Breed and crossbreeding effects in a crossing experiment between dutch friesian and holstein friesian cattle

In the second generation of a crossbreeding experiment with Holstein Friesian bulls and Dutch Friesian cows the difference in additive genetic merits between Holstein Friesian and Dutch Friesian bulls (a), the heterotic effects (d) and the maternal effects (m) were calculated from the mean values of the four subpopulations with 0%, 25%, 50% and 75% Holstein Friesian genes. Significant a effects were found for milk yield, fat percentage, fat yield, protein yield, fleshiness (beef bulls and veal calves), fat covering (beef bulls), dressing percentage (veal calves), birth weight, percentage of calving difficulties and gestation period. A significant d effect was found for fat covering (beef bulls). For dressing percentage (veal calves), for the percentage of calving difficulties and of retained placenta, significant m effects were calculated.     

Crossbreeding effects on milk yield traits and calving interval in spring‐calving dairy cows

The aim of the study was to assess crossbreeding effects for 305‐day milk, fat, and protein yield and calving interval (CI) in Irish dairy cows (parities 1 to 5) calving in the spring from 2002 to 2006. Data included 188 927 records for production traits and 157 117 records for CI. The proportion of genes from North American Holstein Friesian (HO), Friesian (FR), Jersey (JE) and Montbéliarde (MO) breeds, and coefficients of expected heterosis for HO×FR, HO×JE and HO×MO crosses were calculated from the breed composition of cows’ parents. The model used to assess crossbreeding effects accounted for contemporary group, age at calving within parity, linear regression on gene proportions for FR, JE and MO, and linear regression on coefficients of expected heterosis for HO×FR, HO×JE and HO×MO, as fixed effects, and additive genetic, permanent environmental and residual as random. Breed effects for production traits were in favour of HO, while for CI were in favour of breeds other than HO. The highest heterosis estimates for production were for HO×JE, with first‐generation crosses yielding 477 kg more milk, 25.3 kg more fat, and 17.4 kg more protein than the average of the parental breeds. The highest estimate for CI was for HO×MO, with first‐generation crosses showing 10.2 days less CI than the average of the parental breeds. Results from this study indicate breed differences and specific heterosis effects for milk yield traits and fertility exist in Irish dairy population.     

中国荷斯坦牛PIN1基因对产奶性状的遗传效应分析

前期研究通过荷斯坦公牛全基因组重测序鉴定到17个奶牛产奶性状候选功能基因,其中,肽基脯氨酸顺反异构酶基因(PIN1)参与甘油三酯代谢、甘油磷脂代谢以及mTOR信号通路,且位于产奶量和乳蛋白量性状QTL区间.为进一步系统分析PIN1基因是否对奶牛产奶性状具有遗传效应,本实验基于40头公牛的基因组DNA混池,采用PCR产物...     

Estimation of genetic and crossbreeding parameters for daily milk yield of Ayrshire × Sahiwal × Ankole crossbred cows in Burundi

The pedigree of 317 cows of which 184 were controlled for milk production has been used to estimate crossbreeding parameters for daily milk yield of Ayrshire, Sahiwal and Ankole crosses in the Mahwa station. Lactating cows belonged to one of 6 different genetic groups defined on the basis of the mating system used to produce them. REML estimates of the genetic parameters were obtained with a repeated animal model using daily milk records. Estimated heritability (h²) and repeatability (r²) were 0.27 and 0.36, respectively. The genetic group effects were used to estimate crossbreeding parameters following Dickerson's genetic model. Estimates for the additive effects for daily milk yield of Ankole, Sahiwal and Ayrshire breeds were − 1.66l, − 0.48l and 5.22l, respectively. Estimates of direct heterosis for daily milk yield for Sahiwal × Ankole, Ayrshire × Ankole, and Ayrshire × Sahiwal crosses were 1.97l, 2.30l and − 2.33l, respectively.     

