Detection of spirorchiid trematodes in gastropod tissues by polymerase chain reaction: Preliminary identification of an intermediate host of learedius learedi Article

Stacy, BA, Frankovich, T, Greiner, E et al. (2010). Detection of spirorchiid trematodes in gastropod tissues by polymerase chain reaction: Preliminary identification of an intermediate host of learedius learedi . JOURNAL OF PARASITOLOGY, 96(4), 752-757. 10.1645/GE-2382.1

cited authors

  • Stacy, BA; Frankovich, T; Greiner, E; Alleman, AR; Herbst, LH; Klein, P; Bolten, A; McIntosh, A; Jacobson, ER

abstract

  • Marine spirorchiid trematodes are associated with morbidity and mortality in sea turtles worldwide. The intermediate hosts remain unknown, and discovery efforts are hindered by the large number and great diversity of potential hosts within sea turtle habitats, as well the potential for low prevalence and overdispersion. A high-throughput DNA extraction and polymerase chain reactionbased method was developed to detect the internal transcribed spacer 2 (ITS2) region of the ribosomal gene of 2 spirorchiid genera, Learedius and Hapalotrema, within pooled samples of gastropod tissues. A model system consisting of freshwater snail (Pomacea bridgesii) tissues and DNA extracts spiked with adult Learedius learedi and known quantities of spirorchiid DNA was used to develop and test the technique. Threshold of detection was found to be equivalent to an early prepatent infection within 1.5 g of gastropod tissue. This technique was used to screen approximately 25 species of marine gastropods at a captive facility where green turtles (Chelonia mydas) become infected by L. learedi. The parasite was detected in a sample of knobby keyhole limpet (Fissurella nodosa), thus providing the first evidence of an intermediate host for a marine spirorchiid trematode. This technique has many potential applications in trematode life cycle discovery studies. © 2010 American Society of Parasitologists.

publication date

  • August 1, 2010

published in

Digital Object Identifier (DOI)

start page

  • 752

end page

  • 757

volume

  • 96

issue

  • 4