山羊经济性状标记辅助选择的遗传效应分析 Genetic Effect of the Marker Assisted Selection on Economic Traits of Goats

本研究以辽宁绒山羊、柴达木绒山羊和柴达木山羊3个群体共147只山羊为研究对象，运用PAGE和RAPD技术对山羊的体重、绒产量和绒细度3个性状进行了与标记基因关系的遗传分析，结果表明：EsD2-2型、LAPBB型和PA-32-2型分别为体重、绒产量和绒细度性状的优势标记基因型；可利用标记辅助预测的方法充分利用多基因座标记基因间的互作效应；在体重上，寻找到有显著选择效应的RAPD条带11个，在绒产量和绒细度上分别为9和6个；在多目标性状选择中，CY0818/A0型和OPW19/C1型为体重和绒产量的双重优势RAPD标记，CY0818/G1型为体重和绒细度的双重优势RAPD标记。Abstract: The genetic relationships between economic traits and genetic markers were studied in 147 goats including Chaidamu goat (CS), Chaidamu Cashmere goat (CRS) and Liaoning Cashmere goat (LRS) in Qinghai province, China. CRS was the population of CS×LRS crossbred. The results showed as follows: the selection reaction of these blood protein polymorphisic loci were great, such as EsD, LAP and PA-3; and EsD2-2, LAPBB and PA-32-2 were the superior marker genotypes on body weight ,Cashmere yield and Cashmere fineness respectively by Least Square method. The interaction between marker genotypes at double loci was found frequently, and their ratio between interaction variance component and genetic variance was higher. With the method of marker assisted prediction( MAP), some interaction effect could be used effectively in the crossbreed population. On the aspect of random amplified polymorphic DNA (RAPD), the number of the superior RAPD marker bands were 11 on body weight trait, 9 and 6 RAPD marker bands on Cashmere yield and Cashmere fineness. For multi-goal traits, CY0818/A0 type and OPW19/C1 type were superior RAPD markers of body weight and Cashmere yield, CY0818/G1 type was superior one of body weight and Cashmere fineness.     

山羊经济性状标记辅助选择的遗传效应分析

本研究以辽宁绒山羊、柴达木绒山羊和柴达木山羊3个群体共147只山羊为研究对象,运用PAGE和RAPD技术对山羊的体重、绒产量和绒细度3个性状进行了与标记基因关系的遗传分析,结果表明：EsD2-2型、LAPBB型和PA-32-2型分别为体重、绒产量和绒细度性状的优势标记基因型;可利用标记辅助预测的方法充分利用多基因座标记基因间的互作效应;在体重上,寻找到有显著选择效应的RAPD条带11个,在绒产量和绒细度上分别为9和6个;在多目标性状选择中,CY0818/A0型和OPW19/C1型为体重和绒产量的双重优势RAPD标记,CY0818/G1型为体重和绒细度的双重优势RAPD标记。Abstract: The genetic relationships between economic traits and genetic markers were studied in 147 goats including Chaidamu goat (CS), Chaidamu Cashmere goat (CRS) and Liaoning Cashmere goat (LRS) in Qinghai province, China. CRS was the population of CS×LRS crossbred. The results showed as follows: the selection reaction of these blood protein polymorphisic loci were great, such as EsD, LAP and PA-3; and EsD2-2, LAPBB and PA-32-2 were the superior marker genotypes on body weight ,Cashmere yield and Cashmere fineness respectively by Least Square method. The interaction between marker genotypes at double loci was found frequently, and their ratio between interaction variance component and genetic variance was higher. With the method of marker assisted prediction( MAP), some interaction effect could be used effectively in the crossbreed population. On the aspect of random amplified polymorphic DNA (RAPD), the number of the superior RAPD marker bands were 11 on body weight trait, 9 and 6 RAPD marker bands on Cashmere yield and Cashmere fineness. For multi-goal traits, CY0818/A0 type and OPW19/C1 type were superior RAPD markers of body weight and Cashmere yield, CY0818/G1 type was superior one of body weight and Cashmere fineness.     

