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1.
Advances in molecular biotechnology have introduced new generations of molecular markers for use in the genetic improvement of farm animals. Consequently, more accurate genetic information can be obtained to better understand existing animal genetic resources. This review gives a brief summary on the development of genetic markers including both the classical genetic markers and more advanced DNA-based molecular markers. This review will help us better understand the characteristics of different genetic markers and the genetic diversity of animal genetic resources. 相似文献
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Hickey JM Keane MG Kenny DA Cromie AR Mulder HA Veerkamp RF 《Journal of animal science》2008,86(5):1047-1056
Accuracy and bias of EBV are important measures of the quality of genetic evaluations. A sampling method that accounts for the uncertainty in the estimation of genetic group effects was used to calculate accuracy and bias of estimated effects. The method works by repeatedly simulating phenotypes for multiple traits for a defined data and pedigree structure. These simulated values are analyzed using BLUP with genetic groups in the relationship matrix. Accuracies and biases are then calculated as correlations among and differences between true and estimated values across all replicates, respectively. The method was applied to the Irish beef production data set for 15 traits and with 15 genetic groups to account for differences in breed means. Accuracy and bias of estimated genetic group effects, estimated comparisons between genetic group effects, EBV within genetic group, and EBV across genetic group were calculated. Small biases were detected for most estimated genetic group effects and most estimated comparisons between genetic group effects. Most of these were not important relative to the phenotypic SD of the traits involved. For example, a bias of 0.78% of the phenotypic SD was detected for carcass conformation in Aberdeen Angus. However, one trait, calf quality, which had few performance records in the data set, displayed larger bias, ranging from -10.31 to 5.85% of the phenotypic SD across the different estimated genetic group effects. Large differences were observed in the accuracies of genetic group effects, ranging from 0.02 for feed intake in Holstein, which had no data recorded, to >0.97 for carcass conformation, a trait with large amounts of data recorded in the different genetic groups. Large differences were also observed in the accuracies of the comparisons among genetic group effects. The accuracies of the EBV within genetic group and EBV across genetic group were sometimes different; for example, carcass conformation in Belgian Blue had an average accuracy within genetic group of 0.69 compared with an average accuracy across genetic group of 0.89. This suggests that the accuracy of genetic groups should be taken into account when publishing EBV across genetic groups. 相似文献
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论文从分子遗传学的角度对鸭的遗传资源在群体遗传多样性、群体起源、进化及构建遗传图谱等多个方面的评估进行综述,并对分子遗传标记技术在鸭遗传资源的保护利用上的应用进行概述,以期通过现代动物分子育种技术加快鸭的育种进程。 相似文献
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本文系统的论述了藏系绵羊在表型和地域、形态学遗传标记、细胞学遗传标记、生化遗传标记和分子遗传标记等不同方面的遗传多样性研究的概况,说明了藏系绵羊的遗传多样性研究目前仍处于起步水平,因此有必要对藏系绵羊的遗传多样性进行更深入的研究,尤其加强DNA分子水平上的研究。 相似文献
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本研究利用微卫星标记技术从分子水平对云南5个地方绵羊品种(腾冲绵羊(TC)、昭通绵羊(ZS)、迪庆绵羊(DQ)、宁蒗黑绵羊(NL)、乌骨绵羊(WG))进行了分析,通过计算平均杂合度、多态信息含量等对它们之间的亲缘关系及群体间、群体内的遗传变异进行了探讨。结果发现,各品种内杂合度较低,在0.2894~0.3349之间,说明各群体内遗传变异较小;PIC值均大于0.5,呈现高度多态,说明5个绵羊品种具有较丰富的遗传多样性。5个绵羊品种之间的基因流分析结果发现,除与乌骨绵羊之间的基因交流较小外,其他4个绵羊品种之间的基因交流都较大。应用UPGMA法进行系统发生关系分析,乌骨绵羊同其余品种亲缘关系较远,最近的是迪庆绵羊和宁蒗黑绵羊。 相似文献
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The impact of using old germplasm on genetic merit and diversity—A cattle breed case study 
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下载免费PDF全文 Sonia E. Eynard Jack J. Windig Ina Hulsegge Sipke‐Joost Hiemstra Mario P. L. Calus 《Zeitschrift für Tierzüchtung und Züchtungsbiologie》2018,135(4):311-322
