6个中国猪地方品种和3个瑞典猪DNA分子系统发育相关关系

线粒体DNA遗传多样性用于评价6个中国地方猪种和3个瑞典家猪系统发育关系。采用PCR和序列分析方法得到了来自9个品种140头猪的线粒体中控制区440bp和细胞色素b基因798bp核苷酸序列。系统发育分析结果表明：6个中国地方猪种起源于亚洲野猪。中国地方猪种和欧洲野猪的线粒体DNA核苷酸序列变异发生在413000－875000年以前,而亚洲紧猪的变异仅发生在7000－156000上以前,由于2000年以前或18世纪初中国猪种导入欧洲家猪,因此瑞典家猪既属于欧洲类也属于亚洲类。     

猪a1-岩藻糖转移酶基因(FUT1)M857位点遗传变异分析

肠毒素大肠杆菌 (ETEC) F18是引起仔猪断奶后水肿和腹泻病的主要病原菌, a-1岩藻糖转移酶(FUT1)基因是ECEC F18侵染猪小肠的受体蛋白基因。利用PCR-RFLP方法检测了1个野猪以及20个中外家猪猪种(群)共696个个体在FUT1基因开放阅读框架的857核苷酸位点的遗传变异, 结果表明: 在所有猪种中, 均未检测到抗性的AA型纯合子, 在外来猪种杜洛克和约克夏、国内猪种临高猪和杂交猪种中检测到AG型杂合子, 外来猪种中的皮特兰、长白猪以及除临高猪外的所有国内猪种和野猪均表现为极端的单态分布, 只有易感的GG基因型。研究结果提示, 中国地方猪种不具备抵抗ETEC F18大肠杆菌的遗传基础, 与外来猪种确实存在差异, 这种差异可能与各自不同的起源有关, ETEC F18抗性基因可能起源于欧洲野猪; 并推测猪种的生长速度与ETEC F18大肠杆菌病的发生具有密切的关系。     

Population structure and genetic diversity of four Henan pig populations

To investigate the population structure and genetic diversity of Henan indigenous pig breeds, samples from a total of 78 pigs of 11 breeds were collected, including four pig populations from Henan Province, three Western commercial breeds, three Chinese native pig breeds from other provinces and one Asian wild boar. The genotyping datasets were obtained by genotyping‐by‐sequencing technology. We found a high degree of polymorphism and rapid linkage disequilibrium decay in Henan pigs. A neighbor‐joining tree, principal component analysis and structure analysis revealed that the Huainan and Erhualian pigs were clustered together and that the Queshan black pigs were clearly grouped together but that the Nanyang and Yuxi pigs were extensively admixed with Western pigs. In addition, heterozygosity values might indicate that Henan indigenous pigs, especially the Queshan black and Huainan pigs, were subjected to little selection during domestication. The results presented here indicate that Henan pig breeds were admixed from Western breeds, especially Nanyang and Yuxi pigs. Therefore, establishment of purification and rejuvenation systems to implement conservation strategies is urgent. In addition, it is also necessary to accelerate genetic resources improvement and utilization using modern breeding technologies, such as genomic selection and genome‐wide association studies.     

Genetic diversity of autochthonous pig breeds analyzed by microsatellite markers and mitochondrial DNA D-loop sequence polymorphism

The evaluation of the genetic structure of autochthonous pig breeds is very important for conservation of local pig breeds and preservation of diversity. In this study, 18 microsatellite loci were used to detect genetic relationship between autochthonous pig breeds [Black Slavonian (BS), Turopolje pig (TP), and Croatian wild boar] and to determine phylogenetic relationship among Croatian autochthonous pig breeds and certain Asian and European pigs using the mitochondrial DNA (mtDNA) D-loop sequence polymorphism. Relatively high degree of genetic variation was found between the observed populations. The analysis of mtDNA showed that haplotypes of the studied pig populations are different from the other European and Chinese haplotypes. BS pigs showed some similarities with Mangalitsa and Duroc breeds. The genetic distances of TP can be explained by high degree of inbreeding during the past century. Despite the European origin of Croatian pig breeds with some impact of Chinese breeds in the past, the results of present study show that genetic diversity is still pronounced within investigated breeds. Furthermore, the genetic diversity is even more pronounced between Croatian breeds and other European and Chinese pig breeds. Thus, conservation of Croatian pig breeds will contribute to overall genetic diversity preservation of pig breeds.     