柴达木山羊群体遗传结构及系统地位的研究

采用简单随机抽样法对柴达木山羊群体进行了遗传检测,从毛色、外型特征、体尺、血液蛋白与DNA多态性等5个方面进行了群体遗传结构分析,并探索了其系统地位。结果表明：(1)毛色和形态特征的平均表型异质度分别为0.3419、0.5207;(2)血液蛋白在6个基因座上具有多态性,平均基因座杂合度为0.2584;(3)DNA-RAPD标记表现丰富的多样性,基因多样度为0.4085～0.5318。通过对柴达木山羊与其他国内山羊的系统聚类,初步探索了该山羊群体的形成及所属,这些都表明柴达木山羊是一个比较古老的未经较高强度选育的地方山羊品种,其基因资源是我国山羊遗传资源中宝贵的一部分。Abstract: Genetic structure and character of Chaidamu Goats were studied through simple random sampling. Genetic structure was analysed from five aspects, and phylogeny status was also investigated. The results indicated that: (1) the average phenotypic heterogeneity degree of coat color and morphological character were 0.3419 and 0.5207,respectively; (2) polymorphous blood albumen existed in 6 loci and the average loci heterozygosity was 0.2584; and (3) polymorphism existed in marked genes by DND-RAPD with diversity of 0.4085～0.5318. Phylogeny status was investigated through clustering by Ward’s method on Chaidamu Goats and other domestic goats. All these indicated that Chaidamu Goats was a domestic goat with less intensively selected breed.     

波尔山羊杂交后代及其亲本随机扩增多态DNA研究

利用随机扩增多态DNA技术研究了波尔山羊、唐山奶山羊、青龙本地山羊以及波尔山羊与这两个山羊群体杂交后代共计128个山羊个体的随机扩增多态DNA。结果表明：（1）总群体平均遗传多样性指数（Hsp）为0.6974,群体遗传分化指数为0.9706,山羊群体间平均遗传距离指数（0.1314～0.2052）明显大于群体内的相应值（0.0582～0.1440）,上述结果说明,所研究山羊群体不仅具有较为丰富的遗传多样性,而且其核基因组遗传变异主要存在于群体间。（2）山羊群体间的分子聚类关系与各群体间的亲缘关系基本一致。 Abstract:The random amplified polymorphic DNA（RAPD）of 128 individuals was studied,which were from Boer goat, Tangshan dairy goat,Qinglong native goat and their hybrids crossbred with Boer goat.The average index of genetic polymorphism for whole population（Hsp）and the index of genetic differentiation were 0.6974 and 0.9706,respectively.The average index of genetic distance between populations（0.1314～0.2052）was significantly higher than that within populations（0.0582～0.1440）.All of these indicated that the genetic polymorphism was not only abundant,but also the genetic variation was mainly existed between goat populations.The molecular dendrogram among goat populations was in accord with their genetic relationship.     

波尔山羊及其杂交改良后代群体遗传结构与亲缘关系研究

利用RAPD标记和POPGENE、PHYLIP及SPSS等统计分析软件,研究了波尔山羊及其杂交改良后代群体的遗传结构及遗传亲缘关系。结果表明,波尔山羊与其杂交改良后代间特别是高代杂种间具有相似的多态基因座百分率、等位基因数和基因多样性。随着级进杂交改良代数的递增,高代杂种之间以及与改良亲本之间的群体遗传结构的差异逐渐缩小,群体间的基因分化降低,基因流动和遗传相似度增加,遗传距离缩小,高代杂种与波尔山羊间具有更近的遗传亲缘关系。 Abstract:The genetic structure and relationship of Boer goat and its upgrading offspring to Tangshan Diary goat were studied using the RAPD marker and some statistical program,such as POPGENE,PHYLIP and SPSS.The results indicated that there were the similar percentage of polymorphic loci,observed and effective number of alleles,gene diversity between Boer goat and its upgrading offspring,especially higher upgrading offspring.With the increasing of upgrading,the difference of population structure decreased as well as the genetic distance and differentiation among higher upgrading offspring and their improving parental,but gene flow and genetic identity increased.There was a close genetic relationship between higher upgrading offspring and Boer goat.     

