小尾寒羊高繁殖力候选基因BMP15和GDF 9的研究

以控制Belclare和Cambridge绵羊高繁殖力的骨形态发生蛋白 15 (bonemorphogeneticprotein 15 ,BMP15 )基因和生长分化因子 9(growthdifferentiationfactor 9,GDF9)基因为候选基因 ,采用PCR RFLP技术检测BMP15基因和GDF9基因在高繁殖力绵羊品种 (小尾寒羊、湖羊 )以及低繁殖力绵羊品种 (多赛特羊、特克塞尔羊、德国肉用美利奴羊 )中的单核苷酸多态性 ,同时研究这两个基因对小尾寒羊高繁殖力的影响。结果表明 :在 5个绵羊品种中都没有检测到GDF9基因的G8突变 (C→T) ,也没有检测到BMP15基因的B4突变 (G→T)。高繁殖力的小尾寒羊在BMP15基因编码序列第 718位碱基处发生了与Belclare绵羊和Cambridge绵羊相同的B2突变 (C→T) ,而其余 4个绵羊品种则没有发生这种突变。对于BMP15基因的B2突变 ,在小尾寒羊中检测到AA、AB两种基因型 ,A等位基因频率为 0 734,B等位基因频率为 0 2 6 6。小尾寒羊与其余 4个绵羊品种间B2突变基因型分布差异极显著 (P <0 0 0 1)。突变杂合基因型 (AB)小尾寒羊平均产羔数比野生纯合基因型 (AA)多 0 6 2只 (P <0 0 1)。研究结果表明 ,BMP15B2突变对小尾寒羊高繁殖力影响作用十分明显 ,同时排除了GDF9G8突变和BMP15B4突变影响小尾寒羊高繁殖力的可能性     

小尾寒羊高繁殖力候选基因ESR的研究

利用PCR—SSCP技术对高繁殖力绵羊品种（小尾寒羊、湖羊、德国肉用美利奴羊）和低繁殖力绵羊品种（多赛特羊、萨福克羊）的雌激素受体（estrogen receptor,ESR）基因第一外显子部分序列进行单核苷酸多态性研究。结果表明：小尾寒羊、湖羊和德国肉用美利奴羊中存在3种基因型（AA、BB、AB）,而在多赛特羊和萨福克羊中只存在两种基因型（AA、AB）。统计结果表明：湖羊、德国肉用美利奴羊、小尾寒羊、萨福克羊和多赛特羊A等位基因频率分别为0．672、0．786、0．846、0．857和0．867,B等位基因频率分别为0．328、0．214、0．154、0．143和0．133。测序结果表明：BB型和AA型相比在外显子1第363位发生1处碱基突变（C→G）。独立性检验表明：小尾寒羊和湖羊之间基因型分布差异极显著（P〈0．01）,湖羊和多赛特羊之间基因型分布差异显著（P〈0．05）,其他各个绵羊品种之间基因型分布差异均不显著。A8基因型和BB基因型小尾寒羊产羔数比AA基因型分别多0．51只（P〈0．05）和0．7只（P〈0．05）。研究结果表明：ESR基因可能是控制小尾寒羊多胎性能的一个主效基因或与之存在紧密的遗传连锁。     

FecB基因在9个绵羊品种中的多态性及其与产羔数和羔羊生长发育的相关性

以绵羊BMPR-IB基因为候选基因,应用PCR-RFLP方法通过分析湖羊、夏洛来、陶赛特、萨福克、罗米丽、中国美利奴羊、中国美利奴肉用多胎品系以及陶赛特×中国美利奴羊和萨福克×中国美利奴羊杂交后代共615只个体的FecB基因多态性,以及BMPR-IB基因多态性对产羔数、体尺和体重的影响.结果表明,BMPR-IB基因在不同品种(系)绵羊中共有3种基因型(BB、B+和++),但基因型频率分布在各品种(系)间差异极显著(P<0.01).在湖羊中仅有BB基因型;在中国美利奴肉用多胎品系中BB、B+和++基因型频率分别为51%、30%和19%;而其他品种(系)羊中则仅有++基因型.对中国美利奴羊肉用多胎品系研究,发现BB和B+基因型群体平均产羔数分别为2.8和2.3,显著高于++基因型群体(1.2,P<0.01).在90日龄时,BB和B+基因型群体的体重分别为18.6±3.70 kg和18.0±3.31 kg,显著高于++基因型群体(15.6±2.22kg,P<0.05);此外,90日龄时,BB和B+基因型群体比++基因型群体胸围、胸宽较大(P<0.05);但这些差异在120日龄时消失.另外,我们还发现不同地区群体的第一胎产羔数存在明显差别.这些结果表明,BMPR-IB基因为影响绵羊产羔数的主效基因,并首次证明该基因对后代羔羊出生后生长发育具有加性效应.     