牦牛的泌乳性能及提高产奶量的途径

分布于红原及其毗邻地区的牦牛具有较优良的产奶性能和乳质特性。该地区牦牛184天产奶量为211 30kg;乳脂率6 82%,乳蛋白5 60%,乳糖5 20%,均高于黑白花奶牛。暖季适当补饲可提高泌乳黑犏牛日产奶量0 77kg;冷季半舍饲+补饲可使泌乳黑犏牛全泌乳期产量平均提高1096kg,延长泌乳期109～137天。畜群结构调控和常规繁殖技术,可显著提高适龄母牛的群体比率和繁殖率,从而提高群体产奶水平。应用现代生物技术,有望解决牦牛种间杂交过程中存在的一些问题,如提高改良犏牛的繁殖成活率,扩大改良规模、实现改良犏牛繁殖改良犏牛等,可提高牦牛改良的经济效益。     

Estimates of genetic parameters for Boran, Friesian, and crosses of Friesian and Jersey with the Boran cattle in the tropical highlands of Ethiopia: milk production traits and cow weight

Breed additive and non‐additive effects plus heritabilities and repeatabilities for milk yield per lactation (LMY), milk yield per day (DMY), lactation length (LL), annual milk yield (AMY), annual milk yield per metabolic body weight (AMYBW) and cow weight at calving (BW) were estimated for 5464 lactation records collected from purebred Boran (B), Friesian (F), and crosses of Friesian and Jersey (J) breeds with the Boran breed raised in the tropical highlands of Ethiopia. Single trait analysis was carried out by using two equivalent repeatability animal models. In the first model the genotype was fitted as a fixed group effect, while in the second model the genotype was substituted by breed additive, heterotic and recombination effects fitted as fixed covariates. Both the F and J breed additive effects, measured as a deviation from the B breed were significant (p < 0.01) for all traits, except for BW of the J. The F and J additive contributions were 2774 ± 81 and 1473 ± 362 kg for LMY, 7.1 ± 0.2 and 4.8 ± 0.8 kg for DMY, 152 ± 7 and 146 ± 31 days for LL, 2345 ± 71 and 1238 ± 319 kg for AMY, 20.6 ± 0.9 and 18.9 ± 4.3 kg for AMYBW, and 140 ± 4 and ?21 ± 22 kg (p > 0.05) for BW. The heterotic contributions to the crossbred performance were also positive and significant (p < 0.01) for all traits. The F₁ heterosis expressed as a deviation from the mid‐parent values were 22 and 66% for LMY, 11 and 20% for DMY, 29 and 29% for LL, 21 and 64% for AMY, 42 and 42% for AMYBW, and 2% (p < 0.05) and 11% for BW for the F × B and J × B crosses, respectively. The recombination effect estimated for the F × B crosses was negative and significant for LMY (?526 ± 192 kg, p < 0.01), DMY (?3.0 ± 0.4 kg, p < 0.001), AMY (?349 ± 174 kg, p < 0.05) and BW (?68 ± 11 kg, p < 0.001). For the J × B crosses the recombination loss was significant and negative only for DMY (?2.2 ± 0.7 kg, p < 0.05) and BW (?33 ± 17 kg, p < 0.05). The direct heritabilities (h²) estimated for LMY, DMY, LL, AMY and AMYBW were 0.24 ± 0.04, 0.19 ± 0.03, 0.13 ± 0.03, 0.23 ± 0.04 and 0.17 ± 0.05, respectively. Based on the genetic parameters estimated, the best breeding strategy to increased milk production under highland Ethiopian conditions is to apply selection on purebred base populations (Boran and Friesian) and then crossing them to produce F₁ dairy cows. However, for breeding decision based on total dairy merit, further investigations are needed for traits such as milk quality, reproduction, longevity and survival.     

