Genome-wide discovery and in silico mapping of gene-associated SNPs in Nile tilapia

Abstract

Abstract Single nucleotide polymorphisms (SNPs) are important DNA markers for genetic studies. However, the number of SNPs is limited in important aquaculture species. We have identified 23,535 high quality SNPs in genes of Nile tilapia ( Oreochromis niloticus ) by analyzing the available RNA-seq data. Among them, 17,699 SNPs were mapped onto 22 linkage groups (LG) using in silico mapping. The number of mapped SNPs ranged from 332 on LG2 to 1148 on LG16_21 with an average number of 805 SNPs/LG. The mapped SNPs were located in 7146 genes. This SNP resource will be useful in monitoring the genetic diversity and mapping QTL for genetic improvement of tilapia species. We further studied the relationships among individuals from four populations (GIFT, O. niloticus , Red tilapia and O. mossambicus ) using 101 SNPs from LG23. Ninety-four SNPs (~ 93%) were polymorphic in the tested populations. Red tilapia (77%) had the highest number of informative markers than GIFT (69%), Nile tilapia (56%), and Mozambique tilapia (12%). Significant population structure was detected through phylogenic and population structure analysis. The Red tilapia individuals were closely related to Mozambique tilapia, but were split into several subclades, confirming that red tilapia is a hybrid admixture of different resources of tilapias.