- Abuladze KI (1964) Essentials of cestodology. In: Skrjabin KI (ed) Taeniata of animals and man and diseases caused by them, vol IV. Nauka, Moskow, English translation (1970), Israel Program of Scientific Translations, Jerusalem
Google Scholar
- Blair D (2006) Ribosomal DNA variation in parasitic flatworms. In: Maule A (ed) Parasitic flatworms: molecular biology, biochemistry, immunology and control. CABI, London, pp 96–123
Google Scholar
- Bowles J, McManus DP (1994) Genetic characterization of Asian Taenia, a newly described taeniid cestode of humans. AmJTrop Med Hyg 50:33–44
CAS Google Scholar
- Campos A, Cummings MP, Reyes JL, Laclette JP (1998) Phylogenetic relationships of platyhelminthes based on 18S ribosomal gene sequences. Mol Phylogenet Evol 10:1–10
Article PubMed CAS Google Scholar
- Carabin H, Budke C, Cowan L, Willingham A, Torgerson P (2005) Methods for assessing the burden of parasitic zoonoses: echinococcosis and cysticercosis. Trends Parasitol 21:327–333
Article PubMed Google Scholar
- de Queiroz A, Alkire NL (1998) The phylogenetic placement of Taenia cestodes that parasitize humans. J Parasitol 84:379–383
Article PubMed Google Scholar
- Foronda P, Casanova JC, Valladares B, Martinez E, Feliu C (2004) Molecular systematics of several cyclophyllid families (Cestoda) based on the analysis of 18S ribosomal DNA gene sequences. Parasitol Res 93(4):279–282
Article PubMed CAS Google Scholar
- Hoberg EP (2002) Taenia tapeworms: their biology, evolution and socioeconomic significance. Microbes Infect 4:859–866
Article PubMed Google Scholar
- Hoberg EP (2006) Phylogeny of Taenia: species definitions and origins of human parasites. Parasitol Int 55:S23–S30
Article PubMed Google Scholar
- Hoberg EP, Jones A, Rausch RL, Eom KS, Gardner SL (2000) A phylogenetic hypothesis for species of the genus Taenia (Eucestoda: Taeniidae). J Parasitol 86:89–98
PubMed CAS Google Scholar
- Huang B, Sheng J (2006) Chinese atlas of parasites for livestock and poultry in China. China Agricultural Science and Technology Press, Beijing, pp 199–205, In Chinese
Google Scholar
- Jia WZ, Yan HB, Guo AJ, Zhu XQ, Wang YC, Shi WG, Chen HT, Zhan F, Zhang SH, Fu BQ, Littlewood DTJ, Cai XP (2010) Complete mitochondrial genomes of Taenia multiceps, T. hydatigena and T. pisiformis: additional molecular markers for a tapeworm genus of human and animal health significance. BMC Genomics 11:447
Article PubMed Google Scholar
- Knapp J, Nakao M, Yanagida T, Okamoto M, Saarma U, Lavikainen A, Ito A (2011) Phylogenetic relationships within Echinococcus and Taenia tapeworms (Cestoda: Taeniidae): an inference from nuclear protein-coding genes. Mol Phylogenet Evol 61:628–638
Article PubMed Google Scholar
- Lavikainen A, Haukisalmi V, Lehtinen MJ, Henttonen H, Oksanen A, Meri S (2008) A phylogeny of members of the family Taeniidae based on the mitochondrial _cox_1 and _nad_1 gene data. Parasitology 135:1457–1467
Article PubMed CAS Google Scholar
- Liu GH, Lin RQ, Li WM, Liu W, Liu Y, Yuan ZG, Song HQ, Zhao GH, Zhang KX, Zhu XQ (2011) The complete mitochondrial genomes of three cestode species of Taenia infecting animals and humans. Mol Biol Rep 38:2249–2256
Article PubMed CAS Google Scholar
- Loos-Frank B (2000) An up-date of Verster’s (1969) ‘Taxonomic revision of the genus Taenia Linnaeus’ (Cestoda) in table format. Sys Parasitol 45:155–183
Article CAS Google Scholar
