牛脊柱畸形综合征检测方法的建立与应用

牛脊柱畸形综合征(Complex vertebral malformation, CVM)是近年来新发现的致死性牛常染色体隐性遗传缺陷病。由于编码UDP-N-乙酰葡糖胺载体的SLC35A3基因发生G→T的突变而引起本病的发生, 可引起胎牛死胎、流产、早产。为了解我国正常的荷斯坦牛(黑白花奶牛)的CVM携带和发生情况, 建立、应用创造酶切位点PCR(Created restriction site PCR, CRS-PCR)、等位基因特异性PCR(Allele-specific polymerase chain reaction, AS-PCR)检测方法检测了表型正常的436头荷斯坦母牛和93头荷斯坦公牛, 检测到3头CVM携带者, 其中杂合母牛1头, 杂合公牛2头, 携带率分别为0.60%、2.20%。此方法简便、可靠, 为奶牛CVM有害基因的分型和筛选提供了新的方法和思路, 为我国奶牛的分子选育提供了可靠的理论依据。     

利用微卫星进行奶牛数量性状基因位点定位的研究

采用孙女设计法对德国奶牛的３个数量必状－－产奶量、乳脂产量及乳蛋白产量进行了数量性状基因位点的定位研究。实验共有２０个父系半同胞家系的１１３０头种公牛,共测定了３０对染色体上的２２９个微卫星,表型性状的育种值由孙代母牛估计得到。连锁分析采用多重遗传标记回归法,临界Ｆ值由置换实验法计算得到。统计发现在某些染色体上存在着一些显著的ＱＴＬ＇ｓ区域,特别是１４号染色体上某一区域对所有３个产奶性状都有极显著     

结合MOET技术的奶牛标记辅助选择方案比较

应用计算机模拟的方法比较利用遗传标记信息和/或超数排卵和胚胎移植(MOET)技术的一系列奶牛育种方案相对于传统育种方案的优越性. 模拟性状为产奶量, QTL作为已知遗传标记. 8个奶牛育种方案分别是：传统的后裔测定方案用STANPT表示; GASPT方案在青年公牛进入后裔测定前通过其自身QTL基因型进行预选择; MOETPT方案应用MOET技术产生青年公牛, 青年公牛预选择为家系内全同胞随机选择; GAMOPT方案结合了QTL预选择及MOET技术; COMBPT方案在GAMOPT方案基础上, 在个体育种值的评估中加入了QTL基因型效应; 另外对应后裔测定体系中MOETPT,GAMOPT,COMBPT方案设计了3个非后裔测定方案, 分别命名为MOET方案、GAMO方案及COMB方案. 动物个体通过相对应的动物模型进行育种值评估, 模拟针对产奶性状进行重叠世代连续17年的选择. 针对现役公牛、泌乳母牛、公牛母亲、公牛父亲和青年公牛5个不同群体, 对应用QTL信息和MOET技术对有利QTL基因频率、真实育种值、多基因值和累积遗传进展优势率产生的影响进行评估. 结果表明, 结合QTL信息和MOET技术的方案, 其真实育种值遗传进展显著高于其他方案, 仅应用QTL信息或MOET技术的单一改进方案间差异不显著, STANPT方案效率最低. 应用MOET技术的方案在第17年获得的多基因选择反应更大. 不同育种方案有利QTL基因频率增加速度在3个公畜群体中差异远大于泌乳母牛群体. GASPT,MOETPT,GAMOPT,COMBPT,MOET,GAMO 和COMB 方案相对STANPT方案, 累积遗传进展优势率在现役公牛群体中分别为8.42%, 3.59%, 14.58%, 18.54%, 4.12%, 14.12%和16.50%, 在泌乳母牛群体中分别为2.70%, 5.00%, 11.05%, 12.78%, 7.51%, 17.12%和25.38%.     