新疆4个绵羊品种内皮型一氧化氮合酶基因第8外显子的PCR-SSCP鉴定

目的:对新疆4个绵羊品种内皮型一氧化氮合酶(eNOS)基因第8外显子的多态性进行鉴定。方法:利用PCR-SSCP和测序的方法对76只中国美利奴羊、51只无角陶赛特羊、57只萨福克羊、37只哈萨克羊共4个绵羊品种进行单核苷酸多态性(SNP)检测,并用生物信息学方法对检测出的SNP进行统计分析。结果:在中国美利奴羊、无角陶赛特羊、萨福克羊、哈萨克羊中共检测到AA、AB、BB等3种基因型,AA基因型的频率分别为0.0526、0.0980、0.1754和0.2973,BB基因型的频率分别为0.6316、0.1961、0.5614和0.1892,AB基因型的频率分别为0.3158、0.7059、0.2632和0.5135。通过测序,在eNOS基因第8外显子上发现了一个新的SNP位点(ss974768653),位于绵羊eNOS基因第8外显子142 bp处(A142G)。结论:中国美利奴羊和哈萨克羊的多态性位点(P0.05)处于Hardy-Weinberg平衡状态,萨福克和无角陶赛特羊的多态性位点(P0.05)不处于Hardy-Weinberg平衡状态。     

优良的BMPR-IB基因型可提高绵羊冷冻胚胎的受胎效果

以控制BooroolaMerino羊高繁殖力的BMPR-IB基因为候选基因,以小尾寒羊及其杂交羊、东北半细毛羊、澳洲美利奴羊、德国肉用美利奴羊、萨福克羊、特克塞尔羊、夏洛莱羊为试验对象,采用PCR-限制性片段长度多态性(PCR-RFLP)方法进行基因单核苷酸多态性(SNP)检测和基因型分析,同时研究基因对高繁殖力的影响.研究结果表明:小尾寒羊及其杂交羊、东北半细毛羊和夏洛莱羊群体中发现了与BooroolaMerino羊相同的A746G碱基突变,而小尾寒羊及其杂交羊群体的B等位基因频率明显高于其他2个品种.另外4个品种中未发现此突变.携带B等位基因的群体较非携带B等位基因群体排出更多的卵子,排卵后黄体直径较小.移植入冷冻胚胎后, 、B 和BB3种基因型群体的妊娠率分别为38.78%、45.71%和66.67%.由此推断,BMPR-IB基因突变很有可能从增加卵巢排卵数和提高胚胎着床及妊娠建立效率两个方面同时影响绵羊高繁殖力性状.所得BB型群体冻胚移植妊娠率明显高于 和B 型群体,已接近鲜胚移植水平,通过PCR-RFLP方法进行基因型分析,选用合适基因型群体作为胚胎移植受体,有可能为提高绵羊胚胎移植受胎率提供新的方向.     

绵羊GDF9基因PCR-SSCP分析

生长分化因子9（GDF9）是由卵母细胞分泌的一种生长因子,它对早期卵泡的生长和分化起重要的调节作用。采用PCR－SSCP技术分析了GDF9基因在小尾寒羊、湖羊、多赛特羊和萨福克羊4个绵羊品种的多态性。结果表明：GDF9基因在两对引物扩增片段中均存在PCR－SSCP多态性。对于引物1扩增片段,4个绵羊品种均检测到AA基因型,AB基因型只出现在湖羊、多赛特羊和萨福克羊中,仅在萨福克羊中检测到BB基因型;在4个绵羊品种中,A等位基因频率明显高于B等位基因频率。对于引物2扩增片段,4个绵羊品种均检测到AA基因型,AB基因型只出现在湖羊、多赛特羊和萨福克羊中,4个绵羊品种均没有检测到BB基因型;在4个绵羊品种中,AA基因型频率最高,A等位基因频率明显高于B等位基因频率。引物1的多态性片段测序分析表明：位于GDF9基因cDNA第152处发生了单碱基的改变（A→G）,并导致了氨基酸的改变（天冬酰胺→天冬氨酸）。     

