用4个微卫星标记分析7个绵羊群体之间的遗传关系

分析了4个微卫星基因座BM143、OarHH35、OarAE101、BMS2508在7个绵羊群体（小尾寒羊、湖羊、乌珠穆沁羊、萨福克羊、多赛特羊、夏洛来羊、多赛特公羊×小尾寒羊母羊F1代杂种羊）286只绵羊中的遗传多态性。结果表明,这4个微卫星标记在7个绵羊群体中的等位基因数分别为9、11、14和9,其多态信息含量/有效等位基因数/杂合度分别为0.7073/3.7231/0.7314、0.8267/6.4399/0.8447、0.5743/2.5178/0.6028、0.6172/3.0712/0.6744,其中OarHH35的遗传变异最大,OarAE101最小。7个绵羊群体中小尾寒羊的遗传变异最大,湖羊的最小。基于Nei氏DA距离和DS标准遗传距离,采用UPGMA方法构建了系统发生树。该发生树将中国地方品种（小尾寒羊、乌珠穆沁羊、湖羊）和法国的夏洛来羊归为一类,将F1杂种羊、英国品种（萨福克羊和多赛特羊）归为另一类。绵羊微卫星基因分型技术为检查品种（群体）之间的遗传关系提供了一个有用的工具。 Abstract：The genetic polymorphisms of four microsatellite loci BM143,OarHH35,OarAE101,and BMS2508 were analyzed in 286 sheep of seven sheep populations (Small Tail Han sheep, Hu sheep, Ujumqin sheep, Suffolk sheep, Dorset sheep, Charolais sheep, F1 of Dorset♂ × Small Tail Han sheep♀). The numbers of alleles for BM143,OarHH35,OarAE101,and BMS2508 are 9, 11, 14 and 9 in seven sheep populations, respectively. The polymorphism information content/number of effective alleles/ heterozygosity of BM143,OarHH35,OarAE101 and BMS2508 were 0.7073/3.7231/0.7314, 0.8267/6.4399/0.8447,0.5743/2.5178/0.6028,0.6172/3.0712/0.6744 in 286 sheep, respectively. The results revealed the greatest genetic variation at OarHH35 locus and the lowest at OarAE101, the greatest genetic variation in Small Tail Han sheep and the lowest in Hu sheep among seven sheep populations. In the unweighted pair group method with arithmetic mean (UPGMA) dendrograms based on Nei's DA distance and Nei's DS standard genetic distance, the Chinese native breeds (Small Tail Han sheep, Ujumqin sheep, Hu sheep) were grouped together, then with Charolais sheep. The F1 crossbred sheep, and the two British native sheep (Suffolk sheep, Dorset sheep) also clustered together. Microsatellite genotyping in sheep provided a useful tool for examining the genetic relationships among breeds(populations).     

微卫星标记OarAE101和BM1329承五个绵羊品种中的初步研究

选择与Booroola羊高繁殖力主效基因FecB紧密连锁的两个微卫星标记OarAE101和BM1329,分析其在小尾寒羊、湖羊、夏洛来羊、乌珠穆沁羊、多赛特羊和多赛特公羊×小尾寒羊母羊杂一代中的多态分布情况.结果表明微卫星标记OarAE101在5个绵羊品种中的等位基因数为5或4,BM1329在5个绵羊品种中的等位基因数均为4,OarAE101/BM1329在小尾寒羊、湖羊、夏洛来羊、乌珠穆沁羊、多赛特羊和多赛特公羊×小尾寒羊母羊杂一代中的多态信息含量值分别为0.57/0.54、0.62/0.67、0.61/0.59、0.62/0.66、0.56/0.67和0.62/0.68.小尾寒羊OarAE101基因型为107bp/113bp所对应的产羔数最小二乘平均值显著高于基因型为109bp/109bp和107bp/111bp所对应的最小二乘平均值(P＜0.05),产羔数最小二乘平均值在OarAE101其余基因型之间没有显著差异;OarAE101等位基因107bp与小尾寒羊产羔数有显著正相关,109bp和111bp与小尾寒羊产羔数有显著负相关.小尾寒羊BM1329基因型为146bp/158bp所对应的产羔数最小二乘平均值都显著高于其余3种基因型所对应的最小二乘平均值(P＜0.05),产羔数最小二乘平均值在BM1329其余3种基因型之间没有显著差异;BM1329等位基因146bp与小尾寒羊产羔数有显著正相关,148bp与小尾寒羊产羔数有显著负相关.     

