Peer-Reviewed Journal Details
Mandatory Fields
Gauthier, DT,Carlsson, JEL,Coughlan, JP,Dillane, E,Fitzgerald, RD,Keating, U,McGinnity, P,Mirimin, L,Cross, TF
2013
January
Journal of Fish Biology
Rapid, economical single-nucleotide polymorphism and microsatellite discovery based on de novo assembly of a reduced representation genome in a non-model organism: a case study of Atlantic cod Gadus morhua
In Press
()
Optional Fields
454 Celtic Sea next-generation sequencing pyrosequencing teleost SNP DISCOVERY POPULATION-STRUCTURE FINITE POPULATION MUTATION MODEL IDENTIFICATION SEQUENCE LOCI CONSERVATION STRATEGIES EVOLUTION
82
944
958
By combining next-generation sequencing technology (454) and reduced representation library (RRL) construction, the rapid and economical isolation of over 25 000 potential single-nucleotide polymorphisms (SNP) and>6000 putative microsatellite loci from c. 2% of the genome of the non-model teleost, Atlantic cod Gadus morhua from the Celtic Sea, south of Ireland, was demonstrated. A small-scale validation of markers indicated that 80% (11 of 14) of SNP loci and 40% (6 of 15) of the microsatellite loci could be amplified and showed variability. The results clearly show that small-scale next-generation sequencing of RRL genomes is an economical and rapid approach for simultaneous SNP and microsatellite discovery that is applicable to any species. The low cost and relatively small investment in time allows for positive exploitation of ascertainment bias to design markers applicable to specific populations and study questions.
DOI 10.1111/jfb.12034
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