Copy number polymorphisms (CNPs) of antimicrobial peptides (AMPs) in livestock can influence the innate immune response of individuals. We conducted a high-resolution analysis of the genomic variations of porcine cathelicidin PR39 using cloned PR39 amplicons corresponding to the 5' untranslated region (UTR) to 3' UTR from four individuals of three different pig breeds. We identified 15 different sequences corresponding to 9 different coding domain sequences (CDSs), encoding 7 different protein sequences consisting of 3 functional and 4 non-functional forms. Subsequently, we developed a PR39 CNP typing method using real-time polymerase chain reaction (PCR) and analyzed the PR39 copy numbers from 44 pigs of six breeds. Significant variations in PR39 copies ranging from 2 to 10 copies, with a mean copy number of 5, were observed among all commercial breeds, except the wild boar. Among the different breeds, the PR39 copy number was highest (10) in Korean native pigs. Gene expression analysis showed that PR39 expression was correlated with the copy number. Moreover, the comparative analysis of the cathelicidin cluster-containing region among eight mammalian species showed the complete evolutionary conservation of the region, except for differences in the degree of cathelicidin expansion in each species. Therefore, characterization of CNPs in AMP genes could aid in improving the genetic potential of innate immune responses in livestock animals.
Keywords: Antimicrobial peptides; Cathelicidins; Copy number variations; Innate immune genes; PR39; Pigs.
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