Analysis of genetic diversity in the endangered Hucho taimen from China

Hucho taimen are listed as endangered in China. The population size has declined recently, prompting an increase in the level of listing from grade three in 2002 to grade five in 2006. We analyzed the genetic diversity of wild populations using 17 microsatellite markers to establish a scientific basis for conservation of this species. We collected tissue samples from four populations in the Heilongjiang River basin: Huma River (HM), Hutou (HT), Haiqing (HQ), and Zhuaji (ZJ). A total of 21 loci were amplified, 18 of which were polymorphic. The number of alleles per locus ranged from 2 to 9 (mean: 4.1905). There were 13 highly polymorphic loci and 5 moderately polymorphic loci. Analysis of five genetic diversity parameters (Na, Ne, Ho, He, and PIC) suggested moderate levels of diversity within the populations. The populations were ranked HT > HQ > ZJ > HM, but the differences in diversity were not statistically significant (P > 0.05). A comparison of variation among all four populations suggested Hardy–Weinberg disequilibrium at 20% of the loci. Genetic differentiation (Fst) was 0.0644 and the gene flow among populations was estimated at 3.36 individuals per generation. The majority of diversity (93.88%) occurred among individuals within a population. In contrast, relatively little (6.12%) of the genetic diversity was distributed between the populations. An analysis of genetic differentiation and genetic distance between pairs of populations revealed that both parameters were higher in comparisons of the HM population to the HT, HQ, and ZJ populations than among the three latter populations. This suggests that the HM population has a distinct genetic structure. We hypothesize that habitat degradation and excessive fishing, not low genetic diversity, has caused the decline in H. taimen populations. However, this species should be protected from further declines in genetic diversity.     

Analysis of the genetic diversity of Bemisia tabaci populations in Shanxi province, China

Five different primer combinations were used for the analysis of 152 B biotype Bemisia tabaci (Gennadius) individuals and five Trialeurodes vaporairiorum individuals collected from 19 counties and seven host plants in Shanxi province in China, respectively. The main objective of the present study was to use AFLP markers to determine the genetic diversity of B. tabaci populations collected from Shanxi Province. The use of these primer combinations allowed the identification of 127 polymorphic bands (52.26%) from 60 to 500 bp. The average number of polymorphic bands per primer was 25.4 while the range for the five primers was 20–32. The average degree of heterozygosity was 0.251, while the range for the five primers was 0.204–0.289. The results suggested definite genetic diversity among different B. tabaci populations. Cluster analysis showed that B. tabaci populations were firstly scattered to three genetic groups according to the regions, then every genetic group was scattered to several subgroups according to the host plants, which revealed the genetic variability of B biotype B. tabaci populations has been not only among different regions, but also among different host plants in Shanxi Province.     

Analysis of the genetic diversity of Bemisia tabaci populations in Shanxi province, China☆

Five different primer combinations were used for the analysis of 152 B biotype Bemisia tabaci (Gennadius) individuals and five Trialeurodes vaporairiorum individuals collected from 19 counties and seven host plants in Shanxi province in China, respectively. The main objective of the present study was to use AFLP markers to determine the genetic diversity of B. tabaci populations collected from Shanxi Province. The use of these primer combinations allowed the identification of 127 polymorphic bands (52.26%) from 60 to 500 bp. The average number of polymorphic bands per primer was 25.4 while the range for the five primers was 20–32. The average degree of heterozygosity was 0.251, while the range for the five primers was 0.204–0.289. The results suggested definite genetic diversity among different B. tabaci populations. Cluster analysis showed that B. tabaci populations were firstly scattered to three genetic groups according to the regions, then every genetic group was scattered to several subgroups according to the host plants, which revealed the genetic variability of B biotype B. tabaci populations has been not only among different regions, but also among different host plants in Shanxi Province.     

