Morphological and Molecular Characterisation of Notosolenus urceolatus Larsen and Patterson 1990, a Member of an Understudied Deep‐branching Euglenid Group (Petalomonads)

Petalomonads are particularly important for understanding the early evolution of euglenids, but are arguably the least studied major group within this taxon. We have established a culture of the biflagellate petalomonad Notosolenus urceolatus, and conducted electron microscopy observations and molec...

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Bibliographic Details
Published in:	The Journal of eukaryotic microbiology Vol. 61; no. 5; pp. 463 - 479
Main Authors:	Lee, Won Je, Simpson, Alastair G. B
Format:	Journal Article
Language:	English
Published:	United States BioOne 01-09-2014 Blackwell Publishing Ltd
Subjects:	DNA, Protozoan - genetics DNA, Ribosomal - genetics Electron microscopy Euglenida Euglenida - classification Euglenida - genetics Euglenida - growth & development Euglenida - isolation & purification Euglenozoa evolution extrusome flagellum genes Genes, rRNA Golgi apparatus microtubules mitochondria Molecular Sequence Data Notosolenus Petalomonas Petalomonas cantuscygni phagotrophic Phylogeny protist protozoa ribosomal RNA Euglenida extrusome protist phagotrophic evolution Electron microscopy protozoa
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Summary:	Petalomonads are particularly important for understanding the early evolution of euglenids, but are arguably the least studied major group within this taxon. We have established a culture of the biflagellate petalomonad Notosolenus urceolatus, and conducted electron microscopy observations and molecular phylogenetic analysis. Notosolenus urceolatus has eight pellicular strips bordered by grooves and underlain by close‐set microtubules. There are ventral and dorsal Golgi bodies. Mitochondria apparently contain fibrous inclusions, as in Petalomonas cantuscygni. A previously undocumented type of large, globular extrusome is present instead of the tubular extrusomes characteristic of Euglenozoa. The feeding apparatus lacks rods and vanes, and is partly supported by an “MTR”. The flagella have complex transition zones that are extremely elongated but unswollen. Only the emergent portion of the anterior flagellum has an organised paraxonemal rod, and also has very fine mastigonemes. The basal bodies are offset and lack connecting fibres. 18S rRNA gene phylogenies show that N. urceolatus is closely related to Petalomonas sphagnophila and P. cantuscygni, not Notosolenus ostium, confirming that current generic assignments based on the number of emergent flagella are phylogenetically unreliable, and making it difficult to infer whether features shared by N. urceolatus and P. cantuscygni (for example) are general for petalomonads.
Bibliography:	http://dx.doi.org/10.1111/jeu.12126 Program in Integrated Microbial Biodiversity ark:/67375/WNG-VMXLRKG3-M Figure S1. Notosolenus urceolatus, isolate KM049, TEM images showing two views of nonconsecutive sections of the same cell is in Fig. B. A, B. Anterior flagellum (AF) showing tubular paraxonemal rod (PR) and very fine mastigonemes (Ma), imaged with high-angle goniometry (45° for A, 55° for B). C, D. Views showing the thickening of both flagella within the flagellar reservoir (FR) and lack of thickening more distally, in the canal region. The thickening of the flagella in the flagellar reservoir region is due to relatively disorganised material, as seen in Fig C, rather than typical paraxonemal rod structures. Scale bars represent 200 nm for A, B (B) and 1 μm for C, D (D). Canadian Institute for Advanced Research (CIfAR) istex:F1643A5DD796FCC277CF2493E2E820EE55A5B2B1 NSERC - No. 298366-09 Kyungnam University Foundation ArticleID:JEU12126 ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23
ISSN:	1066-5234 1550-7408
DOI:	10.1111/jeu.12126