小尾寒羊4个微卫星座位的克隆及序列分析

小尾寒羊是我国优良的地方绵羊品种 ,具有极高的繁殖力 ,平均每胎产羔 2 6只。利用与Booroola绵羊高繁殖力主效基因 FecB连锁的 4个微卫星座位 OarAE10 1、OarHH35、BM14 3和BMS2 5 0 8对小尾寒羊、多赛特羊、多赛特公羊×小尾寒羊母羊杂一代羔羊 3个绵羊群体 15 9只绵羊进行了遗传检测 ,证实了微卫星DNA的共显性遗传特性。用非变性 (中性 )聚丙烯酰胺凝胶电泳检测微卫星的PCR扩增产物。对小尾寒羊 4个微卫星座位 6个克隆的PCR扩增片段测序获得的序列已被GenBank接受 ,登录号分别为AF394 4 4 5、AF394 4 4 6、AF394 4 4 7、AF394 4 4 8、AF394 4 4 9、AF394 4 5 0。本研究中小尾寒羊微卫星OarAE10 1的测序结果与GenBank登录的绵羊OarAE10 1序列的同源性为 98% ,小尾寒羊微卫星OarHH35的测序结果与GenBank登录的绵羊OarHH35序列的同源性为 99% ,小尾寒羊微卫星BM14 3的测序结果与GenBank登录的牛BM14 3序列的同源性为 95 % ,小尾寒羊微卫星BMS2 5 0 8的测序结果与GenBank登录的牛BMS2 5 0 8序列的同源性为 95 %。测得的小尾寒羊微卫星OarAE10 1、OarHH35、BM14 3和BMS2 5 0 8均为完全的微卫星 (TG) n。这些结果可为小尾寒羊种质特性研究提供分子基础数据     

绵羊线粒体DNA控制区5′端序列PCR-SSCP与序列分析

通过绵羊线粒体DNA控制区左功能域（5′端序列）PCR-SSCP和序列分析,发现小尾寒羊、乌珠穆沁羊、湖羊、萨福克羊和夏洛来羊以及多赛特公羊与小尾寒羊杂交家系共202只绵羊可归纳为两种类型：突变型和野生型,提示现代绵羊品种在起源上存在两种主要的进化途径。     

采用6个微卫星位点研究6个绵羊品种遗传多样性

利用6个微卫星座位对中国乌珠穆沁羊、小尾寒羊、滩羊、昭通绵羊、呼伦贝尔羊和甘肃高山细毛羊6个绵羊品种,共计280个个体进行遗传多样性分析。计算了6个绵羊品种间的多态信息含量、杂合度和遗传距离,并进行了主成分分析和UPGMA聚类。发现了101个等位基因,平均杂合度0.599-0.691,平均多态信息含量0.609-0.680;甘肃高山细毛羊与其他绵羊品种遗传分歧最大,而呼伦贝尔羊与乌珠穆沁羊间的分歧最小。结果表明6个绵羊品种均具有较高的遗传多样性,品种间的遗传关系与其形成历史、分化及地理分布基本一致。     

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。     

绵羊线粒体DNA控制区5‘端序列PCR—SSCP与序列分析

通过绵羊线粒体DNA控制区功能域（5‘端序列）PCR－SSCP和序列分析,发现小尾羊、乌珠穆沁羊、湖羊、萨福克羊和夏洛来羊以及多赛特公羊与尾寒羊杂交家系共202只绵羊可归纳为两种类型,突变型和野生型,提示现代绵羊品种在起源上存在两种主要的进化途径。     

