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Investigating the ecology and evolution of cryptic marine nematode species through quantitative real-time PCR of the ribosomal ITS region
Derycke, S.; Sheibani-Tezerji, R.; Rigaux, A.; Moens, T. (2012). Investigating the ecology and evolution of cryptic marine nematode species through quantitative real-time PCR of the ribosomal ITS region. Mol. Ecol. Resour. 12(4): 607-619. https://dx.doi.org/10.1111/j.1755-0998.2012.03128.x
In: Molecular Ecology Resources. Blackwell Publishing: Oxford. ISSN 1755-098X; e-ISSN 1755-0998
Peer reviewed article  
Available in  Authors 
    Vlaams Instituut voor de Zee: Non-open access 346204 [ request ]
Keyword
    Marine/Coastal
Author keywords
    absolute quantification; cryptic species; internal transcribed spacer;qPCR; relative quantification
Authors  Top 
  • Derycke, S.
  • Sheibani-Tezerji, R.
  • Rigaux, A.
  • Moens, T.
Abstract
    The presence of morphologically similar but genetically distinct species has impacted biogeographical and ecological paradigms. In marine sediments, free-living nematodes form one of the most abundant and diverse faunal groups. Inferring the importance of nematode diversity for ecosystem functioning requires species-level identification, which is hampered by the lack of easily observable diagnostic characters and the presence of cryptic species. New techniques are urgently needed to adequately study the ecology and evolution of cryptic species. The aim of the present study was to evaluate the potential of a quantitative real-time PCR (qPCR) assay using the internal transcribed spacer (ITS) region of the ribosomal DNA to detect and quantify cryptic species of the R. (P.) marina complex. All primer pairs proved to be highly specific, and each primer pair was able to detect a single juvenile in a pool of 100 nematodes. Ct values were significantly different between developmental stages for all species except for PmIII. Despite differences between developmental stages, a strong correlation was observed between the amount of extracted DNA and the number of nematodes present. Relative and absolute quantification estimates were comparable and resulted in strong positive correlations between the qPCR estimate and the actual number of nematodes present in the samples. The qPCR assay developed here provides the ability to quickly identify and quantify cryptic nematode species and will facilitate their study in laboratory and field settings.
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