Artificial selection and high genetic gains in livestock breeds led to a loss of genetic diversity. Current genetic diversity conservation actions focus on long‐term maintenance of breeds under selection. Gene banks play a role in such actions by storing genetic materials for future use and the recent development of genomic information is facilitating characterization of gene bank material for better use. Using the Meuse‐Rhine‐Issel Dutch cattle breed as a case study, we inferred the potential role of germplasm of old individuals for genetic diversity conservation of the current population. First, we described the evolution of genetic merit and diversity over time and then we applied the optimal contribution (OC) strategy to select individuals for maximizing genetic diversity, or maximizing genetic merit while constraining loss of genetic diversity. In the past decades, genetic merit increased while genetic diversity decreased. Genetic merit and diversity were both higher in an OC scenario restricting the rate of inbreeding when old individuals were considered for selection, compared to considering only animals from the current population. Thus, our study shows that gene bank material, in the form of old individuals, has the potential to support long‐term maintenance and selection of breeds. 相似文献
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Kristen Alves Luiz F. Brito Christine F. Baes Mehdi Sargolzaei John Andrew B. Robinson Flavio S. Schenkel 《Zeitschrift für Tierzüchtung und Züchtungsbiologie》2020,137(3):316-330
Non-additive genetic effects are usually ignored in animal breeding programs due to data structure (e.g., incomplete pedigree), computational limitations and over-parameterization of the models. However, non-additive genetic effects may play an important role in the expression of complex traits in livestock species, such as fertility and reproduction traits. In this study, components of genetic variance for additive and non-additive genetic effects were estimated for a variety of fertility and reproduction traits in Holstein cattle using pedigree and genomic relationship matrices. Four linear models were used: (a) an additive genetic model; (b) a model including both additive and epistatic (additive by additive) genetic effects; (c) a model including both additive and dominance effects; and (d) a full model including additive, epistatic and dominance genetic effects. Nine fertility and reproduction traits were analysed, and models were run separately for heifers (N = 5,825) and cows (N = 6,090). For some traits, a larger proportion of phenotypic variance was explained by non-additive genetic effects compared with additive effects, indicating that epistasis, dominance or a combination thereof is of great importance. Epistatic genetic effects contributed more to the total phenotypic variance than dominance genetic effects. Although these models varied considerably in the partitioning of the components of genetic variance, the models including a non-additive genetic effect did not show a clear advantage over the additive model based on the Akaike information criterion. The partitioning of variance components resulted in a re-ranking of cows based solely on the cows’ additive genetic effects between models, indicating that adjusting for non-additive genetic effects could affect selection decisions made in dairy cattle breeding programs. These results suggest that non-additive genetic effects play an important role in some fertility and reproduction traits in Holstein cattle. 相似文献
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高通量测序技术是研究物种复杂生物性状遗传机制的基础,随着高通量测序技术的不断优化提升,一些与生物表型性状密切相关的基因组变异被精准地挖掘出来,其中包括单核苷酸多态位点(SNP)、小片段的插入或缺失(Indel)、拷贝数变异(CNV)以及结构变异(SV)为代表的分子标记。与传统遗传标记相比较,分子遗传标记具有多态性高、遍布整个基因组、检测手段简单快捷以及成本低廉的特点。通过检测覆盖全基因组范围内的分子标记,利用基因组水平的遗传信息对个体或群体遗传资源进行评估,能够缩短世代间隔、提高选种的准确性,进而在短期内取得较大的遗传进展。作者从高通量测序技术挖掘分子遗传标记角度入手,综述了三代测序技术发展历程和应用领域以及三代分子遗传标记检测技术在蛋鸡种业创新中的应用,并详细阐述了高通量测序技术与分子遗传标记相结合在蛋鸡群体遗传多样性及进化分类、群体遗传图谱的构建和功能基因定位、数量性状形成的遗传机制解析和质量性状形成的遗传机制解析等4个方面的精准应用,以期为蛋鸡基因组选择进入实质应用阶段提供科学依据和指导。 相似文献
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L. R. Schaeffer 《Zeitschrift für Tierzüchtung und Züchtungsbiologie》2003,120(6):394-402
A limiting factor in the analysis of non‐additive genetic models has been the ability to compute the inverses of non‐additive genetic covariance matrices for large populations. Also, the order of the equations was equal to the number of animals times the number of non‐additive genetic effects that were included in the model. This paper describes a computing algorithm that avoids the inverses of the non‐additive genetic covariance matrices and keeps the size of the equations to be the same as any animal model with only additive genetic effects. Quadratic forms for the non‐additive genetic variances could also be computed without the inverses of the non‐additive genetic covariance matrices. 相似文献