利用PCR-RFLP检测中国荷斯坦牛遗传缺陷——瓜氨酸血症

瓜氨酸血症(Citrullinemia)是荷斯坦牛尿素循环发生代谢紊乱的一种常染色体隐性遗传缺陷。精氨酸琥珀酸合成酶基因外显子5发生突变(C-T)对这一紊乱负责。本研究应用PCR-RFLP方法和DNA测序技术检测济南市周边120头荷斯坦母牛和山东奥克斯生物技术有限公司种公牛站50头荷斯坦公牛的精氨酸琥珀酸合成酶基因外显子5。结果发现,所检测的公牛未发现瓜氨酸血症突变基因携带者,母牛中有2头为携带者,携带频率为1.18%。     

中国荷斯坦牛白细胞黏附缺陷症PCR-RFLP检测方法的研究

本试验根据已知牛染色体上CD18编码基因序列设计引物,提取牛血液和精液DNA,可扩增出338bp的DNA片段,将PCR产物克隆到pMD18-T载体中,对阳性重组质粒进行测序,确定为牛的CD18基因。由于CD18基因的383位碱基由A变为G,而引起牛白细胞黏附缺陷症(BLAD),通过对济南市11个奶牛场356头奶牛及53头荷斯坦种公牛进行了BLAD的PCR-RFLP检测,共检出3头杂合母牛(携带者),占检测母牛群的0.84%,在荷斯坦公牛中只检测到一种基因型,没有发现隐性突变基因的携带者。     

奶牛重要经济性状全基因组关联分析研究进展

产奶性状是奶牛最重要的生产性状, 随着平衡育种理念的提出和发展, 繁殖性状、体型性状、健康性状和长寿性等功能性状也逐渐被重视并纳入育种规划中。鉴定产奶性状和功能性状主效基因或遗传标记并将之应用于奶牛标记辅助选择可望加快遗传进展。随着高密度SNP标记的高通量检测技术的发展, 全基因组关联分析已成为鉴定畜禽重要经济性状基因的重要途径。文章对奶牛产奶性状和功能性状全基因组关联分析研究进展进行综述。     

奶牛重要经济性状全基因组关联分析研究进展

产奶性状是奶牛最重要的生产性状,随着平衡育种理念的提出和发展,繁殖性状、体型性状、健康性状和长寿性等功能性状也逐渐被重视并纳入育种规划中。鉴定产奶性状和功能性状主效基因或遗传标记并将之应用于奶牛标记辅助选择可望加快遗传进展。随着高密度SNP标记的高通量检测技术的发展,全基因组关联分析已成为鉴定畜禽重要经济性状基因的重要途径。文章对奶牛产奶性状和功能性状全基因组关联分析研究进展进行综述。     

西门塔尔牛产奶性状的微卫星标记遗传效应分析

在4条染色体上选择12个微卫星标记对西门塔尔牛育种核心群6个父系组成的150头母牛产奶性状(包括乳脂、乳蛋白、乳糖、干物质含量和奶中体细胞数)进行分子标记遗传效应分析.结果表明:12个微卫星位点都具有高度多态性,杂合度(H)均在0.64～0.86之间,多态信息含量(PIC)达0.60以上,最高为0.85(ILST093);位点ILST093对奶中体细胞数有显著性影响(P＜0.05);BMS711对乳脂率有显著性影响(P＜0.05);BM1905与奶中乳糖含量呈显著相关(P＜0.05);BM6438与5个产奶性状均无相关性.     

无角牦牛体尺性状对体重影响的通径分析

旨在通过无角牦牛体尺性状对其体重作较为准确的估计,剖分牦牛各体尺性状对体重的影响。实验随机选取247头8-10月龄的无角牦牛为研究对象,其中公牛155头,母牛92头;测量各牦牛的体长、体高、胸围和管围4个体尺数据,并称量其体重;采用逐步线性回归的方法建立无角牦牛体重与体尺的多元线性回归方程;利用通径分析的方法计算各体尺性状对体重的直接作用和间接作用。结果表明,公牛的胸围和管围之间的相关系数未达到显著水平(P0.05),其他各性状之间的表型相关系数均达到了极显著水平(P0.01);公牛和母牛体重与体尺的多元线性回归方程分别为Y=-86.969+0.338X_1+1.082X_3+0.905X_4和Y=-85.693+0.440X_2+0.860X_3+1.972X_4,其中Y为体重(kg)、X_1为体高(cm)、X_2为体长(cm)、X_3为胸围(cm)、X_4为管围(cm),回归方程算得的体重估计值与体重实际观察值之间差异不显著;胸围对体重的直接作用大于其他体尺性状的直接作用,并大于其他形态性状通过胸围而影响体重的间接作用。结果提示,本研究建立的多元线性方程可应用于无角牦牛的良种选育实践,通径分析结果表明影响无角牦牛体重的主要因素来自于其胸围指标。     

