Under Construction

Naegleria

Johan F. De Jonckheere taxon links [down<--]Heterolobosea Interpreting the tree
close box

This tree diagram shows the relationships between several groups of organisms.

The root of the current tree connects the organisms featured in this tree to their containing group and the rest of the Tree of Life. The basal branching point in the tree represents the ancestor of the other groups in the tree. This ancestor diversified over time into several descendent subgroups, which are represented as internal nodes and terminal taxa to the right.

example of a tree diagram

You can click on the root to travel down the Tree of Life all the way to the root of all Life, and you can click on the names of descendent subgroups to travel up the Tree of Life all the way to individual species.

For more information on ToL tree formatting, please see Interpreting the Tree or Classification. To learn more about phylogenetic trees, please visit our Phylogenetic Biology pages.

close box
This tree id based on De Jonckheere 2002, 2004, 2006
Containing group: Heterolobosea

Introduction

In the genus Naegleria 47 different species have been distinguished mostly based on differences in rDNA sequences. After using SSU rDNA sequences (De Jonckheere 1994) it was found that the internal transcribed spacers, including the 5.8 S rDNA are more useful in the identification and description of species (De Jonckheere 1998). The genus is subdivided into 8 clusters, of which two contain species which are only found in cold environments (De Jonckheere 2006b).

The genus Naegleria is notorious because the species N. fowleri causes primary amoebic meningoencephalitis (PAM), almost invariably leading to death. Cases of PAM are detected worldwide and are mostly related to swimming in warm water, whereby the pathogen enters the brain via the nose. The pathogen N. fowleri grows at a temperature up to 45°C and shares this characteristic with the closely related N. lovaniensis. Therefore, these two species can be found in warm waters where other species cannot grow. Two other species, N. australiensis and N. italica, were found to be pathogenic in experimental animals, but no human cases are known yet (De Jonckheere 2002).

Most Naegleria spp. transform into flagellates with two flagella but nonflagellating species are known. Most species have flagellates which do not divide but in a few species division in the flagellate stage is observed. Almost all species form cysts with pores. There is some variation in cyst morphology (Fig. 1).

Click on an image to view larger version & data in a new window
Click on an image to view larger version & data in a new window

Fig. 1. Cysts of Naegleria gruberi and Naegleria angularis. © Johan F. De Jonckheere

Only for the genus Naegleria there is enough information about the dispersal in the environment. It appears that most species are present on all continents except Antarctica (De Jonckheere 2004). In Antarctica and Arctica Naegleria spp. are present that are only found in cold environments (De Jonckheere 2006b). The pathogenic N. fowleri on the other hand is only present in warm climates or hot waters in temperate climates.

In the genus Naegleria the rDNA genes are on a circular plasmid, which was estimated to be present in 4,000 copies (Clark and Cross 1988). In several species of Naegleria, a group I intron is present in the SSU rDNA, and in a few species also in the LSU rDNA (De Jonckheere 2002, 2004). Group I introns are autocatalytic genetic elements carrying a ribozyme domain responsible for the intron self-splicing reaction, and occasionally a homing endonuclease gene, encoding an endonuclease protein directly involved in the intron mobility at the DNA level. In the genus Naegleria, the group I introns almost all carry a homing endonuclease gene. It was demonstrated that the group I intron in the SSU rDNA of Naegleria spp. was acquired in an ancestral stage and inherited vertically, while it was lost in certain species. The group I introns in the LSU rDNA of Naegleria spp. would be recent horizontal transfers.

References

Clark, C. G., Cross, G. A. M. Small-subunit ribosomal RNA sequence from Naegleria gruberi supports the polyphyletic origin of amoebas. Mol. Biol. Evol. 5, 512-518, 1988.

De Jonckheere, J. F. Naegleria australiensis sp. nov., another pathogenic Naegleria from water. Protistologica 17, 423-429, 1981.

De Jonckheere, J. F. Naegleria andersoni n. sp. a cosmopolitan amoebo-flagellate, with two subspecies. Europ. J. Protistol. 23, 327-333, 1988.

De Jonckheere, J. F. Comparison of partial SSUrDNA sequences suggests revisions of species names in the genus Naegleria. Europ. J. Protistol. 30, 333-341, 1994.