Mitochondrial Genetic Variation in Chinese Pigs and Wild Boars

The mitochondrial DNAs (mtDNAs) from 30 pig breeds (29 Chinese native breeds and 1 European breed) and wild boars were investigated for restriction fragment length polymorphisms (RFLPs) to determine the phylogenetic relationships and genetic diversity among pig breeds and wild boars. Of the 24 enzymes used, 8 (AvaI, BclI, BglII, EcoRI, EcoRV, ScaI, StuI, and XbaI) detected polymorphisms. By combining the cleavage patterns for each enzyme, 108 individuals were sorted into eight mtDNA mitotypes. There are two haplotype lineages in domestic pigs, i.e., Chinese and European lineages. The pairwise nucleotide sequence divergence was calculated to be 0.56% between Chinese pigs and European pigs, suggesting that they might have diverged from a common ancestor approximately 280,000 years ago. The wild boars showed more extensive genetic variation, four mitotypes were detected in six wild boars. In addition, one of the Zhejiang wild boars was found to share the same mitotype with Chinese native pigs. A UPGMA tree based on genetic distance among mitotypes indicated that mtDNAs of Chinese pigs and European pigs are clearly divided into two clusters, and Chinese wild boars are more closely related to the Chinese pigs. Our results provide molecular evidence to support the previous hypothesis that pigs may be derived from two maternal origins, Asian and European wild boars. Chinese native pig breeds may have a single origin.     

The origin and genetic differentiation of native breeds of pigs in southwest China: An approach from mitochondrial DNA polymorphism

Mitochondrial DNA (mtDNA) of six breeds of native domestic pigs from Yunnan province, southwest China, and two wild boars obtained from Sichuan, China, and Vietnam was analyzed using 20 restriction endonucleases that recognize six nucleotides. Restriction maps were made by double-digestion methods and polymorphic sites were located on the map. According to their mtDNA restriction types, all the breeds were classified into six groups. Genetic distances among groups were calculated to define their phylogenetic relationships. The relationship between the Sichuan wild boar and domestic pigs is close, while the Vietnamese wild boar is relatively far from them, so the domestic pigs in southwest China are likely to have originated from a wild pig which distributed in west China. We compare our results with previous reports in literature and discuss the relationship among Chinese pigs, Japanese pigs, and European pigs. The mtDNA cleavage pattern of the Mingguang pig digested byEcoRV was identical to that of Duroc; mutations at theEcoRI site, detected in the mtDNA of two Dahe pigs, are the same as in the Vietnamese wild boar, suggesting that mutational hot spots exist in the mtDNA of pigs.     

Biodiversity of pig breeds from China and Europe estimated from pooled DNA samples: differences in microsatellite variation between two areas of domestication

Microsatellite diversity in European and Chinese pigs was assessed using a pooled sampling method on 52 European and 46 Chinese pig populations. A Neighbor Joining analysis on genetic distances revealed that European breeds were grouped together and showed little evidence for geographic structure, although a southern European and English group could tentatively be assigned. Populations from international breeds formed breed specific clusters. The Chinese breeds formed a second major group, with the Sino-European synthetic Tia Meslan in-between the two large clusters. Within Chinese breeds, in contrast to the European pigs, a large degree of geographic structure was noted, in line with previous classification schemes for Chinese pigs that were based on morphology and geography. The Northern Chinese breeds were most similar to the European breeds. Although some overlap exists, Chinese breeds showed a higher average degree of heterozygosity and genetic distance compared to European ones. Between breed diversity was even more pronounced and was the highest in the Central Chinese pigs, reflecting the geographically central position in China. Comparing correlations between genetic distance and heterozygosity revealed that China and Europe represent different domestication or breed formation processes. A likely cause is a more diverse wild boar population in Asia, but various other possible contributing factors are discussed.     

Genetic polymorphism of erythrocyte esterase-D in pigs

The erythrocyte esterase-D (Es-D) of four European-American pig breeds, two Taiwan native pigs (Taoyuan and Short ear breeds), Philippine native pig and wild boar populations (Sus scrofa riukiuanus) in Japan was investigated by using starch gel electrophoresis. Analysis of parentage records of the pigs revealed that the phenotypic variation of erythrocyte esterase-D was controlled by two codomi-nant alleles Es-D^A and Es-D^B. The allele Es-D^b was mostly found in three European -American pig breeds, Landrace (0.100), Hampshire (0.135) and Duroc (0.102). All of the wild boar populations were monomorphic for allele Es-D^A.     

中国主要地方品种猪血液蛋白遗传多样性研究

实验采用水平板淀粉凝胶电泳技术,对中国地方猪五大类型９个品种,１个引入品种共２０１个个体进行了遗传多样性分析。共分析遗传座痊３０个,其中只有ＭＤＨ、ＰＥＰＢ、Ａ从位具有多在记民生。中国主要地方猪品种的多态座位百分比Ｐ＝０．２００,平均杂２合度Ｈ＝０．０６５,平均等位基因数Ａ＝１．３００。根据基因频率采用ＰＨＹＬＩＰ３．５ｃ民计算Ｎｅｉ氏遗传距离,然后用“ＮＥＩＧＨＢＯＲ”程序分别构建Ｎｅｉｇｈｂｏ     

