Prevalence, morphological and molecular phylogenetic analyses of the rabbit pinworm, Passalurus ambiguus Rudolphi 1819, in the domestic rabbits Oryctolagus cuniculus. Acta Parasitologica. 2019: 64(2):316-330. (Impact factor. 1.1, Q4), ISSN: 1230-2821.
, Abdel-Gaber R, Ataya F, Fouad D, Daoud M, Alzuhairy S . 2019
Abstract
Introduction Passalurus ambiguus, a pinworm nematode parasite, infects domestic and wild rabbits, hares, and rodents
worldwide.
Materials and Methods The current parasitological study was performed during January–December 2016, to investigate
helminth parasites infecting the domestic rabbit species Oryctolagus cuniculus at the Department of Animal Production
Faculty of Agriculture, Cairo University, Cairo, Egypt.
Results Of the twenty rabbit specimens examined for gastrointestinal nematodes, 75% were infected with adult oxyurid species,
which were morphologically characterized using light and scanning electron microscopy studies. The oxyurid species
had a triangular mouth opening surrounded by simple lips with four cephalic papillae and a pair of lateral amphidial pores
with three teeth-like structures, an esophagus divided into a cylindrical corpus and globular bulb supported internally with
tri-radiate valvular apparatus, and four caudal papillae distributed on the posterior end of males with a single short protruding
spicule and ovijector apparatus opening ventrally by the vulva, surrounded by protruded lips in female worms. The species
were compared morphometrically with other Passalurus species described previously; light differences were found in different
body part sizes. Molecular characterization based on 18 small subunit (SSU) rDNA sequences showed ~ 85% similarity with
other Chromadorea species. A preliminary genetic comparison between the 18S rDNA sequences of the isolated parasite and
those of other oxyurid species suggested that it belonged to Passalurus ambiguus. The 18S rDNA sequence of the parasite
was deposited in GenBank (accession no., MG310151.1).
Conclusion The 18S rDNA gene of P. ambiguus was shown to yield a unique genetic sequence that confirms its taxonomic
position within the Oxyuridae family.
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