De Jonckheere, J. F. Sequence variation in the ribosomal internal transcribed spacers, including the 5.8S rDNA, of Naegleria spp. Protist 149, 221-228, 1998.

De Jonckheere, J. F. A century of research on the amoeboflagellate genus Naegleria. Acta Protozool. 41, 309-342, 2002.

De Jonckheere, J. F. Molecular definition and the ubiquity of species in the genus Naegleria. Protist 155, 89-103, 2004.

De Jonckheere J. F. Isolation and molecular identification of vahlkampfiid amoebae from an island (Tenerife, Spain). Acta Protozool. 45, 91-96, 2006a.

De Jonckheere J. F. Isolation and molecular identification of vahlkampfiid amoebae from Arctic and sub-Antarctic regions. Europ. J. Protistol. 42, 115-123, 2006b.

De Jonckheere, J. F., Brown, S. Willaertia minor is a species of Naegleria. Europ. J. Protistol. 31, 58-62, 1995.

De Jonckheere, J. F., Brown, S. SSUrDNA analysis reveals the existence of a second Naegleria sp. with dividing flagellates: N. robinsoni sp. nov. Europ. J. Protistol. 35, 264-266,1999.

De Jonckheere, J. F., Brown, S. Description of a new species with a remarkable cyst structure in the genus Naegleria: Naegleria angularis sp. n. Acta Protozool. 44, 61-65, 2005.

De Jonckheere, J. F., Brown, S., Dobson, P. J., Robinson, B. S., Pernin, P. Protist, 152, 115-121 2001.

De Jonckheere, J. F., Pernin, P., Scaglia, M., Michel, R. A comparative study of 14 strains of Naegleria australiensis demonstrates the existence of a highly virulent subspecies: N. australiensis italica n. ssp. J. protozool. 31, 324-331, 1984.

Pernin, P., De Jonckheere. Naegleria pussardi, a new Naegleria species phylogenetically related to the high temperature tolerant species at the molecular level. Europ. J. Protistol. 32, 403-411, 1996.

Robinson B.S., Christy P.E., De Jonckheere J.F. Observations on a temporary flagellate stage in Vahlkampfiid amoeba Willaertia magna and its significance for the phylogeny of the related genus Naegleria. Biosystems, 23, 75-86,1989.

Stevens, A. R., De Jonckheere, J. F., Willaert, E. Naegleria lovaniensis new species: isolation and identification of six thermophilic strains of a new species found in association with Naegleria fowleri. Int. J. Parasitol. 10, 51-64, 1980.

Visvesvara, G. S., De Jonckheere, J. F., Marciano-Cabral, F., Schuster, F. L. Morphologic and molecular identification of Naegleria dunnebackei n. sp. isolated from a water sample. J. Eukaryot. Microbiol. 52, 523-531, 2005.

Willaert, E., Le Ray, D. Caractères morphologiques, biologiques et immunologiques de Naegleria jadini sp. nov. (Amoebida, Vahlkampfiidae), Protistologica 9, 417-426, 1973.

About This Page

This page is being developed as part of the Tree of Life Web Project Protist Diversity Workshop, co-sponsored by the Canadian Institute for Advanced Research (CIFAR) program in Integrated Microbial Biodiversity and the Tula Foundation.


de Duve Institute and Scientific Institute of Public Health, Belgium

Correspondence regarding this page should be directed to Johan F. De Jonckheere at

All Rights Reserved.

Citing this page:

De Jonckheere, Johan F. 2008. Naegleria. Version 21 September 2008 (under construction). http://tolweb.org/Naegleria/124653/2008.09.21 in The Tree of Life Web Project, http://tolweb.org/

edit this page
close box

This page is a Tree of Life Branch Page.

Each ToL branch page provides a synopsis of the characteristics of a group of organisms representing a branch of the Tree of Life. The major distinction between a branch and a leaf of the Tree of Life is that each branch can be further subdivided into descendent branches, that is, subgroups representing distinct genetic lineages.

For a more detailed explanation of the different ToL page types, have a look at the Structure of the Tree of Life page.

close box

Naegleria

Page Content

articles & notes

collections

people

Explore Other Groups

random page

  go to the Tree of Life home page
top