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Wade CM 《Veterinary journal (London, England : 1997)》2011,189(2):183-188
This review assesses evidence from DNA analysis to determine whether there is sufficient genetic diversity within breeds to ensure that populations are sustainable in the absence of cross breeding and to determine whether genetic diversity is declining. On average, dog breeds currently retain approximately 87% of the available domestic canine genetic diversity. Requirements that breeding stock must be 'clear' for all genetic disorders may firstly place undue genetic pressure on animals tested as being 'clear' of known genetic disorders, secondly may contribute to loss of diversity and thirdly may result in the dissemination of new recessive disorders for which no genetic tests are available. Global exchange of genetic material may hasten the loss of alleles and this practice should be discussed in relation to the current effective population size of a breed and its expected future popularity. Genomic data do not always support the results from pedigree analysis and possible reasons for this are discussed. 相似文献
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为了弄清大河乌猪群体遗传分化水平和遗传结构,以曲靖市5个地理种群的46个大河乌猪样品为试验材料,采用分子生物学方法测定和分析所有个体的线粒体细胞色素b(Cyt b)基因DNA序列。分子变异分析结果表明,大河乌猪群体遗传变异主要来自种群内(62.63%),说明该物种群体遗传结构不明显。中性检验结果进一步证实,大河乌猪群体曾发生过种群数量扩张。这种不显著的种群结构主要来自于大规模的引种和扩大繁育,致使各地理种群间的遗传趋同和遗传一致性。研究结果有望为大河乌猪分子遗传选育工作提供重要的基础数据,并为其遗传种质资源的保护提供重要参考。 相似文献
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江西地方家鹅资源遗传结构及遗传分化研究 总被引:3,自引:2,他引:3
利用25对微卫星标记研究了江西4个家鹩资源群体(莲花白鹅、兴国灰鹅、广丰白翎鹅和丰城灰鹅)的遗传结构及遗传分化,通过计算F-统计量、基因分化系数和基因流等参数,评估了各群体间遗传结构与分化.结果表明:4个鹅群体间存在较大的遗传分化,20.7%的遗传变异来自于群体间的差异.就全群而言,基因分化系数(GST)为0.1667.莲花白鹅与兴国灰鹅之间的基因流(Nm=1.1802)最大,广丰白翎鹅与丰城灰鹅的基因流(Nm=0.8577)最小.莲花白鹅与兴国灰鹅Ds遗传距离(0.2036)最近,广丰白翎鹅与兴国灰鹅的DS遗传距离(0.2935)最远.基于DS遗传距离采用NJ聚类法构建系统树,4个家鹅资源被划分为2大类.分析遗传分化与地理距离的相关关系发现,江西地方鹅种的遗传分化与地理距离不存在明显关联. 相似文献
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采用ISSR分子标记对10个歪头菜自然居群的104个样本进行遗传多样性分析,筛选的10条ISSR引物共扩增出115个位点,其中多态性位点110个。在物种水平上多态性比率(PPB)为95.65%,在居群内多态位点比率为24.35%~49.70%。POPGENE分析结果显示,物种水平上Nei’s 基因多样性(H)为0.2632,Shannon’s遗传多样性信息指数(I)为0.4046,基因流(Nm)为0.4553,基因分化度(Gst)为0.5283,AMOVA分析居群间遗传分化程度为50.51%。研究表明,10个采样点的歪头菜在物种水平上具有较高的遗传多样性,但在居群之间已经出现了一定程度的遗传分化,且居群间的遗传分化程度高于居群内的分化程度。同时,证明了环境压力大小对于遗传多样性的高低具有选择作用,环境压力小的烟台和环境压力大的合作地区具有较高的遗传多样性,但环境压力介于二者之间的地区遗传多样性水平相对较低。本研究结果不仅对于了解歪头菜遗传进化和其生长地的环境的关系具有重要的参考价值,对合理利用歪头菜遗传资源及育种还具有非常重要的作用。 相似文献
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Although the spatial genetic differentiation that occurs in animal populations has been extensively studied, information on temporal variations in genetic structure and diversity is still lacking, especially for animals with oscillating populations. In the present study, we used the mtDNA D‐loop sequence to assess the temporal genetic variation in samples from six successive years for the greater long‐tailed hamster, Tscherskia triton. Sampling was carried out between 1998 and 2003 in cropland on the North China Plain, China. A total of 108 individuals were analyzed. The temporal samples showed a high level of genetic diversity. Substantial genetic changes in haplotype frequencies over time were detected for the hamster population. Random genetic drift and migration are likely to be the major factors responsible for the observed temporal pattern. The genetic diversity of the hamster population was higher in years with higher population density, and lower in years with lower population density. The result supports our hypothesis that genetic diversity decreases when population density declines in animals whose population oscillates greatly between years. The combined effects of inbreeding and genetic drift caused by reproduction, dispersal and population size might play important roles in the observed changes in genetic structure and diversity between years. 相似文献
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中国地方鸭品种资源的分子遗传多样性 总被引:14,自引:3,他引:14
通过筛选的28个多态性较好的微卫星标记,检测了我国24个地方鸭品种的遗传多样性。利用等位基因频率计算了各群体的遗传参数和群体间的遗传距离,采用邻接法构建了聚类图,并进行了系统发生分析。结果表明:28个微卫星座位在我国家鸭群体中的多态信息含量除APL23和APL79为中度多态外,其他座位均为高度多态座位,可以作为有效的遗传标记用于鸭种之间遗传多样性分析和系统发生关系的分析;我国所有家鸭群体平均杂合度(0.569)低于国内的家鸡和家鹅,其遗传多样性相对贫乏;聚类结果分析表明了各家鸭品种的分子系统发生关系与其育成史、分化及地理分布比较一致。 相似文献