BMPR-IB和BMP15基因作为小尾寒羊多胎性能候选基因的研究

以控制BooroolaMerino羊多胎性能的BMPR IB基因 ,以及影响Invedale和Hanna羊排卵数的BMP15基因作为候选基因 ,从分子水平上对小尾寒羊的多胎机制进行研究 ,分析突变位点的特性 ,并通过大规模的群体检测统计推断其遗传效应。实验结果表明 :多胎品种小尾寒羊在BMPR IB基因的相应位置上发生了与BooroolaMerino羊相同的突变 (A74 6G) ,该基因的BB基因型在小尾寒羊群体内为优势基因型 ,且小尾寒羊初产和经产母羊的BB基因型比 ++基因型分别多产 0 97羔 (P <0 0 5 )和 1 5羔 (P <0 0 1) ,推测BMPR IB基因与控制小尾寒羊多胎性能的主效基因存在紧密的遗传连锁。而BMP15基因在小尾寒羊中不存在V31D或Q2 3Ter突变 ,说明小尾寒羊的多胎遗传机制与Romney羊不同 ,因此排除了BMP15突变影响小尾寒羊排卵数的可能性。     

贵州白山羊Bmp15和Gdf9基因多态性及其编码蛋白的进化分析(英文)

BMP15和GDF9是转化生长因子β（TGFβ）超家族的成员,对绵羊的繁殖性状有直接的调节作用,从中发现的多个高产突变位点直接提高了排卵数和产羔数。在之前的研究中,作者从贵州白山羊中找到了一个高产突变位点。为了进一步揭示Bmp15和Gdf9基因突变与繁殖性状之间的关系,对贵州白山羊Bmp15和Gdf9基因编码区进行了克隆,以人BMP7的晶体结构为模板构建了贵州白山羊BMP15和GDF9成熟肽的三维模型。贵州白山羊Bmp15和Gdf9基因分别编码394和453个氨基酸的蛋白前体。对BMP15和GDF9成熟肽序列进行分析发现,除了之前确认的BMP15中的FecX^B 突变（S99I）和GDF9中的V79I突变之外,还从贵州白山羊的BMP15和GDF9成熟肽分别发现7个和3个位点突变。其中,BMP15成熟肽的S32G、N66H、S99I/P99I和G107R突变可能影响二聚体与受体的结合;GDF9成熟肽的P78Q和V79I影响二聚体与I型受体的亲和力,将值得进一步深入研究。对Bmp15和Gdf9基因编码的蛋白前体序列进行聚类分析,结果显示在鱼类到哺乳类的进化过程中,BMP15出现长度逐渐增加的现象,以BMP15成熟肽N端长度增加为主。这种演变可能使BMP15对低排卵哺乳动物繁殖力的控制更为灵敏。该文的研究结果为贵州白山羊Bmp15和Gdf9基因变异与繁殖力的关系提出了合理的解释,并支持这两个因子是贵州白山羊高产性状重要调节因子的观点。     

新疆地区绵羊品种朊蛋白基因136、154和171位点的多态性

绵羊痒病是一种渐进性和致死性中枢神经系统疾病,绵羊朊蛋白基因(Prion protein gene,PRNP)多态性与痒病的易感或抗性有关,其中PRNP136位(V/A)、154位(H/R)和171位(H/Q/R)的基因多态性与该病发生最相关。为评价新疆地区主要绵羊品种对痒病的易感性,文章对新疆地区10个绵羊品种(阿勒泰、巴士拜、巴音布鲁克、多浪、和田、策勒黑、中国美利奴、德国肉用美利奴、特克赛尔和萨福克羊)共746只个体PRNP基因的136位(V/A)、154位(H/R)和171位(H/Q/R)的遗传多态性进行分析,检测到了ARQ、ARR、ARH、ARK、VRQ、AHR、AHQ、AHH8种等位基因,其中ARQ和ARR等位基因存在于所有品种中,且ARQ在所有品种中的基因频率最高。ARH存在于除萨福克和德国肉用美利奴羊外的8个绵羊品种中。仅在新疆地方品种阿勒泰、巴音布鲁克、巴士拜和多浪羊中检测到ARK等位基因。而VRQ、AHR、AHQ和AHH4种等位基因只在中国美利奴羊上存在,且频率极低。在10个品种中共检测到了ARQ/ARQ、ARQ/ARK、ARR/ARR、ARH/ARH、ARQ/ARR、ARH/ARQ、ARH/ARR、ARK/ARK、ARH/ARK、ARQ/VRQ、ARQ/AHQ、ARQ/AHR和ARH/AHH13种基因型,其中中度易感的ARQ/ARQ基因型频率最高,而抗性最强的ARR/ARR基因型仅存在于巴音布鲁克、策勒黑、中国美利奴、特克赛尔和德国肉用美利奴羊,且频率较低。文章首次在中国美利奴羊上发现了易感性很强的VRQ/ARQ基因型。上述结果提示新疆的主要绵羊品种对痒病的抗性较弱。     

