Phylogenetic Position of Psalteriomonas lanterna Deduced from the SSU rDNA Sequence

ABSTRACT. The small subunit ribosomal DNA sequence (SSU rDNA) of the microaerophilic free-living amoeboflagellate Psalteriomonas lanterna has been sequenced and analyzed. The gene is 1,945 bp long and has a G + C content of 33.4%. Based upon ultrastructural studies, P. lanterna has been placed in the class Lyromonadea within the phylum Percolozoa Cavalier-Smith, 1991. However, based upon cytological characteristics, this microaerophilic free-living amoeboflagellate appears to be very primitive. It shares certain characteristics in common with some archezoans, i.e. it lacks mitochondria and dictyosomes but contains hydrogenosomes. Despite sharing these characteristics with the amitochondriate taxa, P. lanterna is not related to any of these taxa but instead to the Vahlkampfiidae. Therefore, we used primary sequence data and the secondary structure of the SSU rDNA gene to determine the placement P. lanterna in the phylogenetic tree. Our analyses showed that P. lanterna groups as a sister taxon to the Vahlkampfiidae but probably diverged from them quite early.     

A New Heterolobosean Amoeboflagellate,Tetramitus dokdoensis n. sp., Isolated from a Freshwater Pond on Dokdo Island in the East Sea,Korea

The genus Tetramitus is a representative amoeboflagellate group within the Heterolobosea, and currently contains over a dozen species. Here, a new heterolobosean amoeboflagellate was isolated from a freshwater pond on Dokdo Island, Korea. The amoebae have eruptive pseudopodia, no uroidal filament, and a nucleus with a central nucleolus. The length and width of the amoebae are 15.5–28.0 μm and 5.4–12.6 μm, respectively. The flagellates are conical, with 4 flagella of equal length (~10 μm). There is a discrete rostrum in the subapical region of the flagellate form. The cyst has thin endo‐ and ectocyst layers and no cyst pores. The amoeba shows slow movement at 37 °C, but does not move at 42 °C under a light microscope. Phylogenies of the 18S rRNA gene and the ITS1‐5.8S rRNA gene‐ITS2 sequence show that the strain belongs to a subclade of Tetramitus that includes Tetramitus rostratus, Tetramitus waccamawensis and Tetramitus entericus, amongst others. Nonetheless, the strain is distinct from other species in both molecular phylogenetic trees. Thus the strain isolated from the Dokdo Island is proposed as a novel species, Tetramitus dokdoensis n. sp.     

Characterization of Pharyngomonas kirbyi (= "Macropharyngomonas halophila" nomen nudum), a very deep-branching, obligately halophilic heterolobosean flagellate

The tetraflagellate Pharyngomonas is among the most commonly reported morphotypes of halophilic protozoa. We have established two cultures of Pharyngomonas kirbyi, SD1A and AS12B, from 300‰ and 210‰ salinity waters from the USA and Australia, respectively. 18S rRNA gene phylogenies confirm that Pharyngomonas is the same entity as 'Macropharyngomonas' (nomen nudum), and represents the deepest branch in the heterolobosean lineage. Pharyngomonas kirbyi (Strain SD1A) has flattened/discoidal cristae, and lacks conspicuous Golgi dictyosomes. It also has a heterolobosean 'double bikont' flagellar apparatus, with two right roots, each associated with an 'I' fibre and part of a rhizoplast-like complex. One right root splits shortly after its origin, and supplies most of the microtubules that support both the ventral groove, and the sub-anterior cytopharynx. Interestingly, Pharyngomonas has some potentially ancestral features not found in typical Heterolobosea, including elongated left roots associated with multilayered 'C' fibres, orthogonal basal bodies, and a spur structure that might represent a 'B' fibre homolog. Both isolates are obligate halophiles that grow best at 100-200‰ salinity and do not grow below 75‰ salinity. Pharyngomonas is therefore of considerable evolutionary importance, both as a deep-branching, plesiomorphic heterolobosean, and a borderline extreme halophile.     

Morphology and Phylogenetic Analyses of Three Novel Naegleria Isolated from Freshwaters on Jeju Island,Korea, During the Winter Period

The genus Naegleria is one of the best known heterolobosean groups, and is the causative agent of primary amoebic meningoencephalitis. This group is rarely studied in temperate regions during winter. Here, three novel Naegleria were isolated from freshwaters on Jeju Island, Korea, during winter. Two isolates were amoeboflagellates, and one of the three amoebae did not undergo enflagellation. All amoebae had eruptive pseudopodia, and the layer of refractile granules around a large nucleus. They formed a cyst with ~2 pores in the cyst stage. The amoeboflagellate form had two flagella and no division in the flagellate stage, and no cytostome. These features are very similar to typical Naegleria. Furthermore, our isolates were able to grow at > 30 °C, suggesting that they had different thermophilicity from Naegleria in polar regions. All amoebae were largely encysted at 5 or 10 °C, indicating that they were likely encysted during winter. Based on the 18S rRNA gene and the ITS1‐5.8S rRNA gene‐ITS2 sequences, the phylogenetic analyses consistently revealed that the isolates are members of the Naegleria group. However, the isolates differ from other species in both phylogenetic trees. Thus, Naegleria in cold habitats appeared to have a high degree of novelty, but their thermophilicity may be dependent on locality.     