采用RAPD标记探讨瓣蕊唐松草(毛茛科唐松草属)的遗传多样性及其地理分布格局(英文)

Random amplified polymerphic DNA(RAPD)method was applied to assessg enetic variation and population structure of Thahctrum petalotdeum L(Ranunoulaceae),Two hundred and forty-six individuals from 11 populations of the species were investigated by RAPD profiles Twenty selected RAPD primers generated 125 bands．in which 120 were polymorphic Ther esults revealed a high level of genetic variation(ercentage of polymorphIc bands(PPB was 96％．Nei’s gene diversity(りwas 03502 and shannon’s information index(I) was 0．5199 at the species level) The differentiation among the populations was high(Gst=0．3511)in this species．Result of analyzing of molecularvariance(AMOVA)showedthat38．88％of genetic variance was found among the populations Positive correlation withr r=01945(P=00002)was found between genetic distance and geographic distance amongpo pulations Two populations distributed in the drainage basin of YanELz River affined genedcally and formed one clada and the rest nine populations formed the other clade in both unweighted pair-group method using arithmetic average(UPGMA)trees made by two different method different methods. It was yen/clear that these two populations were very special, andmust be closely related in history, despite the fact that they now share quite weak link to the restpopulations through gene communication.     

Analysis of genetic diversity in the endangered Hucho taimen from China

Hucho taimen are listed as endangered in China. The population size has declined recently, prompting an increase in the level of listing from grade three in 2002 to grade five in 2006. We analyzed the genetic diversity of wild populations using 17 microsatellite markers to establish a scientific basis for conservation of this species. We collected tissue samples from four populations in the Heilongjiang River basin: Huma River (HM), Hutou (HT), Haiqing (HQ), and Zhuaji (ZJ). A total of 21 loci were amplified, 18 of which were polymorphic. The number of alleles per locus ranged from 2 to 9 (mean: 4.1905). There were 13 highly polymorphic loci and 5 moderately polymorphic loci. Analysis of five genetic diversity parameters (Na, Ne, Ho, He, and PIC) suggested moderate levels of diversity within the populations. The populations were ranked HT > HQ > ZJ > HM, but the differences in diversity were not statistically significant (P > 0.05). A comparison of variation among all four populations suggested Hardy–Weinberg disequilibrium at 20% of the loci. Genetic differentiation (Fst) was 0.0644 and the gene flow among populations was estimated at 3.36 individuals per generation. The majority of diversity (93.88%) occurred among individuals within a population. In contrast, relatively little (6.12%) of the genetic diversity was distributed between the populations. An analysis of genetic differentiation and genetic distance between pairs of populations revealed that both parameters were higher in comparisons of the HM population to the HT, HQ, and ZJ populations than among the three latter populations. This suggests that the HM population has a distinct genetic structure. We hypothesize that habitat degradation and excessive fishing, not low genetic diversity, has caused the decline in H. taimen populations. However, this species should be protected from further declines in genetic diversity.     

群体遗传不平衡条件下的遗传共适应现象及其遗传分析

群体基因库的遗传共适应特性是在系统演化过程中逐渐形成的, 和各基因位点的基因频率一样, 是基因库属性的一个方面。利用群体遗传不平衡状态下的中性基因位点组合的遗传共适应特性, 能揭示群体的起源进化和系统地位; 通过对遗传共适应的认识, 可提高经济性状标记的准确性。文章对遗传共适应的概念、产生的基础和过程, 以及研究现状进行了探讨和分析。     

Genetic diversity and population structure in multiple Chinese goat populations using a SNP panel