中国荷斯坦牛RPL23A和ACACB基因对产奶性状的遗传效应分析

作者所在团队前期通过奶牛乳腺上皮组织转录组测序及荷斯坦公牛全基因组重测序研究发现RPL23A和ACACB基因是奶牛乳蛋白和乳脂性状的候选功能基因,本研究旨在探究这两个基因是否对奶牛产奶性状具有显著遗传效应。以北京地区7个牧场的1059头中国荷斯坦母牛为试验群体,采集尾根静脉血并提取基因组DNA,通过飞行时间质谱方法检测SNP位点基因型,利用SAS9.4软件的MIXED过程进行关联分析。结果表明,RPL23A基因的SNP位点g.20146771C>T与第1泌乳期5个产奶性状达到显著或极显著关联(P=0.0001~0.0416),其优势等位基因为T;ACACB基因的g.63878254T>C位点与第1泌乳期产奶量、乳脂量和乳蛋白量呈极显著关联(P<0.01),其优势等位基因为C;g.63962768G>A位点与第1泌乳期产奶量、乳脂量、乳脂率和乳蛋白率关联显著或极显著(P=0.0001~0.0391),其优势等位基因为A。综上,RPL23A基因主要影响中国荷斯坦牛产奶量和乳蛋白,ACACB基因对产奶量和乳脂具有显著遗传效应,3个SNP位点可考虑作为遗传标记用于标记辅助选择培育奶牛高乳蛋白乳脂新品系和选育提高。     

初配月龄对澳系荷斯坦牛头胎泌乳性能的影响

本试验采用海丰奶牛场有限公司2 480头澳系荷斯坦牛初配月龄及其第一胎泌乳性能数据,分析不同初配月龄对第一胎泌乳天数、全泌乳期实际产奶量、305天校正奶量、305天脂肪产量和305天蛋白产量的影响。结果表明,22月龄初配奶牛305天校正奶量最高(8 934±1 667kg),其次为14月龄,24月龄305天校正奶量最低。14月龄初配奶牛全泌乳期产奶量最高(9 369±1 375kg),并且14~16、19~22月龄初配奶牛全泌乳期产奶量显著高于其他月龄奶牛(P<0.05)。22月龄初配奶牛305天脂肪产量和蛋白产量均达到最高。综上,该场澳系进口荷斯坦牛初配月龄为14月龄时最佳。     

Animal model estimation of non-additive genetic parameters in dairy cattle, and their effect on heritability estimation and breeding value prediction

SUMMARY: First lactation production records of pedigree Holstein-Friesian cows in the UK were analysed by an animal model, in order to estimate effects of heterosis and recombination loss between North American Holstein and European Friesian cattle and the influence of these effects on breeding value prediction. Coefficients of heterosis and recombination loss were fitted in the animal model as covariables and unknown parents were assigned to a varying number of genetic groups. The estimates of heterosis effects were 104 kg, 4.3 kg and 2.9 kg for milk, fat and protein yield, respectively, while the corresponding coefficients for recombination loss were -135 kg, -2.6 kg and -3.7 kg respectively. Neither the sire component of variance nor the heritability estimates were appreciably affected by the inclusion of heterosis and recombination loss in the model. Including both these effects in the breeding value estimation increased the predicted sire proof for fat plus protein of a typical F1 Holstein × Friesian sire by 3 kg. ZUSAMMENFASSUNG: Tiermodellsch?tzungen nicht-additiv genetischer Parameter bei Milchrindern und ihre Auswirkung auf Heritabilit?tssch?tzung und Zuchtwertvoraussage Laktationsleistungen von Herdbuch Holstein-Friesen Kühen im UK wurden mittels eines Tiermodells analysiert zur Sch?tzung der Wirkungen von Heterosis und Rekombinationsverlust zwischen nordamerikanischen Holstein und europ?ischen Schwarzbunten und Einflu? dieser Wirkungen auf Zuchtwahlvorhersagen. Koeffizienten für Heterosis und für Rekombinationsverlust wurden im Tiermodell als Co-Variable berücksichtigt und unbekannte Eltern einer unterschiedlichen Zahl genetischer Gruppen zugeordnet. Sch?tzungen der Heterosiswirkungen waren 104 kg, 4,3 kg und 2,1 kg für Milch-, Fett- Proteinmengen, w?hrend die diesbezüglichen Koeffizienten für Rekombinationsverlust -135, -2,6 und -3,7 kg waren. Weder die Vatervarianzkomponente noch Heritabilit?tswerte wurden durch Berücksichtigung von Heterosis und Rekombinationsverluste im Modell tangiert. Berücksichtigung beider Wirkungen in der Zuchtwertsch?tzung erh?hte den gesch?tzten Vaterzuchtwert für Fett + Protein eines typischen F1 Holstein-Friesen-Stieres um 3kg.     

