RESUMO
The search for the genetic determinism of prolificacy variability in sheep has evidenced several major mutations in genes playing a crucial role in the control of ovulation rate. In the Noire du Velay (NV) sheep population, a recent genetic study has evidenced the segregation of such a mutation named FecL L . However, based on litter size (LS) records of FecL L non-carrier ewes, the segregation of a second prolificacy major mutation was suspected in this population. In order to identify this mutation, we have combined a case/control genome-wide association study with ovine 50k SNP chip genotyping, whole genome sequencing, and functional analyses. A new single nucleotide polymorphism (OARX:50977717T > A, NC_019484) located on the X chromosome upstream of the BMP15 gene was evidenced to be highly associated with the prolificacy variability (P = 1.93E-11). The variant allele was called FecX N and shown to segregate also in the Blanche du Massif Central (BMC) sheep population. In both NV and BMC, the FecX N allele frequency was estimated close to 0.10, and its effect on LS was estimated at +0.20 lamb per lambing at the heterozygous state. Homozygous FecX N carrier ewes were fertile with increased prolificacy in contrast to numerous mutations affecting BMP15. At the molecular level, FecX N was shown to decrease BMP15 promoter activity and supposed to impact BMP15 expression in the oocyte. This regulatory action was proposed as the causal mechanism for the FecX N mutation to control ovulation rate and prolificacy in sheep.
RESUMO
A FecX-mutated allele called FecXR in the BMP15 gene has been described in Rasa aragonesa sheep. FecXR causes increased prolificacy when heterozygous and sterility when homozygous in ewes. However, highly prolific ewes without the FecXR allele have been found in this breed. Therefore, a genome-wide association study (GWAS) was performed in 158 ewes (tail H: N = 73, mean prolificacy ± standard deviation = 2.14 ± 0.26; tail L: N = 85, mean prolificacy = 1.06 ± 0.08) with the Ovine HD SNP BeadChip. In this analysis, the FecXGR allele was found to have genome-wide significance associated with prolificacy, first described in the Grivette sheep breed. We also identified a novel polymorphism in exon 2 of BMP15 in 9 high prolific ewes by Sanger sequencing. This new mutation, called FecXRA, is a SNP (Oar3.1_X: g. 50970948C > T; NM_001114767.1: c.1172C > T) that produces an amino acid substitution (ENSOART00000010201: p.T400I) that is predicted to be deleterious and to alter the predicted secondary structure of the mature protein. To confirm if this SNP had any the effect on prolificacy, we genotyped sires with known EBVs (Estimated Breeding Values), finding one hemizygous sire for the FecXRA allele with the highest EBV in the breeding program (effect on litter size at + 0.39 lamb per lambing). A very low frequency, ranging from 0.13 to 2%, was found for the FecXGR and FecXRA alleles in 3428 animals belonging to four different flocks. Finally, an association study was performed to validate and quantify the effects of the FecXGR and FecXRA alleles. Significant increased prolificacy of 0.52 ± 0.05, 0.42 ± 0.05 and 0.32 ± 0.01 were found when comparing FecXGR, FecXRA and FecXR heterozygous ewes to wild type homozygous ones. These effects are of the same order of magnitude as the effect of most of other known major genes for prolificacy. Only significant differences between FecXGR and FecXR were found among the three alleles associated with increased prolificacy. However, we cannot confirm the effect of the FecXRA allele at homozygous state because we did not find any homozygous ewes. These results confirm that these three alleles in the BMP15 gene that affect prolificacy co-segregate in Rasa aragonesa sheep.
