2010
DOI: 10.1186/1471-2148-10-276
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An efficient method to find potentially universal population genetic markers, applied to metazoans

Abstract: BackgroundDespite the impressive growth of sequence databases, the limited availability of nuclear markers that are sufficiently polymorphic for population genetics and phylogeography and applicable across various phyla restricts many potential studies, particularly in non-model organisms. Numerous introns have invariant positions among kingdoms, providing a potential source for such markers. Unfortunately, most of the few known EPIC (Exon Primed Intron Crossing) loci are restricted to vertebrates or belong to… Show more

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Cited by 35 publications
(40 citation statements)
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“…These are the cox1 gene typically used for metazoans (Bucklin et al 2011), RbcL gene sequenced for macroalgae (Leliaert et al 2014), but also other mitochondrial and nuclear genes such as ribosomal genes or 'universal' introns (e.g. Jarman et al 2002;Chenuil et al 2010;G erard et al 2013). Using a set of unlinked genetic markers, it is possible both to refine the phylogenetic relationships and to test whether specimens from the same species are able to recombine and, conversely, whether specimens from different species cannot.…”
Section: Guidelines For the Sampling Of Charactersmentioning
confidence: 99%
“…These are the cox1 gene typically used for metazoans (Bucklin et al 2011), RbcL gene sequenced for macroalgae (Leliaert et al 2014), but also other mitochondrial and nuclear genes such as ribosomal genes or 'universal' introns (e.g. Jarman et al 2002;Chenuil et al 2010;G erard et al 2013). Using a set of unlinked genetic markers, it is possible both to refine the phylogenetic relationships and to test whether specimens from the same species are able to recombine and, conversely, whether specimens from different species cannot.…”
Section: Guidelines For the Sampling Of Charactersmentioning
confidence: 99%
“…As the sampling of new species grows with the increasing pace of molecular approaches in ecology (Box 2), it is essential that efforts akin to DNA barcoding mature to include multiple nuclear loci, as in multi-locus sequence typing (MLST) used commonly in bacteria (Maiden et al 1998; Perez-Losada et al 2006), so as to appropriately interrogate the evolutionary history of organisms (Chenuil et al 2010). With hyperdiverse lineages, standard thresholds of divergence – particularly for mitochondrial loci – are unlikely to be useful yardsticks of species membership (Vences et al 2005; Hajibabaei et al 2006).…”
Section: Hyperdiverse Eukaryotes In Naturementioning
confidence: 99%
“…The rationale for expecting cross-amplification with stingrays comes from the fact that exons of a number of EPIC genes are conserved across orders in Metazoans (e.g. Chenuil et al, 2010;Palumbi et al 1991). Three stingray species among the most common at fish landing sites in the Indo-Malay-Papua archipelago in the central Indo-West Pacific (White and Dharmadi, 2007) were chosen as test species: the sharpnose stingray, Himantura gerrardi (Gray, 1851), the blue-spotted maskray, Neotrygon kuhlii (Müller and Henle, 1841) and the ribbontail stingray, Taeniura lymna (Forsskål, 1775).…”
Section: Introductionmentioning
confidence: 99%