Characterization of Tulamoeba bucina n. sp., an Extremely Halotolerant Amoeboflagellate Heterolobosean Belonging to the Tulamoeba–Pleurostomum Clade (Tulamoebidae n. fam.)

Most protozoans that have been cultivated recently from high salinity waters appear to be obligate halophiles. Phylogenetic analyses indicate that these species mostly represent independent lineages. Here, we report the cultivation, morphological characterization, and phylogenetic analysis of two strains (XLG1 and HLM‐8) of a new extremely halotolerant heterolobosean amoeboflagellate. This species is closely related to the obligate halophiles Tulamoeba peronaphora and Pleurostomum flabellatum, and more specifically to the former. Like Tulamoeba, the new species has a monopodial limax amoeba stage, however, its cyst stage lacks an intrusive pore plug. The flagellate stage bears a combination of a planar spiral feeding apparatus and unequal heterodynamic flagella that discriminates it from described Pleurostomum species. Strain XLG1 grows at salinities from 35‰ to 225‰. This degree of halotolerance is uncommon in protozoa, as most species showing growth in seawater are unable to grow at 200‰ salinity. The unrelatedness of most halophilic protozoa suggested that independent colonization of the hypersaline environment is more common than speciation within it. However, this study supports the idea that the Tulamoeba–Pleurostomum clade underwent an adaptive radiation within the hypersaline environment. A new species Tulamoeba bucina n. sp. is described, with Tulamoebidae n. fam. proposed for the Tulamoeba–Pleurostomum clade.     

Learamoeba waccamawensis, N. G., N. Sp. (Heterolobosea: Vahlkampfiidae), a New Temperature-Tolerant Cyst-Forming Soil Amoeba

Soil from a roadside ditch at Lake Waccamaw, North Carolina, was tested for cyst-forming free-living amoebae, and water from the same ditch was tested for fecal coliform bacteria. Soil samples incubated at room temperature (21-23° C) yielded Acanthamoeba polyphaga, Amoeba sp., Hyperamaeba sp., Mayorella penardi. Naegleria gruberi, Naegleria minor , and unidentified ciliates, testaceans and slime molds. Incubation at 37-39° C yielded Acanthamoeba jacobsi, Platyamoeba schaefferi , and a new amoeba to be described herein. Fecal contamination of the ditch was confirmed by a direct membrane filtration technique that yielded a mean of 1,410 + 134 bacteria/ ml. The new amoeba is assigned to the class Heterolobosea Page & Blanton, 1985 on the basis of promitotic nuclear division, and a flagellated stage with a cytostome as seen in the genus Tetramitus. Amoebae studied in hanging drop preparations were flattened and irregular as described for the genus Stachyamoeba in the family Gruberellidae but changed to a lobose cylindrical form as described for species of Vahlkampfia in the family Vahlkampfiidae. A new genus and species, Learamoeba waccamawensis , is proposed for the amoeba described herein.     

Heterolobosean amoebae from Arctic and Antarctic extremes: 18 novel strains of Allovahlkampfia,Vahlkampfia and Naegleria

The diversity of heterolobosean amoebae, important members of soil, marine and freshwater microeukaryote communities in the temperate zones, is greatly under-explored in high latitudes. To address this imbalance, we studied the diversity of this group of free-living amoebae in the Arctic and the Antarctic using culture dependent methods. Eighteen strain representatives of three heterolobosean genera, Allovahlkampfia Walochnik et Mulec, 2009 (1 strain), Vahlkampfia Chatton et Lalung-Bonnaier, 1912 (2) and Naegleria Alexeieff, 1912 (15) were isolated from 179 samples of wet soil and fresh water with sediments collected in 6 localities. The Allovahkampfia strain is the first representative of the genus from the Antarctic; 14 strains (7 from the Arctic, 7 from the Antarctic) of the highly represented genus Naegleria complete the ‘polar’ cluster of five Naegleria species previously known from the Arctic and Sub-Antarctic regions, whereas one strain enriches the ‘dobsoni’ cluster of Naegleria strains of diverse origin. Present isolations of Naegleria polaris De Jonckheere, 2006 from Svalbard, in the Arctic and Vega Island, in the Antarctic and N. neopolaris De Jonckheere, 2006 from Svalbard and Greenland in the Arctic, and James Ross Island, the Antarctic demonstrate their bipolar distribution, which in free-living amoebae has so far only been known for Vermistella Morand et Anderson, 2007.