- Murell KD (2005) Epidemiology of taeniosis and cysticercosis. In: Murell KD (ed) WHO/FAO/OIE guidelines for the surveillance, prevention and control of taeniosis/cysticercosis. OIE, Paris, pp 27–44
Google Scholar
- Okamoto M, Bessho Y, Kamiya M, Kurosawa T, Horii T (1995) Phylogenetic relationships within Taenia taeniaeformis variants and other taeniid cestodes inferred from the nucleotide sequence of the cytochrome coxidase subunit I gene. Parasitol Res 81:415–458
Article Google Scholar
- Olson PD, Tkach VV (2005) Advances and trends in the molecular systematics of the parasitic platyhelminthes. Adv Parasitol 60:165–243
Article PubMed Google Scholar
- Olson PD, Littlewood DT, Bray RA, Mariaux J (2001) Interrelationships and evolution of the tapeworms (Platyhelminthes: Cestoda). Mol Phylogenet Evol 19(3):443–467
Article PubMed CAS Google Scholar
- Olson PD, Yoder K, Fajardo L-GLF, Marty AM, van de Pas S, Olivier C, Relman DA (2003) Lethal invasive cestodiasis in immunosuppressed patients. J Infect Dis 187:1962–1966
Article PubMed Google Scholar
- Purdom PW, Bradford PG, Tamura K, Kumar S (2000) Single column discrepancy and dynamic max-mini optimizations for quickly finding the most parsimonious evolutionary trees. Bioinformatics 16:140–151
Article PubMed CAS Google Scholar
- Tamura K (1992) Estimation of the number of nucleotide substitutions when there are strong transition–transversion and G+C-content biases. Mol Biol Evol 9:678–687
PubMed CAS Google Scholar
- Tamura K, Nei M, Kumar S (2004) Prospects for inferring very large phylogenies by using the neighbor-joining method. Proc Natl Acad Sci USA 101:11030–11035
Article PubMed CAS Google Scholar
- Tamura K, Peterson D, Peterson N, Stecher G, Nei M, Kumar S (2011) MEGA5: molecular evolutionary genetics analysis using maximum likelihood, evolutionary distance, and maximum parsimony methods. Mol Biol Evol 28:2731–2739
Article PubMed CAS Google Scholar
- Thompson JD, Higgins DG, Gibson TJ (1994) Clustal W: improving the sensitivity of progressive multiple sequence alignment through sequence weighting, positions-specific gap penalties and weight matrix choice. Nucleic Acids Res 22:4673–4680
Article PubMed CAS Google Scholar
- Verster A (1969) A taxonomic revision of the genus Taenia Linnaeus, 1758 s. str. Onderstepoort J Vet 36:3–58
CAS Google Scholar
- von Nickisch-Rosenegk M, Silva-Gonzalez R, Lucius R (1999) Modification of universal 12S primers for specific amplification of contaminated Taenia spp. (Cestoda) gDNA enabling phylogenetic studies. Parasitol Res 85:819–825
Article Google Scholar
- Waeschenbach A, Webster BL, Bray RA, Littlewood DTJ (2007) Added resolution among ordinal level relationships of tapeworms (Platyhelminthes: Cestoda) with complete small and large subunit nuclear ribosomal RNA genes. Mol Phylogenet Evol 45:311–325
Article PubMed CAS Google Scholar
- Wuyts J, van de Peer Y, Wachter RD (2001) Distribution of substitution rates and location of insertion sites in the tertiary structure of ribosomal RNA. Nucleic Acids Res 29:5017–5028
Article PubMed CAS Google Scholar
- Zhang L, Hu M, Jones A, Allsopp BA, Beveridge I, Schindler AR, Gasser RB (2007) Characterization of Taenia madoquae and Taenia regis from carnivores in Kenya using genetic markers in nuclear and mitochondrial DNA, and their relationships with other selected taeniids. Mol Cell Probe 21:379–385
Article CAS Google Scholar