单碱基编辑系统介导欧拉藏绵羊GDF9、FecB多胎基因的定点突变

本研究旨在利用单碱基编辑系统(single base editing system)实现欧拉藏绵羊成纤维细胞FecB和GDF9基因靶位点A到G和C到T的碱基替换并检测其编辑效率。首先设计合成靶向欧拉藏绵羊FecB和GDF9基因的sgRNA序列,再分别连接至epi-ABEmax、epi-BE4max质粒,构建载体并电转至欧拉藏绵羊成纤维细胞,最后对阳性细胞FecB和GDF9基因进行Sanger测序鉴定靶位点突变结果,并通过T-A克隆估算单碱基编辑系统的编辑效率。结果显示获得了靶向欧拉藏绵羊FecB和GDF9基因的sgRNA,并构建使欧拉藏绵羊FecB和GDF9基因单碱基突变的载体,FecB基因靶位点编辑效率为39.13%,GDF9基因靶位点(G260、G721、G1184)编辑效率分别为10.52%、26.67%和8.00%。本研究运用单碱基编辑系统在欧拉藏绵羊成纤维细胞上实现了FecB和GDF9基因靶位点突变,为改良欧拉藏绵羊一胎多羔的繁殖性状奠定理论基础。     

Polymorphism of 5′ regulatory region of ovine FSHR gene and its association with litter size in Small Tail Han sheep

Single nucleotide polymorphisms of 5?? regulatory region of follicle-stimulating hormone receptor (FSHR) gene were detected in two high prolificacy sheep breeds (Small Tail Han and Hu sheep) and two low prolificacy sheep breeds (Corriedale and Chinese Merino sheep) by polymerase chain reaction-single strand conformation polymorphism (PCR-SSCP). The results indicated that there were three genotypes (AA, AB and BB) detected by primer 1 in Hu sheep while only one genotype (AA) in other three sheep breeds, and frequencies of AA, AB and BB genotypes in Hu sheep were 0.700, 0.225 and 0.075, respectively. There were three genotypes (EE, EF and EG) detected by primer 3 in Small Tail Han sheep while only EE genotype occurred in other three sheep breeds, and frequencies of EE, EF and EG genotypes in Small Tail Han sheep were 0.775, 0.200 and 0.025, respectively. No polymorphism was detected in four sheep breeds by primer 2 and primer 4. The sequencing results showed that there were two nucleotide mutations (g. ?681T>C and g. ?629C>T) in genotype BB compared with AA for primer 1. As for primer 3, two mutations (g. ?197G>A and g. ?98T>C) in genotype EF compared with EE and two mutations (g. ?200G>A and g. ?197G>A) in genotype EG compared with EE. The heterozygous ewes with EG or EF had 0.89 (P?<?0.05) or 0.42 (P?<?0.05) lambs more than homozygous ewes (EE genotype) in Small Tail Han sheep, respectively, while there was no significant difference on litter size between EG and EF ewes.     

Polymorphisms of coding region of BMPR-IB gene and their relationship with litter size in sheep

The bone morphogenetic protein receptor IB (BMPR-IB) was studied as a candidate gene for the prolificacy of sheep. Nine pairs of primers (P1-P9) were designed to detect single nucleotide polymorphisms (SNPs) of exons 1-4 and 6-10 of the BMPR-IB gene in both high (Small Tail Han and Hu sheep) and low prolificacy breeds (Texel and Chinese Merino sheep) by polymerase chain reaction (PCR)-single strand conformation polymorphism (SSCP). Only the products amplified by primers P2, P5, P6, P7, P8 and P9 displayed polymorphisms. The present study identified 22 SNPs in partial coding regions of ovine BMPR-IB, in which 20 SNPs were reported for the first time. In total of the 22 mutations, 18 DNA variations were originated from the Hu breed, three were found in the Small Tail Han breed (two of them were found in other sheep breeds), three in the Chinese Merino breed, and none in the Texel breed. These results preliminarily demonstrated that BMPR-IB is a major gene affecting the hyperprolificacy in Small Tail Han and Hu sheep, and could be used as a molecular genetic marker for early auxiliary selection for hyperprolificacy in sheep.     

