Abstract
BackgroundThe size and type of ears are important conformation characteristics that distinguish pig breeds. A significant quantitative trait locus (QTL) for ear size has been identified on SSC5 (SSC for Sus scrofa chromosome) but the underlying causative gene and mutation remain unknown. Thus, our aim was to identify the gene responsible for enlarged ears in pig.ResultsFirst, we narrowed down the QTL region on SSC5 to a 137.85-kb interval that harbors only the methionine sulfoxide reductase B3 (MSRB3) gene. Then, we identified a 38.7-kb copy number variation (CNV) that affects the last two exons of MSRB3 and could be the candidate causative mutation for this QTL. This CNV showed complete concordance with genotype at the QTL of the founder animals in a white Duroc × Erhualian F2 intercross and was found only in pigs from six Chinese indigenous breeds with large ears and from the Landrace breed with half-floppy ears. Moreover, it accounted for the significant association with ear size on SSC5 across the five pig populations tested. eQTL mapping revealed that this CNV was significantly associated with the expression of the microRNA (miRNA) miR-584-5p, which interacts with MSRB3, one of its target genes. In vivo and in vitro experiments confirmed that miR-584-5p inhibits the translation of MSRB3 mRNA. Taken together, these results led us to conclude that presence of the 38.7-kb CNV in the genome of some pig breeds affects ear size by altering the expression of miR-584-5p, which consequently hinders the expression of one of its target genes (e.g. MSRB3).ConclusionsOur findings shed insight into the underlying mechanism of development of external ears in mammals and contribute to a better understanding of how the presence of CNV can regulate gene expression.
Highlights
The size and type of ears are important conformation characteristics that distinguish pig breeds
In Laiwu pigs, the strongest signal was observed on SSC5, between 29.55 and 30.07 Mb, a region that harbored four genome-wide significant single nucleotide polymorphisms (SNPs): ASGA0025241, ASGA0025245, H3GA0016181 and ALGA0031527 (LOD = 8.49), while other genomewide significant SNPs were identified on SSC4, 7 and X (LOD > 6.00)
The causative copy number variation (CNV) affects the expression level of miR‐584‐5p, which suppresses the expression of methionine sulfoxide reductase B3 (MSRB3) To establish a relationship between the presence of the CNV and the level of MSRB3, we investigated the genomic region around the 137.85-kb quantitative trait locus (QTL) interval and found a novel miRNA (ENSSSCG00000024846, SSC5: 29,938,800–29,938,890 bp), miR-584-5p, which is located on the reverse strand of the reference genome sequence and at 75.21 kb of the 3′ end of MSRB3
Summary
The size and type of ears are important conformation characteristics that distinguish pig breeds. A significant quantitative trait locus (QTL) for ear size has been identified on SSC5 (SSC for Sus scrofa chromosome) but the underlying causative gene and mutation remain unknown. The genomic region between 31.74 and 33.78 Mb on SSC5 shows a high level of genetic differentiation between breeds with floppy ears and breeds with prick/partly floppy ears [10]. This region is orthologous to a QTL for ear type in dogs [11,12,13] and a strong selection signature within MSRB3 has been reported in large-eared sheep [14]. The causative mutation(s) for this QTL remain(s) unexplored in mammals
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