Effects of DGAT1 variants on milk production traits in German cattle breeds

Various QTL mapping experiments led to the detection of a QTL in the centromeric region of cattle chromosome 14 that had a major effect on the fat content of milk. Recently, the gene encoding diacylglycerol O-acyltransferase (DGAT1) was proposed to be a positional and functional candidate for this trait. This study investigated the effects of a nonconservative lysine to alanine (K232A) substitution in DGAT1, which very likely represents the causal mutation, on milk production traits. Existing granddaughter designs for Fleckvieh and German Holstein, the two major dairy/dual-purpose breeds in Germany, were used to estimate allele frequencies and gene substitution effects for milk, fat, and protein yield, as well as fat and protein content. A restriction fragment length polymorphism assay was applied to diagnose the K232A substitution in DGAT1. Estimates of the allele frequencies for the lysine-encoding variant were based on maternally inherited alleles in sons and amounted to 0.072 for Fleckvieh and 0.548 for German Holstein. Effects of DGAT1 variants on content traits were pronounced; estimates of the gene substitution effect for the lysine-encoding variant were 0.35 and 0.28% for fat content and 0.10 and 0.06% for protein content in Fleckvieh and German Holstein, respectively. Conversely, negative effects of the lysine variant of -242 to -180 kg for Fleckvieh and -260 to -320 kg for German Holstein were revealed for milk yield from first to third lactation, resulting in enhanced fat yield of 7.5 to 14.8 kg in Fleckvieh and 7.6 to 10.7 kg in German Holstein. For protein yield, however, mainly negative effects of -3.6 to 0.2 kg in Fleckvieh and -4.8 to -5.2 kg in German Holstein were observed. Pearson correlations between residuals of milk yield and content traits were decreased when omitting DGAT1 effects in the analysis, thereby indicating that DGAT1 contributes to negative correlations between these traits. Molecular tests allow for the direct selection among variants; however, the benefits of the alternative alleles depend on economic weights given to the different milk production traits in the breeding goal.     

Direct and maternal genetic effects for carcass traits in beef cattle.

Carcass measurements were taken on 1,537 steers produced over four generations in a rotational crossbreeding study. Breed direct and maternal additive and heterotic genetic effects were estimated for hot carcass weight (HCWT), retail yield (RY), longissimus muscle area (LM), fat thickness (FT), marbling score (MS), and Warner-Bratzler shear force (WBS). Angus (A), Brahman (B), Charolais (C), and Hereford (H) breeds were involved in straightbred, first-cross, and two-, three-, and four-breed rotational crossbred matings with each crossbred combination including the B. Breed direct (Ig) and maternal (Mg) additive genetic effects and direct (Ih) and maternal (Mh) heterotic genetic effects were estimated using a multiple-regression model. The Ig and Mg effects were expressed as deviations from the overall mean. The IgC effects (Ig for C breed) were significant for HCWT, RY, and LM and resulted in leaner, heavier carcasses. The IgA and IgH effects were, in general, negative (P < .05) for HCWT, RY, LM, and WBS, and positive (P < .01) for FT and MS. The IgB effects were large and undesirable for HCWT, RY, LM, MS, and WBS (P < .01). The majority of Ih effects were beneficial (P < .05) for HCWT, RY, LM, and WBS. The Ih effects exhibited by B combinations were of greater (P < .05) magnitude with positive influences for HCWT, RY, and LM and desirable effects for WBS. The maternal additive and heterotic effects were of lesser importance than the direct additive and heterotic effects for the carcass traits studied.     

用荷斯坦牛改良土种黄牛效果分析

新疆博尔塔拉州本地土种黄牛多为蒙古牛和哈萨克牛,土种黄牛体格小,生长发育慢,产奶产肉少,生产性能低,经济效益差。博州畜牧兽医站从1999年开始引进荷斯坦牛细管冻精技术对当地黄牛进行大规模杂交改良,其杂交后代生长发育快,体格增大,产奶产肉多,经济效益高,表现出明显的杂交优势。     

Genetic parameters for direct and maternal calving ease in Walloon dairy cattle based on linear and threshold models