Polymorphism of FecB gene in nine sheep breeds or strains and its effects on litter size, lamb growth and development

Nine sheep breeds or strains, including 615 individuals were screened with forced PCR RFLP method for the FecB gene to study the polymorphism and its effects on litter sizes, body weights and body sizes. Results show that the polymorphism frequencies of FecB gene are significantly imbalanced in these breeds or strains. The Hu sheep were all homozygous carriers (BB). In the Chinese Merino prolific meat strain, the genotype frequencies of BB, B+ and ++ are 51%, 30% and 19%, respectively, whereas all the other flocks had only the wild-type (++) genotype. Results within Chinese Merino prolific meat strain showed that mean litter sizes of ewes with genotype BB and B+ are 2.8 (+/-0.74) and 2.3 (+/-0.63) (P > 0.05), whereas ++ ewes had a litter size of only 1.2 (+/-0.68) (P < 0.01). At 90 days after birth, the body weights of BB/B+ lambs were higher than that of ++ lambs (18.6 +/- 3.70 kg, 18.0 +/- 3.71 kg versus 15.6 +/- 2.22 kg, P < 0.05). In addition, the heart girth and chest width of BB/B+ lambs were significantly longer than ++ lambs (P < 0.05). No significant differences were observed in either body weight or body size at day 120. Litter size at first lambing from Hu at Natural Source Conservative Region was found to be significantly higher than that from the other two regions sampled (P < 0.05). In addition to the additive effect on litter size, these findings show for the first time that the FecB gene had a positive effect on early postnatal body growth.     

Investigation of the Booroola (FecB) and Inverdale (FecX(I)) mutations in 21 prolific breeds and strains of sheep sampled in 13 countries

Twenty-one of the world's prolific sheep breeds and strains were tested for the presence of the FecB mutation of BMPR1B and the FecX(I) mutation of BMP15. The breeds studied were Romanov (2 strains), Finn (2 strains), East Friesian, Teeswater, Blueface Leicester, Hu, Han, D'Man, Chios, Mountain Sheep (three breeds), German Whiteheaded Mutton, Lleyn, Loa, Galician, Barbados Blackbelly (pure and crossbred) and St. Croix. The FecB mutation was found in two breeds, Hu and Han from China, but not in any of the other breeds. The 12 Hu sheep sampled were all homozygous carriers of FecB (FecB(B)/FecB(B)) whereas the sample of 12 Han sheep included all three genotypes (FecB(B)/FecB(B), FecB(B)/FecB+, FecB+/FecB+) at frequencies of 0.33, 0.58 and 0.08, respectively. There was no evidence of FecX(I) in any of the breeds sampled.     

绵羊微卫星BMS2508和FecB基因的多态及连锁分析

文章分析与绵羊高繁殖力主效基因FecB紧密连锁的微卫星座位BMS2508在高繁殖力绵羊品种(小尾寒羊)和低繁殖力绵羊品种(特克塞尔、多赛特和中国美利奴)中的遗传多态性, 同时探讨该微卫星座位与小尾寒羊FecB基因的连锁不平衡关系。高繁殖力品种小尾寒羊在骨形态发生蛋白受体IB(Bone morphogenetic protein receptor IB, BMPR-IB)基因编码序列第746位碱基处发生了与Booroola Merino绵羊相同的FecB突变(A746G), 而在低繁殖力的特克塞尔、多赛特和中国美利奴绵羊中没有检测到该突变; 小尾寒羊BB、B+、++的基因型频率分别为0.485、0.398和0.117。微卫星座位BMS2508在4个绵羊品种的438个个体中共检测到8个等位基因和15种基因型, 最小等位基因为94 bp, 最大等位基因为116 bp; 小尾寒羊(n = 307)、特克塞尔(n = 45)、多赛特(n = 46)、中国美利奴(n = 40)和BB型(n = 149)、B+型(n = 122)、++型(n = 36)小尾寒羊群体中优势等位基因分别是100 bp、94 bp、94 bp、112 bp、100 bp、100 bp、112 bp, 其频率分别为0.453、0.544、0.802、0.475、0.483、0.439、0.389。连锁不平衡分析显示小尾寒羊FecB基因B等位基因与BMS2508微卫星座位100 bp等位基因之间存在一定的连锁不平衡(D′=0.408), 而+等位基因与BMS2508微卫星座位110 bp和114b p等位基因均存在一定的连锁不平衡(D′=0.513)。     

