Abstract
Allelic differential expression (ADE) is common in diploid organisms, and is often the key reason for specific phenotype variations. Thus, ADE detection is important for identification of major genes and causal mutations. To date, sensitive and simple methods to detect ADE are still lacking. In this study, we have developed an accurate, simple, and sensitive method, named fluorescence primer PCR-RFLP quantitative method (fPCR-RFLP), for ADE analysis. This method involves two rounds of PCR amplification using a pair of primers, one of which is double-labeled with an overhang 6-FAM. The two alleles are then separated by RFLP and quantified by fluorescence density. fPCR-RFLP could precisely distinguish ADE cross a range of 1- to 32-fold differences. Using this method, we verified PLAG1 and KIT, two candidate genes related to growth rate and immune response traits of pigs, to be ADE both at different developmental stages and in different tissues. Our data demonstrates that fPCR-RFLP is an accurate and sensitive method for detecting ADE on both DNA and RNA level. Therefore, this powerful tool provides a way to analyze mutations that cause ADE.
Highlights
In diploid organisms, the expression level of two alleles are equal for most of the genes, whereas some of them are significantly different
Restriction fragments were separated by agarose gel electrophoresis
The results showed that the fluorescence density was weakened when the space of two FAM was less than 3 nucleotides
Summary
The expression level of two alleles are equal for most of the genes, whereas some of them are significantly different. Many approaches have been applied to determine ADE, such as high-throughput DNA/RNA sequencing[12,13,14,15,16,17,18], DNA microarray[19,20,21], Taqman PCR22,23, allele specific real-time PCR24, and digital PCR25. These methods lead to the detection of major genes associated with human disease, causal mutations in cis-regulatory elements, loss of function alleles, and others[26,27,28,29]. We establish fPCR-RFLP as a simple, sensitive and accurate method, which could provide a powerful way to detect mutations that cause ADE in many species
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