Calving ease scores from Holstein dairy cattle in the Walloon Region of Belgium were analysed using univariate linear and threshold animal models. Variance components and derived genetic parameters were estimated from a data set including 33 155 calving records. Included in the models were season, herd and sex of calf × age of dam classes × group of calvings interaction as fixed effects, herd × year of calving, maternal permanent environment and animal direct and maternal additive genetic as random effects. Models were fitted with the genetic correlation between direct and maternal additive genetic effects either estimated or constrained to zero. Direct heritability for calving ease was approximately 8% with linear models and approximately 12% with threshold models. Maternal heritabilities were approximately 2 and 4%, respectively. Genetic correlation between direct and maternal additive effects was found to be not significantly different from zero. Models were compared in terms of goodness of fit and predictive ability. Criteria of comparison such as mean squared error, correlation between observed and predicted calving ease scores as well as between estimated breeding values were estimated from 85 118 calving records. The results provided few differences between linear and threshold models even though correlations between estimated breeding values from subsets of data for sires with progeny from linear model were 17 and 23% greater for direct and maternal genetic effects, respectively, than from threshold model. For the purpose of genetic evaluation for calving ease in Walloon Holstein dairy cattle, the linear animal model without covariance between direct and maternal additive effects was found to be the best choice.     

Joint analysis of the influence of CYP11B1 and DGAT1 genetic variation on milk production, somatic cell score, conformation, reproduction, and productive lifespan in German Holstein cattle

Recent publications indicate genetic variation in milk production traits on proximal BTA14, which cannot be explained solely with genetic variation in the DGAT1 gene. To elucidate these QTL effects, animals from a German Holstein granddaughter design (18 families, 1,291 sons) were genotyped for CYP11B1 (V30A) and DGAT1 (K232A) polymorphisms. Frequencies of alleles of maternal descent were estimated for CYP11B1(V) (0.776) and DGAT1(K) (0.549). Allele substitution effects (alpha/2) were first calculated for both alleles in separate models and then in a joint model. From the joint analysis, CYP11B1(V) effects on fat content (+0.04%) and protein content (+0.01%) were positive. Effects on milk yield (-82 kg), fat yield (-0.5 kg), and protein yield (-1.9 kg) were negative. Compared with the individual analysis, DGAT1(K) effects on fat content (+0.28%), protein content (+0.06%), and milk yield (-258 kg) were reduced; fat yield (+10.8 kg) was enhanced; and protein yield (-3.8 kg) was reduced. In the joint analysis, allele substitution effects of CYP11B1(V) and DGAT1(K) together explained more of the variation in milk production traits than DGAT1(K) alone. Further significant effects were found for CYP11B1(V) and DGAT1(K) among 6 reproduction traits and 14 conformational traits. These observations indicate a possible negative influence of DGAT1(K) on maternal nonreturn rate, and thus, on length of productive life.     

澳系进口荷斯坦奶牛CXCR1基因遗传多态性与泌乳性状及体细胞评分的关联性分析

采用聚合酶链式反应-单链构象多态性（PCR—SSCP）技术对以海丰奶牛场588头澳系进口荷斯坦牛牛趋化因子受体1（Chemokine receptor1,CXCR1）基因的遗传多态性进行分析;采用混合动物模型分析CXCRl基因2个突变位点与测定日产奶量、乳脂率、乳蛋白率、305d产奶量、305d乳脂量、305d乳蛋白量及体细胞评分7个性状的相关性,寻找可用于生产实际的分子标记。结果显示,CXCR1基因5’侧翼区-1830位点发生了A—G的突变,检测到AA、AG和GG3种基因型,频率分别为0．684、0．289和0．027,等位基因A和G的频率分别为0．828和0．172;GG基因型奶牛的日产奶量、SCS和305d产奶量均板显著高于AA基因型（P〈0．01）,而其乳脂率和乳蛋白率却显著低于AA基因型奶牛（P〈0．05）。编码区783位点仅发现AA和AC2种基因型,基因型频率分别为0．886和0．114,等住基因A和c的频率分别为0．943和0．057。AA型的个体的日产奶量、305d脂肪产量和305d蛋白产量极显著高于AC型个体,而其乳脂率、乳蛋白率和SCS却极显著低于AC型个体（P〈O．01）。结果表明,CXCR1基因遗传突变对澳系进口荷斯坦牛泌乳性状和乳房炎抗性有较大的遗传效应,可用于澳系进口荷斯坦牛的分子标记辅助选择。     

