That were classified as without Sermorelin web effect on ovarian function, and named as G2, G3, G4, G6 and G7 [14], across the Cambridge, Belclare, Lleyn and HP animals (Table 4). None of these polymorphisms was linked to FecGH as none of the mutations was present in any of the 15 individuals (eight Cambridge, six Belclare and one Lleyn) that were homozygous for this mutation (Table 4); also there were no homozygous 223488-57-1 carriers of any of these point mutations among the set of FecGH/+ individuals (Table 4). Table 1. Incidence of carriers of mutations in BMP15 and GDF9 among selected Lleyn and Hyper-prolific (HP) ewes from commercial flocks.Results GenotypingThe PCR-RFLP genotyping of the original 44 Lleyn sheep led to the identification of 12 heterozygous carriers of FecXG and a single heterozygous carrier of FecGH. No carriers of FecXB were detected in the Lleyn sheep sampled (Table 1). The set of 41 HP ewes included five ewes that were heterozygous for FecXB and one FecGH heterozygote (Table 1); no carriers of FecXG were detected. None of the 124 Finnish Landrace sheep were carriers of FecXG, FecXB or FecGH. Neither were any of these mutations detected among the Texel or Galway sheep tested. Information on the location and breed type of the individual carriers detected among the set of HP ewes is presented in Table 2. Survey of lleyn population. The set of 333 Lleyn rams yielded six carriers of FecXG, nine heterozygous carriers of FecGH and one ram that was homozygous FecGH/FecGH. None of the other known (at the time of the survey) mutations with a major effect on ovulation rate (FecXB, Inverdale (FecXI), Hanna (FecXH), Lacaune (FecXL) and Booroola (FecBB)) was detected in the Lleyn sheep tested. The estimated frequencies for the FecXG and FecGHGroupNumber of sheep Genotype testedFecXG/+Lleyn HP 44 41 12FecXB/+0FecGH/+1doi:10.1371/journal.pone.0053172.tOrigins of BMP15 and GDF9 Mutations in SheepTable 2. Details on heterozygous carriers among Hyper-prolific ewes in commercial flocks.Individual identifier{ E2170616:10 H2351074:5 A1150505:151 X1930375:276{ X1930375:277{ P1371043:Heterozygous carrier of FecXBLocation of flock Fanad, Co. Donegal Caherciveen, Co. Kerry Bunclody, Co. Wexford Collinstown, Co. Westmeath Collinstown, Co. Westmeath Tuam, Co. GalwayBreed description Milford x Texel Cheviot x Texel Suffolk-x Suffolk-x Suffolk-x Suffolk-xLitter size record 3,3,3 2,4 2,3,3,4,4 1,4 2,4 3,3,3,FecXB FecXB FecXB FecXB FecGH{ {National Sheep Identifier. Full sisters from the same flock. doi:10.1371/journal.pone.0053172.tDiscussionFlocks on the Lleyn peninsula were the source of the Lleyn sheep used in the genesis of the Belclare and it is highly likely that the Lleyn ewes that contributed to the Cambridge came from the same locality, since the breed was not widely known in Britain up to 1527786 the late 1970s. This, together with the fact that both mutations are segregating in Lleyn flocks in this locality suggests that the Lleyn was the source 11967625 of these two mutations for both the Cambridge and Belclare breeds. This proposition is consistent with the absence of any difference in the DNA sequence of the relevant coding regions between Belclare, Cambridge and Lleyn carriers. The presence of the FecXB mutation among the set of HP ewes while it was not found in the Lleyn or in any of the other breeds tested suggests that the High Fertility line was the source of this mutation. However, this conclusion must be qualified by the possibility that the carriers may in fact.That were classified as without effect on ovarian function, and named as G2, G3, G4, G6 and G7 [14], across the Cambridge, Belclare, Lleyn and HP animals (Table 4). None of these polymorphisms was linked to FecGH as none of the mutations was present in any of the 15 individuals (eight Cambridge, six Belclare and one Lleyn) that were homozygous for this mutation (Table 4); also there were no homozygous carriers of any of these point mutations among the set of FecGH/+ individuals (Table 4). Table 1. Incidence of carriers of mutations in BMP15 and GDF9 among selected Lleyn and Hyper-prolific (HP) ewes from commercial flocks.Results GenotypingThe PCR-RFLP genotyping of the original 44 Lleyn sheep led to the identification of 12 heterozygous carriers of FecXG and a single heterozygous carrier of FecGH. No carriers of FecXB were detected in the Lleyn sheep sampled (Table 1). The set of 41 HP ewes included five ewes that were heterozygous for FecXB and one FecGH heterozygote (Table 1); no carriers of FecXG were detected. None of the 124 Finnish Landrace sheep were carriers of FecXG, FecXB or FecGH. Neither were any of these mutations detected among the Texel or Galway sheep tested. Information on the location and breed type of the individual carriers detected among the set of HP ewes is presented in Table 2. Survey of lleyn population. The set of 333 Lleyn rams yielded six carriers of FecXG, nine heterozygous carriers of FecGH and one ram that was homozygous FecGH/FecGH. None of the other known (at the time of the survey) mutations with a major effect on ovulation rate (FecXB, Inverdale (FecXI), Hanna (FecXH), Lacaune (FecXL) and Booroola (FecBB)) was detected in the Lleyn sheep tested. The estimated frequencies for the FecXG and FecGHGroupNumber of sheep Genotype testedFecXG/+Lleyn HP 44 41 12FecXB/+0FecGH/+1doi:10.1371/journal.pone.0053172.tOrigins of BMP15 and GDF9 Mutations in SheepTable 2. Details on heterozygous carriers among Hyper-prolific ewes in commercial flocks.Individual identifier{ E2170616:10 H2351074:5 A1150505:151 X1930375:276{ X1930375:277{ P1371043:Heterozygous carrier of FecXBLocation of flock Fanad, Co. Donegal Caherciveen, Co. Kerry Bunclody, Co. Wexford Collinstown, Co. Westmeath Collinstown, Co. Westmeath Tuam, Co. GalwayBreed description Milford x Texel Cheviot x Texel Suffolk-x Suffolk-x Suffolk-x Suffolk-xLitter size record 3,3,3 2,4 2,3,3,4,4 1,4 2,4 3,3,3,FecXB FecXB FecXB FecXB FecGH{ {National Sheep Identifier. Full sisters from the same flock. doi:10.1371/journal.pone.0053172.tDiscussionFlocks on the Lleyn peninsula were the source of the Lleyn sheep used in the genesis of the Belclare and it is highly likely that the Lleyn ewes that contributed to the Cambridge came from the same locality, since the breed was not widely known in Britain up to 1527786 the late 1970s. This, together with the fact that both mutations are segregating in Lleyn flocks in this locality suggests that the Lleyn was the source 11967625 of these two mutations for both the Cambridge and Belclare breeds. This proposition is consistent with the absence of any difference in the DNA sequence of the relevant coding regions between Belclare, Cambridge and Lleyn carriers. The presence of the FecXB mutation among the set of HP ewes while it was not found in the Lleyn or in any of the other breeds tested suggests that the High Fertility line was the source of this mutation. However, this conclusion must be qualified by the possibility that the carriers may in fact.