西门塔尔牛产奶性状的微卫星标记分析

通过对西门塔尔牛育种核心群6个父系组成的150头母牛产奶性状的测定,结合微卫星标记技术,于4条染色体上选择12个微卫星位点进行产奶性状的微卫星标记分析,研究各位点对乳脂、乳蛋白、乳糖、干物质和奶中体细胞数的遗传效应。结果表明： 12个位点都具有高度多态性,杂合度（H）在0.64～0.86之间,多态信息含量（PIC）也达到0.60以上,最高者ILST093的多态信息含量为0.85;位点ILST093对奶中体细胞数有显著性影响(P<0.05),位点BMS711对乳脂率有显著性影响(P<0.05),位点BM1905与奶中乳糖含量呈显著相关(P<0.05),位点BM6438与五个产奶性状均无相关性。     

Effects of Complex Vertebral Malformation on Fertility in Swedish Holstein Cattle

Complex vertebral malformation (CVM) is an autosomal recessive inherited defect in the Holstein breed. It causes intra-uterine mortality through the entire gestation period leading to repeat breeding and involuntary culling of cows and thereby economic losses. The defect was first reported in Denmark in 1999 and a direct DNA test for the defect has been available since February 2001. The aim of this study was to investigate if Holstein bulls heterozygous for the CVM gene had reduced reproductive performance, measured as non-return rate (NRR) and in a daughter fertility index. All genotyped Swedish Holstein bulls born between 1995 and 1999 were included. Altogether 228 bulls were analysed, of which 53 bulls, i.e. 23%, were confirmed CVM carriers. A statistically significant difference between carriers and non-carriers in the relative breeding value for NRR was observed for 168 days NRR (101.1 ± 0.9 vs. 103.1 ± 0.6, p < 0.05). There was no difference for 28 days NRR whereas the difference approached significance for 56 days NRR. No significant effect of the paternal CVM genotype on the daughter fertility index was shown probably due to the complexity of traits this index is composed of. In conclusion, the study showed that carriers of the CVM defect have an inferior NRR compared with non-carriers.     

Complex vertebral malformation in Holstein cows in Japan and its inheritance to crossbred F1 generation

Complex vertebral malformation (CVM) is an autosomal recessive inherited defect in the Holstein breed. It causes intra-uterine mortality leading to repeat breeding and involuntary culling of cows. This study was carried out to show the prevalence of CVM carriers among Holstein cows in five dairy farms in Hiroshima Prefecture, South Western Japan and whether the defect could be inherited to crossbred F1 generation, when Japanese Black semen was used to inseminate a Holstein cow. Two hundreds Holstein cows were used in the study. Blood samples were collected from all cows in a heparinized tubes and genomic DNA was extracted with a commercial kit. Apart of the bovine solute carrier family 35 member 3 (SLC35A3) gene around the suspected mutation (G to T) was amplified with an allele specific polymerase chain reaction (AS-PCR). For DNA sequencing, PCR products of 522 bp were obtained from the genomic DNA of the cows. Out of 200 examined cows, 26 cows (13.0%) were found to be CVM carriers. Wild type cows showed amplification with the G-specific primer pair but not with the T-specific primer pair, while carrier ones showed amplification of both the G- and T-specific primers, exhibited two DNA bands of 395 bp. Based on the clinical history of the cows, lowered reproductive performance was noticed in carrier ones. Out of four crossbred F1 calves (Holstein x Japanese Black), two were CVM carrier. Crossbred F1 could inherit the CVM defect when Japanese Black semen used to inseminate a carrier Holstein cow. In conclusion, the study reports the occurrence of CVM among Holstein cows in Hiroshima Prefecture, Japan; moreover, it describes the first cases of CVM in crossbred F1 generation.     