Effects of Acyl-CoA:diacylglycerol acyl transferase 1 (DGAT1) gene on milk production traits in crossbred Holstein dairy cattle

The objective of this study was to analyze and investigate the genotype frequency and the association between Acyl-CoA:diacylglycerol acyltransferase1 gene, DGAT1 gene, and milk yield (MY), milk composition, protein yield (PY), fat yield (FY), solid not fat yield (SNF), total solid (TS), the content of fat, protein, solid not fat, and total solid, (%Fat,%Prot,%SNF,%TS) in two herds of crossbred Holstein dairy cattle in Thailand. Two hundred and twenty-seven crossbred Holstein cows were used and their blood samples were taken for the study. PCR–RFLP was used to identify the allele and genotype of DGAT1 gene. A general linear model and the least square method were used to estimate the least square mean and additive, and the dominant effect of the gene on the traits and the least significant differences were used to compare the mean of each trait between genotypes. Two alleles (K, A) and three genotypes (AA, KA, KK) were detected, the highest allele and genotype frequencies were A and AA, respectively. The least mean squares of each genotype were compared and significant differences between genotype were detected. Genotype KK has the greatest effect on all milk composition content traits, while genotype AA has the greatest effect on yield traits. Highly significant additive gene effect was detected. From the results, it can be concluded that the DGAT1 gene can be used as a gene marker for assisted selection in milk composition traits.     

中国荷斯坦奶牛OPN基因内含子4多态性及其与产奶性状的相关分析

研究采用PCR产物直接测序的方法,对278头中国荷斯坦奶牛的OPN基因内含子4进行单核苷酸多态性分析,并研究了不同基因型与产奶性状的相关关系。结果表明:OPN基因内含子4有TT、CT和CC 3种基因型,基因型频率分别为0.3309、0.5108和0.1583;该位点突变处于Hardy-Weinberg平衡状态,且PIC为0.3676;CC基因型与中国荷斯坦奶牛的乳脂率和乳蛋白率呈显著相关。说明C等位基因对泌乳性状具有加性效应,OPN基因可以作为中国荷斯坦奶牛泌乳性状的候选基因。     

河北省中国荷斯坦牛产奶和体型性状遗传参数分析

旨在探究河北省中国荷斯坦牛产奶和体型性状的遗传参数,为育种提供参考.本研究收集了2012-2018年河北省133个牛场8 891头中国荷斯坦母牛第一胎次的3个产奶性状记录(产奶量、乳脂率和乳蛋白率)和26个体型性状记录,利用DMU软件,以场年季、产犊月龄、鉴定年季和鉴定员效应为固定效应,以个体的加性遗传效应为随机效应,...     

Milk production of Jersey and Fleckvieh × Jersey cows in a pasture-based feeding system

Milk production parameters of purebred Jersey (J) cows and Fleckvieh?×?Jersey (F?×?J) cows in a pasture-based feeding system were compared using standard milk recording procedures. Milk, fat and protein production was adjusted to 305 days per lactation and corrected for age at calving. Effects of breed, parity, month and year were estimated for milk, fat and protein yield as well as fat and protein percentage, using the general linear model procedure. Fixed effects identified as affecting milk production parameters significantly were breed, parity and year. F?×?J cows produced significantly more milk than J cows (6141?±?102 and 5398?±?95 kg milk, respectively). Similarly, fat and protein yields were significantly higher in F?×?J (272?±?4 and 201?±?3 kg, respectively) than in Jersey cows (246?±?3 and 194?±?2 kg, respectively). Fat and protein percentages only differed slightly in absolute terms being 4.61?±?0.04 % fat in the Jersey compared to 4.47?±?0.04 % fat in the F?×?J. Protein levels for J and F?×?J cows were 3.62?±?0.03 and 3.51?±?0.03 %, respectively. Despite a lower fat percentage, F?×?J crossbred cows may be more productive than purebred Jersey cows which may be due to heterotic effects.