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The purposes of this study were to assess the genetic variability between Taoyuan (T) and Duroc (D) pigs using randomly amplified polymorphic DNA (RAPD) fingerprints and to evaluate the genetic relationship to a commercial synthetic line-Taiwan Black (TB) pig (75% D, 25% T). To assess the genetic variability between T and D, 71 random primers (Operon) were used for RAPD fingerprinting by polymerase chain reaction (PCR). The evaluation of the genetic relationship was based on band sharing frequency and band frequency. Thirty-five of the 71 primers (49%) could generate polymorphisms in RAPD fingerprints of T or D pigs. Twenty-two primers produced polymorphic bands from only T genomic DNA, and 14 primers could produce polymorphic bands from only D genomic DNA. These results indicated that there was some genetic difference between T and D pigs. The within-population genetic similarity (WGS) for T, D, and TB populations were 0.742, 0.747, and 0.745, respectively, the between-population genetic similarity (BGS) was 0.946 between T and TB; 0.953 between D and TB; and 0.934 between D and T. The parameters of genetic distance between T and TB; D and TB, T and D were 0.080, 0.064, and 0.096, respectively. When the values of genetic similarity and genetic distance between populations estimated as frequency of occurrence of bands showed lower genetic similarities between pig populations, but indicted similar relationship. TB was genetically more related to D than to T. It provided evidence of the usefulness of the RAPD technique to determine genetic relatedness among T, D, and TB. 相似文献
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In the present study, random amplification of polymorphic DNA, which detects DNA polymorphism in fungal genomic DNA, was applied for genetic typing of Malassezia pachydermatis isolates. Fifty-five isolates from different domestic animals and body sites and the neotype strain CBS 1879 were characterized. Primers M13 and OPT-20 were used to analyse their genetic relatedness and similarity. This technique allowed us to distinguish four different genetic types. The predominant genetic type was observed in isolates recovered from different anatomical locations in all animals. It was the only genetic type found in cats, horse, goat and pig. The other three genetic types were observed only in isolates from external ear canals of dogs. Types II and IV were only recovered from external otitic ears and type III from healthy ears. An animal was colonised by more than one type of M. pachydermatis and different genetic types were detected in the same body site. Some genetic types were only isolated from diseased skin. 相似文献
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Jiarui CHEN Gonghua LIN Wen QIN Jingyan YAN Tongzuo ZHANG Jianping SU 《Integrative zoology》2019,14(3):248-258
Geographical barriers and distance can reduce gene exchange among animals, resulting in genetic divergence of geographically isolated populations. The Tibetan antelope (Pantholops hodgsonii) has a geographical range of approximately 1600 km across the Qinghai–Tibet Plateau, which comprises a series of tall mountains and big rivers. However, previous studies indicate that there is little genetic differentiation among their geographically delineated populations. To better understand the genetic structure of P. hodgsonii populations, we collected 145 samples from the 3 major calving regions, taking into consideration their various calving grounds and migration routes. We used a combination of mitochondrial sequences (Cyt b, ATPase, D‐loop and COX I) to investigate the genetic structure and the evolutionary divergence of the populations. Significant, albeit weak, genetic differentiation was detected among the 3 geographical populations. Analysis of the genetic divergence process revealed that the animals gradually entered a period of rapid genetic differentiation approximately 60 000 years ago. The calving migration of P. hodgsonii cannot be the main cause of their weak genetic structure because this cannot fully homogenize the genetic pool. Instead, the geological and climatic events as well as the coupling vegetation succession process during this period have been suggested to greatly contribute to the genetic structure and the expansion of genetic diversity. 相似文献