我国蒙古羊系统不同生态型绵羊品种遗传多样性及距离隔离机制的研究

以我国主要地方绵羊品种湖羊、同羊、小尾寒羊、滩羊和洼地绵羊为研究对象,检测位于不同染色体的微卫星位点的基因频率分布,进行比较分析.结果表明 1) 就本研究涉及的微卫星标记而言,湖羊处于Hardy-Weinberg极不平衡状态 (P ＜ 0.01),而其余群体包括同羊、小尾寒羊、滩羊和洼地绵羊却处于Hardy-Weinberg平衡 (P ＜ 0.05).2) 就本研究涉及的微卫星标记而言,平均杂合度、多型信息含量和有效等位基因数三个遗传变异指标的方差分析表明不同群体间杂合度、多型信息含量均不存在显著差异 (P ＞ 0.05),有效等位基因数遗传变异指标在、滩羊、湖羊、同羊和洼地羊相互之间以及洼地羊与小尾寒羊之间亦差异不显著(P ＞ 0.05),但是有效等位基因数在前3个群体与后2个群体之间存在显著差异 (0.01 ＜ P ＜ 0.05).5个绵羊群体的变异水平以小尾寒羊最高,其次为洼地绵羊、同羊和滩羊,最低的是湖羊.3) 本研究涉及的我国蒙古羊系统内5个绵羊群体间的系统发生关系不满足距离隔离模式,绵羊群体间的遗传分化关系的远近与其地理分布并未表现出紧密的线性相关.这与5个绵羊起源于不同时期的蒙古羊始祖群体,同时在品种间存在一定程度的基因交流,并在各自特有的生态环境中经历不同程度的自然选择和人为选择品种培育史实相符.     

我国主要地方绵羊品种随机扩增多态DNA研究

对蒙古羊、湖羊、滩羊、小尾寒羊、乌珠穆沁羊、藏绵羊、阿勒泰羊7个地方绵羊品种和无角陶赛特羊、德国美利奴羊、萨福克羊3个引入品种基因组DNA进行了RAPD分析。结果表明：（1）RAPD可作为一种有效的标记用于绵羊品种之间遗传亲缘关系的分析。（2）在所使用的43种随机引物中,有35种引物扩增出多态谱带,多态频率为66.24%,说明RAPD技术用于研究绵羊核DNA的遗传变异具有较高的检出率和灵敏度。（3）总群体平均遗传多样性指数（HSP)为0.9139,说明绵羊群体具有较为丰富的遗传多样性。（4）我国地方绵羊品种间的分子聚类关系与其所处的地理位置、考古学结果,以及细胞遗传学研究结果基本,引入品种间的分子聚类关系也与其育成史基本一致。     

中国7个地方绵羊品遗传多样性的微卫星分析

利用26个微卫星标记分析了中国7个地方绵羊（Ovis aries）品种的遗传多样性。通过计算基因频率,平均杂合度（H）、多态信息含量（PIC）及有效等位基因数（Ne）,并根据Nei氏标准遗传距离,利用UPGMA法进行了聚类分析,评估其种内遗传变异和品种间遗传关系。结果表明：26个微卫星位点共检测到278个等位基因,Ne在2.1288-13.3924之间;26个位点均为高度多态位点,PIC在0.6628-0.8712之间,聚类分析表明哈萨克羊、阿勒泰羊和巴音布鲁克羊遗传关系最近;然后与白藏羊,黑藏羊聚为一类,湖羊和晋中羊聚为一类,各绵羊各种的聚类关系与其来源,育成史及地理分布基本一致。     

小尾寒羊五个微卫星基因座遗传多态性研究

小尾寒羊是我国优良的地方绵羊品种,具有极高的繁殖力,平均每胎产羔2．6只。利用与绵羊高繁殖力主效基因Fec^B和FecX^1连锁的5个微卫星标记（OarAE101,BM1329,BMS2508,TGLA54t TGLA68)对244小尾寒羊母羊进行了遗传检测。用非变性（中性）聚丙烯酰胺凝胶电泳检测同卫星的PCR扩增产物,计算了5个同卫星基因座的等位基因频率,多态信息含量,基因纯合度和杂合度。在小尾寒羊中检测到BM1329有6个等位基因,片段大小为160－180bp,164bp等位基因频率最高（0．6320）;检测到OarAE101有9个等位基因,片段大小为97－135bp,97bp等位基因频率最高（0．7930）;检测到TGLA54有5个等位基因,片段大小为116－136bp,134bp等位基因频率最高（0．8500）;检测到TGLA68有2个等位基因,片段大小为98－100bp,2个等位基因频率相近,检测到BMS2508有6个等位基因,片段大小为93－115bp,99bp等位基因频率最高（0．4795）。BM1329,OarAE101,TGLA54,TGLA68,BMS2508的多态信息含量／基因纯合度／杂合度分别为0．4481／0．4840．0．5160,0．3516／0．6375／0．3625,0．2528／0．7326／0．2674,0．3733／0．5034／0．4966,0．5809／0．3581／0．6419。可见BMS2508的遗传变异最大,TGLA54的遗传变异最小。这些结果可为小尾寒羊种质特性研究提供分子基础数据。     

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)。     

绵羊GDF9和BMP15基因多态性检测

以绵羊GDF9基因FecG^H突变和BMP15基因FecX^B和FecX^G突变为候选基因,采用PCR—RFLP方法研究其在湖羊、夏洛来、陶赛特、萨福克、中国美利奴肉用多胎品系、中国美利奴羊和罗米丽羊7个品种中的多态性．结果发现,湖羊群体中存在GDF和BMP15基因的FecG^H和FecX^B突变,但发生率极低,分别为0．645％(2／310)和0．968％(3／310)：而其它品种中则没有发现GDF9和BMP15基因的相应突变．这一发现对于建立绵羊基因标记辅助选择方法具有重要意义．     

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.     