Identification of complex vertebral malformation carriers in Holstein cattle in south China

Complex vertebral malformation (CVM) is a recently described monogenic autosomal recessive hereditary defect of Holstein dairy cattle that causes premature birth, aborted fetuses and stillborn calves. Guanine is substituted by thymine (G>T) in the solute carrier family 35 member A3 gene (SLC35A3). A valine is changed to a phenylalanine at position 180 of uridine 5'-diphosphate-N-acetyl-glucosamine transporter protein. CVM is expected to occur in many countries due to the widespread use of sire semen. We developed a created restriction site PCR (CRS-PCR) method to diagnose CVM in dairy cows. This was tested on 217 cows and 125 bulls selected randomly from a Holstein cattle population in south China. Five Holstein cows and five Holstein bulls were identified to be CVM carriers; the percentages of CVM carriers were estimated to be 2.3, 4.0 and 2.9% in the cows, bulls and entire Holstein cattle sample, respectively.     

A Post-GWAS Replication Study Confirming the PTK2 Gene Associated with Milk Production Traits in Chinese Holstein

Our initial genome-wide association study (GWAS) demonstrated that two SNPs (ARS-BFGL-NGS-33248, UA-IFASA-9288) within the protein tyrosine kinase 2 (PTK2) gene were significantly associated with milk production traits in Chinese Holstein dairy cattle. To further validate if the statistical evidence provided in GWAS were true-positive findings, a replication study was performed herein through genotype-phenotype associations. The two tested SNPs were found to show significant associations with milk production traits, which confirmed the associations observed in the original study. Specifically, SNPs lying in the PTK2 gene were also detected by sequencing 14 unrelated sires in Chinese Holsteins and a total of thirty-three novel SNPs were identified. Thirteen out of these identified SNPs were genotyped and tested for association with milk production traits in an independent resource population. After Bonferroni correction for multiple testing, twelve SNPs were statistically significant for more than two milk production traits. Analyses of pairwise D’ measures of linkage disequilibrium (LD) between all SNPs were also explored. Two haplotype blocks were inferred and the association study at haplotype level revealed similar effects on milk production traits. In addition, the RNA expression analyses revealed that a non-synonymous coding SNP (g.4061098T>G) was involved in the regulation of gene expression. Thus the findings presented here provide strong evidence for associations of PTK2 variants with dairy production traits and may be applied in Chinese Holstein breeding program.     

荷斯坦奶牛脊柱畸形综合征的研究进展

荷斯坦奶牛脊柱畸形综合征是近年新发现的一种常染色体隐性遗传病,该病对纯合子胎儿是致死性的。当荷斯坦牛的育种核心群中携带者达到一定比例,脊柱畸形综合征就会对奶业造成巨大损失。文章综述了脊柱畸形综合征的主要症状和影响、致病基因及检测方法的研究进展以及我国潜在的荷斯坦奶牛脊柱畸形综合征携带者的状况。     

Relationship between the magnitude of the inbreeding coefficient and milk traits in Holstein and Jersey dairy bull semen used in Brazil

Artificial insemination has been used to improve production in Brazilian dairy cattle; however, this can lead to problems due to increased inbreeding. To evaluate the effect of the magnitude of inbreeding coefficients on predicted transmitting abilities (PTAs) for milk traits of Holstein and Jersey breeds, data on 392 Holstein and 92 Jersey sires used in Brazil were tabulated. The second-degree polynomial equations and points of maximum or minimal response were estimated to establish the regression equation of the variables as a function of the inbreeding coefficients. The mean inbreeding coefficient of the Holstein bulls was 5.10%; this did not significantly affect the PTA for percent milk fat, protein percentage and protein (P = 0.479, 0.058 and 0.087, respectively). However, the PTAs for milk yield and fat decreased significantly after reaching inbreeding coefficients of 6.43 (P = 0.034) and 5.75 (P = 0.007), respectively. The mean inbreeding coefficient of Jersey bulls was 6.45%; the PTAs for milk yield, fat and protein, in pounds, decreased significantly after reaching inbreeding coefficients of 15.04, 9.83 and 12.82% (P < 0.001, P = 0.002, and P = 0.001, respectively). The linear regression was only significant for fat and protein percentages in the Jersey breed (P = 0.002 and P = 0.005, respectively). The PTAs of Holstein sires were more affected by smaller magnitudes of inbreeding coefficients than those of Jersey sires. It is necessary to monitor the inbreeding coefficients of sires used for artificial insemination in breeding schemes in Brazil, since the low genetic variability of the available sires may lead to reduced production.     