Polymorphisms of KiSS-1 and GPR54 genes and their relationships with litter size in sheep

The KiSS-1 and GPR54 genes were studied as candidate genes for the prolificacy in sheep. Four pairs of primers were designed to detect single nucleotide polymorphisms of exon 1 of KiSS-1 gene and exon 1, exon 2 and partial exon 5 of GPR54 gene in high fecundity breeds (Small Tail Han and Hu sheep) and low fecundity breeds (Dorset, Texel and Corriedale sheep) by PCR-SSCP. Polymorphisms in exon 1 of KiSS-1 gene were detected in prolific Small Tail Han sheep (AA, AB and BB genotypes) and Hu sheep (AA and CC genotypes), no polymorphism was found in low fecundity sheep breeds (only AA genotype). Polymorphisms in exon 2 of GPR54 gene were detected in prolific Hu sheep (DD and EE genotypes) and no polymorphism was found in prolific Small Tail Han sheep and low fecundity sheep breeds (only DD genotype). No polymorphism was detected in exon 1 and partial exon 5 of GPR54 gene in five sheep breeds. The polymorphic genotypes were sequenced. While compared the BB genotype with the AA genotype, one nucleotide mutation (G1035A) was detected, which resulted in amino acid change, Val25Met. Five nucleotide mutations were detected from AA to CC genotype (C981T, C996T, T997C, C1034G, C1039T), and among them four caused amino acid changes, that is, Arg7Trp, Phe12Leu, Asn24Lys, Ala26Val. While compared the EE genotype with the DD genotype, two nucleotide mutations (T2360C, A2411C) were detected, which gave rise to amino acid changes, Met90Thr and Asp107Ala, respectively. Genotype frequencies of AA, BB and AB were 0.62, 0.05 and 0.33 in Small Tail Han sheep, respectively. The Small Tail Han sheep ewes with genotype BB or AB had 0.88 (P?<?0.05) or 0.51 (P?<?0.05) lambs more than those with genotype AA; the Small Tail Han sheep ewes with genotype BB had 0.37 (P?>?0.05) lambs more than those with genotype AB. These results preliminarily indicated that the KiSS-1 gene may have some association with prolificacy in sheep.     

Polymorphism of FecB Gene in Nine Sheep Breeds or Strains and Its Effects on Litter Size, Lamb Growth and Development

Nine sheep breeds or strains, including 615 individuals were screened with forced PCR RFLP method for the FecB gene to study the polymorphism and its effects on litter size, body weight and body size. Results showed that the polymorphism frequencies of FecB gene were significantly imbalanced in these breeds or strains. The Hu sheep were all homozygous carriers of FecB gene(BB). In the Chinese Merino prolific meat strain, the genotype frequencies of BB, B+ and ++ were 51%, 30% and 19%, respectively, whereas all the other flocks had only the wild-type (++) genotype. Results within the Chinese Merino prolific meat strain showed that the mean litter size of ewes with genotype BB and B+ were 2.8 (±0.74) and 2.3 (±0.63) (P<0.05). whereas ++ genotype ewes had a litter size of only 1.2 (±0.68) (P<0.01). At day 90 after birth, the body weights of BB/B+ genotype lambs were higher than that of ++ genotype lambs (18.6±3.70 kg. 18.0±3.71 kg vs 15.6±2.22 kg, P<0.05). In addition, the heart girth and chest width of BB/B+ genotype lambs were significantly longer than those of the ++ lambs (P<0.05). No significant differences were observed in either body weight or body size at day 120. Litter size at first lambing from Hu at Natural Source Conservative Region was found to be significantly higher than that from the other two regions sampled (P<0.05). In addition to the additive effect on litter size, these findings showed for the first time that the FecB gene had a positive effect on early postnatal body growth.