TY  - JOUR
T1  - Polymorphic Study of FecX<SUP>G</SUP>, FecG<SUP>H </SUP>and Fec<SUP>B</SUP> Mutations in Four Domestic Sheep Breeds in the Lower Yellow River Valley of China
AU - Gong, Yuan-Fang AU - Zhang, Chuan-Sheng AU - Liu, Zheng-Zhu AU - Geng, Li-Ying AU - DU, Li-Xin AU - Feng, Min-Shan AU - Fu, Zhi-Xin 
JO  - Journal of Animal and Veterinary Advances
VL  - 10
IS  - 17
SP  - 2198
EP  - 2201
PY  - 2011
DA  - 2001/08/19
SN  - 1680-5593
DO  - javaa.2011.2198.2201
UR  - https://makhillpublications.co/view-article.php?doi=javaa.2011.2198.2201
KW  - FecGH
KW  -China
KW  -mutation
KW  -prolificacy
KW  -sheep
KW  -FecB
KW  -FecXG
AB  - Genetic mutations with major effects on ovulation rate in sheep were recently identified in two genes of the Transforming Growth Factor (TGF<SUB>&#946;</SUB>) superfamily and a TGF<SUB>&#946;</SUB> receptor, namely BMP15, GDF9 and BMPRIB. The FecX<SUP>G</SUP>, FecG<SUP>H </SUP>and Fec<SUP>B </SUP>were performed to screen four sheep breeds (small tailed Han, Wadi, big tailed Han and Shandi sheep) distributed along the lower Yellow river valley of China by forced PCR-RFLP method if these genes are responsible for their high prolificacies. The Fec<SUP>B</SUP> mutation was found in small tailed Han and Wadi sheep but absent in big tailed Han and Shandi sheep. The 154 small tailed Han sheep included all three genotypes (Fec<SUP>B</SUP>/Fec<SUP>B</SUP>, Fec<SUP>B</SUP>/Fec<SUP>+ </SUP>and Fec<SUP>+</SUP>/Fec<SUP>+</SUP>) at frequencies of 0.54, 0.40 and 0.06, respectively whereas the samples of 30 Wadi sheep were only detected two genotypes, 4 were heterozygous Fec<SUP>B</SUP>/Fec<SUP>+</SUP> and 26 Fec<SUP>+</SUP>/Fec<SUP>+</SUP>. The frequency of the Fec<SUP>B</SUP> allele in small tailed Han and Wadi sheep were 0.74 and 0.07, respectively. Results indicated that the Fec<SUP>B</SUP> mutation is not fixed in two sheep population. The same FecX<SUP>G</SUP> mutation of the <I>BMP-15</I> gene was only found in small tailed Han ewes as in Belclare and Cambridge ewes, frequencies of genotypes FecX<SUP>G+</SUP>, FecX <SUP>++</SUP> and FecX<SUP>GG</SUP> were 0.70, 0.27 and 0.03, respectively. There was no evidence of FecG<SUP>H</SUP> in any of the breeds sampled. The discovery of the Fec<SUP>B</SUP> mutation in small tailed Han sheep and Wadi sheep will facilitate the use of Fec<SUP>B</SUP> allele in improving the prolificacy of non-prolific sheep breeds of China.
ER  - 