatic organisms

This poster presents a probabilistic model that shows how the response of organisms to changes in their environments affects their ability to survive and thrive in an aquatic environment.

References

SHOWING 1-10 OF 90 REFERENCES

NEW MARINE MEMBERS OF THE GENUS HEMISELMIS (CRYPTOMONADALES, CRYPTOPHYCEAE) 1

Cryptomonads are a ubiquitous and diverse assemblage of aquatic flagellates. The relatively obscure genus Hemiselmis includes some of the smallest of these cells. This genus contained only two

Revision of the genus Cryptomonas (Cryptophyceae) II: incongruences between the classical morphospecies concept and molecular phylogeny in smaller pyrenoid-less cells

A reverse ( =  DNA-based) taxonomy approach was used to predict putative biological species in the genus Cryptomonas and five species descriptions were emended by adding molecular signatures as diagnostic characters including a new combination, cryptomonas commutata (Pascher) Hoef-Emden comb.

A revised classification of Cryptophyta

Using ultrastructural, biochemical and molecular data, a classification scheme, which delineates 16 genera, is proposed for the Cryptophyta, which accommodates three new families, the Campylomonadaceae, Geminigeraceae, and Chroomonadaceae.

ULTRASTRUCTURE AND SYSTEMATICS OF TWO NEW FRESHWATER RED CRYPTOMONADS, STOREATULA RHINOSA, SP. NOV. AND PYRENOMONAS OVALIS, SP. NOV.

The ultrastructure and systematics of two red colored freshwater cryptomonads, Storeatula rhinosa, sp. nov. and Pyrenomonas ovalis, sp. nov., are described for the first time. Storeatula, which had

Observations on some new and interesting Cryptophyceae

Three new varieties and two new combinations of marine Cryptophyceae are described and it is suggested that the term ‘furrow’ may encompass a variety of structures.

CRYPTOMONAD EVOLUTION: NUCLEAR 18S rDNA PHYLOGENY VERSUS CELL MORPHOLOGY AND PIGMENTATION 1

Analysis of nuclear18S rDNA sequence supports suggestions that a Falcomonas‐like cryptomonad gave rise to all other blue‐green cryptomonads, and the morphology, number, and pigmentation of the Cryptomonad plastidial complex are congruent with nuclear 18S r DNA phylogenies.

Observations on Rhinomonas reticulata comb. nov. and R. reticulata var. eleniana var. nov. (Cryptophyceae), with comments on the genera Pyrenomonas and Rhodomonas

Seven marine red strains of Cryptophyceae were examined using scanning and transmission electron microscopy. Six of these, possessing a nucleomorph housed within the pyrenoid and a periplast with

SOME ASPECTS OF TAXONOMY IN THE CRYPTOPHYCEAE

The class Cryptophyceae is one of the best defined among Flagellata. Although there is possibly some relation to Dinophyceae, the lines of demarcation are perfectly clear. Furthermore, there seems to

Revision of the genus Cryptomonas (Cryptophyceae): a combination of molecular phylogeny and morphology provides insights into a long-hidden dimorphism.

The results of the phylogenetic study provide molecular evidence for a life history-dependent dimorphism in the genus cryptomonas: the genus Campylomonas represents the alternate morph of Cryptomonas.

Proteomonas sulcata gen. et sp. nov. (Cryptophyceae), a cryptomonad with two morphologically distinct and alternating forms

Abstract Proteomonas sulcata gen. et sp. nov. (Cryptophyceae) is described from Australian waters. It has an unusual life history involving two morphologically distinct and alternating forms that are
...