Information about genetic diversity and population structure among goat breeds is essential for genetic improvement, understanding of environmental adaptation as well as utilization and conservation of goat breeds. Here, we measured genetic diversity and population structure in multiple Chinese goat populations, namely, Nanjiang, Qinggeda, Arbas Cashmere, Jining Grey, Luoping Yellow and Guangfeng goats. A total of 193 individuals were genotyped for about 47 401 autosomal single nucleotide polymorphisms (SNPs). We found a high proportion of informative SNPs, ranging from 69.5% in the Luoping Yellow to 93.9% in the Jining Grey goat breeds with an average mean of 84.7%. Diversity, as measured by expected heterozygosity, ranged from 0.371 in Luoping Yellow to 0.405 in Jining Grey goat populations. The average estimated pair‐wise genetic differentiation (F_ST) among the populations was 8.6%, ranging from 0.2% to 16% and indicating low to moderate genetic differentiation. Principal component analysis, genetic structure and phylogenetic tree analysis revealed a clustering of six Chinese goat populations according to geographic distribution. The results from this study can contribute valuable genetic information and can properly assist with within‐breed diversity, which provides a good opportunity for sustainable utilization of and maintenance of genetic resource improvements in the Chinese goat populations.     

中国绒山羊遗传多样性现状和系统发生关系的微卫星分析

为了调查中国绒山羊遗传资源现状, 作者应用联合国粮农组织和国际家畜研究所推荐的19对微卫星引物并结合荧光PCR技术, 对9个中国地方产绒山羊群体和1个西非山羊品种进行了遗传多样性检测。14个微卫星座位在10个山羊群体中显示为高度多态, 可作为山羊遗传多样性分析的有效标记。多态信息含量和遗传杂合度等数据表明: 目前中国地方产绒山羊群体的遗传多样性较为丰富, 并且大部分保种场较好地保存了这些地方资源。采用非加权配对算术平均法构建的聚类图和采用主成分分析法得到的散点图均显示, 中国山羊与西非山羊为不同的2类; 中国产绒山羊中河谷山羊、河西绒山羊与其他山羊的遗传距离较远; 其他山羊又大致分为2类: 一类由辽宁绒山羊、新疆山羊、柴达木山羊、陕北山羊组成, 另一类由内蒙古绒山羊组成。此研究结果为开展我国地方绒山羊种质特性研究及资源保护和利用提供了科学依据。     

Study on genetic coadaptability of wild quail populations in China

Genetic coadaptability of wild Japanese quail, wild Common quail and Domestic quail populations in China was studied using 7 microsatellite DNA markers and Monte Carlo method to test genetic disequilibrium. The molecular effects of genetic coadaptability were analyzed through a new statistical model of neutral site. The results showed that genetic coadaptability dominated the genetic disequilibrium of the three quail populations, and totally 16.67%, 9.66% and 10.05% of non-allelic combinations were in the genetic disequilibrium in wild Japanese quail, wild Common quail and Domestic quail populations, respectively. Genetic coadaptability existed at almost all the tested sites. In the molecular point of view, genetic coadaptability plays an important role of keeping lots of polymorphisms in natural populations. Therefore, it is another key factor to the genetic disequilibrium in the population except for linkage. The results enrich the conceptions and connotations of genetic disequilibrium, and help us know more about genetic coadaptability and its effects, and lay a foundation of evaluation and protection of wild quail genetic resources in China.     

Study on genetic coadaptability of wild quail populations in China

Genetic coadaptability, developed from the process of evolution, is one of the properties of gene pool as well as gene frequency of each locus. It was explained in detail by Nei[1] in 1973. He proposed that during evolutionary process, non-allelic genes o…     

湖羊结构基因座遗传共适应性分析

根据多座位电泳法检测的结构基因座上等位基因频率分析湖羊群体的遗传共适应性。结果发现, 在显隐性－显隐性模式中未发现座位间的遗传共适应现象, 显隐性－共显性模式中X-p-Cat组合座位以及共显性－共显性模式中Po-CA、Po-Cat组合座位均存在遗传共适应, 表明在湖羊群体中性结构基因座间存在遗传共适应, 而且起主要的作用, 维持着座位间的遗传平衡或者使座位间处于遗传不平衡状态。     