GDF9 as a candidate gene for prolificacy of Small Tail Han sheep

Growth differentiation factor 9 (GDF9) which controls the fecundity of Belclare, Cambridge, Santa Ines, Moghani, Ghezel and Thoka ewes was studied as a candidate gene for the prolificacy of Small Tail Han sheep. According to the sequence of ovine GDF9 gene, six pairs of primers were designed to detect single nucleotide polymorphisms of two exons of GDF9 gene in both high fecundity breed (Small Tail Han sheep) and low fecundity breed (Dorset sheep) by polymerase chain reaction-single strand conformation polymorphism (PCR-SSCP). Only the products amplified by primers 2-1 and 2-2 displayed polymorphisms. For primer 2-1, three genotypes (AA, AB and BB) were detected in both sheep breeds. Sequencing revealed one silent mutation (G477A) in exon 2 of GDF9 gene in the BB genotype in comparison with the AA, which was known as G3 mutation of GDF9 gene in Belclare and Cambridge ewes. The relationship of least squares means for litter size was AA?>?AB?>?BB in Small Tail Han sheep (P?>?0.05). For primer 2-2, two genotypes (CC and CD) were detected in both sheep breeds. Sequencing revealed one novel single nucleotide mutation (G729T) in exon 2 of GDF9 gene in the CD genotype in comparison with the CC, which resulted in an amino acid change (Gln243His). The ewes with mutation heterozygous genotype CD had 0.77 (P?相似文献   

Predictive potential of microsatellite markers on heterosis of fecundity in crossbred sheep

Small Tail Han (STH) sheep is a famous Chinese local breed and has perfect prolificacy performance, but it is inferior to imported mutton sheep breeds on meat production. In this study, six imported male sheep populations (White Suffolk, Black Suffolk, Texel, Dorper, South African Mutton Merino and East Friesian) were crossbred with STH female sheep respectively. The heterosis values of litter size, average daily gain (ADG) and feed conversion ratio (FCR) of crossbred sheep were analyzed for seeking the optimal cross. Meanwhile 28 microsatellite markers were used to measure the genetic distance between imported populations and STH population. Regression between the genetic distance and heterosis was analyzed for evaluating potential of microsatellite on predicting heterosis. Results showed a significant positive linear correlation (r = 0.892, P < 0.05) between heterosis of litter size and genetic distance D _A of six crosses. This implied that these microsatellite markers had moderate potential to forecast heterosis of litter size in sheep. Results of this study also indicated that South African Mutton Merino and East Friesian sheep would be the optimal sire breeds for the litter size and might bring the greatest economic benefit in six imported populations; Suffolk sheep could be prior consideration as sire breeds when breeding objective focused on ADG. Finally these results provided valuable information for Chinese sheep industry.     

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 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.     

11个绵羊品种MSTN基因非翻译区的变异

利用PCR-RFLP技术对特克塞尔羊、夏洛莱羊、小尾寒羊、蒙古羊、乌珠穆沁羊、阿勒泰羊、呼伦贝尔羊、塔什库尔干羊、多浪羊、湖羊和岗巴羊11个品种的345个个体的肌肉生长抑制素(Myostatin, MSTN)基因非翻译区(UTR)的变异进行了多态性分析。结果表明大小为271 bp和1 003 bp的扩增片段经限制性内切酶MboⅡ和BsaⅠ酶切后表现多态, 经卡方检验所有品种在该基因座位均处于平衡状态(P>0.05), 3种基因型在11个绵羊品种中的分布差异极显著(P<0.01)。通过限制性内切酶HpyCH4Ⅳ 酶切实验, 证明我国9个地方绵羊品种不存在特克塞尔绵羊中发现的导致肌肉发达的SNP位点, 并在3′UTR区发现了个别碱基突变位点能够形成miRNA作用的靶基序, 测序表明3′UTR区的突变频率较高。