Revisiting the quantitative trait loci for milk production traits on BTA6

A parallel association study was performed in two independent cattle populations based on 41 validated, targeted single nucleotide polymorphisms (SNPs) and four microsatellite markers to re-evaluate the multiple quantitative trait loci (QTL) architecture for milk performance on bovine chromosome 6 (BTA6). Two distinct QTL located in the vicinity of the middle region of BTA6, but differing unambiguously regarding their effects on milk composition and yield traits were validated in the German Holstein population. A highly significant association of the protein variant ABCG2 p.Tyr581Ser with milk composition traits reconfirmed the causative molecular relevance of the ABCG2 gene in QTL region 1, whereas in QTL region 2, significant and tentative associations between gene variants RW070 and RW023 (located in the promoter region and exon 9 of the PPARGC1A gene for milk yield traits) were detected. For the German Fleckvieh population, only RW023 showed a tentative association with milk yield traits, whereas those loci with significant effects in German Holsteins (ABCG2 p.Tyr581Ser, RW070) showed fixed alleles. Even though our new data highlight two variants in the PPARGC1A gene (RW023, RW070) in QTL region 2, based on the results of our study, currently no unequivocal conclusion about the causal background of this QTL affecting milk yield traits can be drawn. Notably, the German Holstein and Fleckvieh populations, known for their divergent degree of dairy type, differ substantially in their allele frequencies for the growth-associated NCAPG p.Ile442Met locus.     

Polymorphism identification, RH mapping and association of placental lactogen gene with milk production traits of dairy cows

Bovine placental lactogen (bPL) is structurally related to prolactin (PRL) and growth hormone (GH). In synergism with steroid and thyroid hormones, bPL is crucial in stimulating the development of the mammary gland, mammary cell differentiation and function. To further explore whether bPL gene is associated with milk production traits, we herein analyzed single-nucleotide polymorphisms (SNPs) within eight regions of bPL gene, which are potentially associated with five milk production traits on 1028 Chinese Holstein cows. Among these, two SNPs, NT7409(T-C) and Nt11246(G-A), were identified. The former is within exon 2; it induces an alteration of amino acid from Val to Ala. The later is within exon 4. It is a synonymous mutation. We found that there were significant associations between NT7409(T-C) and milk and protein yield. Cows of the AA genotype yielded less milk (P = 0.001) and less protein (P = 0.003) than those of genotypes AB and BB. However, on the NT11246(G-A) locus, no significant association was observed in the five milk production traits studied. In addition, bPL has been localized near markers RM185 and CC549051 with a distance of 23.2 cR on BTA 23. It is at the same position as the region including quantitative trait loci (QTLs) affecting milk and protein yields by previous linkage analysis. In summary, our findings demonstrated that the SNP within exon 2 of bPL (NT7409(T-C)) is associated with two milk production traits, and this provided further evidence that bPL could be a major gene-controlling milk production trait in Holstein dairy cattle.     

Impact of bovine somatotropin on ranking for genetic value of dairy sires for milk yield traits and somatic cell score

Records of Holstein cows were used to examine how different models account for the effect of bovine somatotropin (bST) treatment on genetic evaluation of dairy sires for yield traits and somatic cell score. Data set 1 included 65,720 first-lactation records. Set 2 included 50,644 second-lactation records. Set 3 included 45,505 records for lactations three, four and five. Estimated breeding values (EBV) of sires were with three different animal models. With Model 1, bST administration was ignored. With Model 2, bST administration was used as a fixed effect. With Model 3, administration of bST was used to define the contemporary group (herd-year-month of calving-bST). Correlations for EBV of 1,366 sires with treated daughters between pairs of the three models were calculated for milk, fat and protein yields and somatic cell score for the three data sets. Correlations for EBV of sires between pairs of models for all traits ranged from 0.971 to 0.999. Fractions of sires with bST-treated progeny selected in common (top 10 to 15%) were 0.94 and usually greater for all pairs of models for all traits and parities. For this study, the method of statistical adjustment for bST treatment resulted in a negligible effect on genetic evaluations of sires when some daughters were treated with bST and suggests that selection of sires to produce the next generation of sires and cows might not be significantly affected by how the effect of bST is modeled for prediction of breeding values for milk, fat and protein yields and somatic cell score.