EST-SNP genotyping of citrus species using high-resolution melting curve analysis

Abstract

'Citrus' taxonomy is very complex mainly due to specific aspects of its reproductive biology. A number of studies have been performed using various molecular markers in order to evaluate the level of genetic variability in 'Citrus'. SNP markers have been used for genetic diversity assessment using a variety of different methods. Recently, the availability of EST database and whole genome sequences has made it possible to develop more markers such as SNPs. In the present study, the high-resolution melting curve analysis (HRM) was used to detect SNPs or INDELs in 'Citrus' genus for the first time. We aimed to develop a panel of SNPs to differentiate 'Citrus' genotypes which can also be applied to 'Citrus' biodiversity studies. The results showed that 21 SNP containing markers produced distinct polymorphic melting curves among the 'Citrus' spp. investigated through HRM analysis. It was proved that HRM is an efficient, cost-effective, and accurate method for discriminating citrus SNPs as well as a method to analyze more polymorphisms in a single PCR amplicon, representing a useful tool for genetic, biodiversity, and breeding studies. SNPs developed based on 'Citrus sinensis' EST database showed a good transferability within the 'Citrus' genus. Moreover, HRM analysis allowed the discrimination of citrus genotypes at specific level and the resulting genetic distance analysis clustered these genotypes into three main branches. The results suggested that the panel of SNP markers could be used in a variety of applications in citrus biodiversity assessment and breeding programs using HRM analysis.