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A molecular phylogeny of nuclear and mitochondrial sequences in Hymenolepis nana (Cestoda) supports the existence of a cryptic species

Published online by Cambridge University Press:  11 February 2003

M. G. MACNISH
Affiliation:
WHO Collaborating Centre for the Molecular Epidemiology of Parasitic Infections and Division of Veterinary and Biomedical Sciences, Murdoch University, Murdoch, Western Australia, Australia 6150
U. M. MORGAN-RYAN
Affiliation:
WHO Collaborating Centre for the Molecular Epidemiology of Parasitic Infections and Division of Veterinary and Biomedical Sciences, Murdoch University, Murdoch, Western Australia, Australia 6150
P. T. MONIS
Affiliation:
Microbiology Unit, Australian Water Quality Centre, South Australian Water Corporation, Hodgson Road, Bolivar 5110, Australia
J. M. BEHNKE
Affiliation:
School of Life and Environmental Sciences, University of Nottingham, University Park, Nottingham NG7 2RD, UK
R. C. A. THOMPSON
Affiliation:
WHO Collaborating Centre for the Molecular Epidemiology of Parasitic Infections and Division of Veterinary and Biomedical Sciences, Murdoch University, Murdoch, Western Australia, Australia 6150

Abstract

Since isolates of Hymenolepis nana infecting humans and rodents are morphologically indistinguishable, the only way they can be reliably identified is by comparing the parasite in each host using molecular tools. In the current study, isolates of H. nana from rodent and human hosts from a broad geographical range were sequenced at the ribosomal first internal transcribed spacer (ITS1), the mitochondrial cytochrome c oxidase subunit 1 (C01) gene and the nuclear paramyosin gene loci.Nucleotide sequence data published here have been submitted to GenBank™ and are available under accession numbers AF461124 and AF461125 (18S–28S); AY121842 and AY121843 (cytochrome c oxidase 1); AY1844 and AY121845 (paramyosin). Twenty-three isolates of H. nana were sequenced at the ITS1 locus and this confirmed the existence of spacers which, although similar in length (approximately 646 bp), differed in their primary sequences which led to the separation of the isolates into 2 clusters when analysed phylogenetically. This sequence variation was not, however, related to the host of origin of the isolate, thus was not a marker of genetic distinction between H. nana from rodents and humans. Sequencing of a 444 bp fragment of the mitochondrial cytochrome c oxidase 1 gene (C01) in 9 isolates of H. nana from rodents and 6 from humans identified a phylogenetically supported genetic divergence of approximately 5% between some mouse and human isolates. This suggests that H. nana is a species complex, or ‘cryptic’ species (=morphologically identical yet genetically distinct). A small segment of the nuclear gene, paramyosin, (625 bp or 840 bp) was sequenced in 4 mouse and 3 human isolates of H. nana. However, this gene did not provide the level of heterogeneity required to distinguish between isolates from rodent and human hosts. From the results obtained from faster evolving genes, and the epidemiological evidence, we believe that the life-cycle of H. nana that exists in the north-west of Western Australia is likely to involve mainly ‘human to human’ transmission.

Type
Research Article
Copyright
© 2002 Cambridge University Press

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