柴达木山羊群体遗传结构及系统地位的研究

采用简单随机抽样法对柴达木山羊群体进行了遗传检测,从毛色、外型特征、体尺、血液蛋白与DNA多态性等5个方面进行了群体遗传结构分析,并探索了其系统地位.结果表明:(1)毛色和形态特征的平均表型异质度分别为0.3419、0.5207;(2)血液蛋白在6个基因座上具有多态性,平均基因座杂合度为0.2584;(3)DNA-RAPD标记表现丰富的多样性,基因多样度为0.4085～0.5318.通过对柴达木山羊与国内其他山羊的系统聚类,初步探索了该山羊群体的形成及所属,这些都表明柴达木山羊是一个比较古老的未经较高强度选育的地方山羊品种,其基因资源是我国山羊遗传资源中宝贵的一部分.     

Genetic diversity and differentiation of guanaco populations from Argentina inferred from microsatellite data

Genotype data from 14 microsatellite markers were used to assess the genetic diversity and differentiation of four guanaco populations from Argentine Patagonia. These animals were recently captured in the wild and maintained in semi-captivity for fibre production. Considerable genetic diversity in these populations was suggested by the finding of a total of 162 alleles, an average mean number of alleles per locus ranging from 6.50 to 8.19, and H(e) values ranging from 0.66 to 0.74. Assessment of population differentiation showed moderate but significant values of F(ST)=0.071 (P=0.000) and R(ST)=0.083 (P=0.000). An amova test showed that the genetic variation among populations was 5.6% while within populations it was 94.4%. A number of 6.6 migrants per generation may support these results. Unambiguous individual assignment to original populations was obtained for the Pilcaniyeu, Las Heras and La Esperanza populations. The erroneous assignment of 18.75% Rio Mayo individuals to the Las Heras population can be explained by the low genetic differentiation found between these two populations. Thirty-nine of 56 loci per population combinations were in Hardy--Weinberg disequilibrium because of guanaco heterozygote deficiency, which may be explained by population subdivision. The high level of genetic diversity of the guanacos analysed here indicates that the Patagonian guanaco constitutes an important genetic resource for conservation or economic utilization programmes.     

欧洲刺槐种源群体遗传结构和多样性

对来自欧洲和美国的 18个刺槐种源子代进行了等位酶分析。可进行遗传分析的 7个酶系统 (Amy,Fe,L ap,Idh,Mdh,6 Pgd,Skd)中有 14个基因位点 ,其中 12个位点具有多态性。每个多态位点平均等位基因数 (A/L )变化在 1.5 6～ 3.6 7之间 ,平均基因型数 (G/L)变化在 1.6 1～ 7.11之间 ,平均等位基因有效数目 (Ae)变化在 1.0 2～ 2 .5 0之间 ,预期杂合度 (H e)变化在0 .0 2～ 0 .5 6之间。不同种源群体之间也存在较大的遗传差异 ,在 8个德国种源中 ,各群体的 A、Ae、和 H e等相对较小 ,但不同群体间差异较大。各位点等位基因频率在不同种源群体间变化也较大 ,表明德国各种源群体内遗传变异相对较小 ,但群体间差异较大。来自匈牙利和斯洛伐克的 8个种源群则相反 ,各群体的 A、Ae、和 H e等相对较大 ,而不同种源群体间差异则较小 ,各位点等位基因频率在种源群体间变化相对一致 ,表明这两个国家的种源群体内变异较大 ,但不同种源群体间差异较小。欧洲的刺槐种源并未形成明显的地理变异模式 ,而且欧洲的种源和来自原产地的美国种源相比 ,没有发现明显的差异。经过 Hardy-Weinberg平衡检测证明 ,88.4 1%位点符合 H- W遗传平衡 ,表明各群体基因频率和基因型频率保持较高的稳定性 ,且种源内的变异大于种源间变异 ,94 .