Genetic Diversity of Chinese Native Pigs Inferred from Protein Electrophoresis

We examined protein polymorphism of 20 nativepig breeds in China and 3 introduced pig breeds. Thirtyloci have been investigated, among which six loci werefound to be polymorphic. Especially, the polymorphismof malate dehydrogenase (MDH), adenylate kinase(AK), and two new alleles of adenosine deaminase (ADA)had not been reported in domestic pigs and wild pigs.The percentage of polymorphic loci (P), the meanheterozygosity (H), and the mean number ofalleles (A) are 0.200, 0.065, and 1.300, respectively.The degree of genetic variability of Chinese pigs as awhole was higher than that of goats, lower than thatof cattle and horses, and similar to that ofsheep. Using the gene frequencies of the 30 loci, Nei'sgenetic distance among the 20 native breeds in China and3 introduced pig breeds was calculated by theformula of Nei. The program NEIGHBOR in PHYLIP3.5c was chosen to construct an UPGMA tree and a NJtree. Our results show that, of the total geneticvariation found in the native pig breeds in China, 31%(0.31) is ascribable to genetic differencesamong breeds. About 69% of the total genetic variationis found within breeds. Most breeds are in linkagedisequilibrium. The patterns of genetic similaritiesbetween the Chinese native pig breeds were notin agreement with the proposed pig type classification.     

猪a1-岩藻糖转移酶基因(FUT1)在26个中外猪种中的遗传变异研究

肠毒素大肠杆菌F18(ECF18)是引起仔猪断奶后水肿和腹泻病的主要病原菌,a1—岩藻糖转移酶基因(FUT1)是ECF18侵染猪小肠的受体蛋白候选基因。通过采用PCR—RFLP方法检测了5个西方商业猪种以及21个中国地方猪种(群)1458个个体在FUT1基因开放阅读框架的307核苷酸位点的G-A点突变(M307^G-A)遗传变异。结果表明：5个外来猪种以及中国地方猪种中的临高猪在该FUT1基因位点存在多态性,其他中国地方猪种均表现为极端的单态分布,只有易感的GG基因型,没有多态性。由此提示：1)如果猪FUT1 M307^G-A点突变是决定猪小肠上ECF18受体表达与否的关键因素,则绝大部分中国地方猪种均不具备抵抗ECF18的遗传基础,这除了表明ECF18抗性基因有可能起源于西方猪种外,同时也表明对中国地方猪种中在这个位点惟一存在多态性的海南临高猪的品种资源保存具有非常重要的意义。2)一般而言,在中国的养猪生产实践中,中国地方猪种的仔猪抗水肿与腹泻病能力普遍强于外来猪种,研究的结果提示有必要对中国地方猪种所具备的上述遗传抗性做更深入的研究,寻找、定位其相应的QTL或／和抗性基因。     

TYR基因外显子1的序列变异

为了分析家猪与野猪的遗传多样性及起源,测定了来自１２个中国地方家猪品种、３个欧洲引进猪品种以及8个中国野猪和2个越南野猪共36个个体的酪氨酸酶基因（TYR）外显子1的序列,共检出６个单核苷酸多态性位点（SNPs）,且这6个位点的变异均为同义突变,根据这些变异可将酪氨酸酶基因DNA序列归结为４种单倍型。结合已发表的数据,构建了简约中介网络图。 在网络图中,单倍型TYR*2主要为欧洲家猪与欧洲野猪和三条亚洲家猪染色体。大部分亚洲家猪和野猪共享单倍型TYR*1,表明这是一个亚洲类型的单倍型;同时也有部分欧洲家猪与野猪携带这一单倍型。 而单倍型TYR*3和TYR*4为本研究检测到的稀有单倍型,这两种单倍型主要由中国家猪与亚洲野猪组成。这种网络图结构支持家猪的欧洲和亚洲独立起源学说,同时也表明相当部分的欧洲家猪品种受到亚洲猪的基因渗透,而少量中国家猪和日本野猪也受到了欧洲猪的基因渗透。     

The Balkans and the colonization of Europe: the post‐glacial range expansion of the wild boar,Sus scrofa

Aim We focus on the biogeographical role of the Balkan Peninsula as a glacial refugium and source of northward post‐glacial dispersal for many European taxa. Specifically, we analysed the genetic structure and variation of wild boar (Sus scrofa) samples primarily from Greece, a region that has repeatedly served as a glacial refugium within the Balkan Peninsula. Location Continental Greece, the Aegean island of Samos and Bulgaria. Methods We analysed wild boar samples from 18 localities. Samples from common domestic breeds were also examined to take into account interactions between wild and domesticated animals. Phylogenetic analyses were carried out on a 637‐bp fragment of the mitochondrial DNA control region in 200 wild boar and 27 domestic pigs. The sequences were also compared with 791 Eurasian wild boar and domestic pig D‐loop sequences obtained from GenBank. Results Ninety‐four haplotypes were identified in the European wild boar data set, of which 68 were found in the Balkan samples and assigned to two previously described clades: the E1 European and Near Eastern clades. All of the continental samples clustered in the E1 clade and the samples from Samos fell into the Near Eastern clade, consistent with the island’s proximity to Asia Minor. Intriguingly, 62 novel haplotypes were identified and are found exclusively in the Balkans. Only six haplotypes were shared between wild boar and domestic pigs. Main conclusions Our data reveal numerous novel and geographically restricted haplotypes in wild boar populations, suggesting the presence of separate refugia in the Balkans. Our analyses support the hypothesis of a post‐glacial wild boar expansion consistent with the leading edge model, north and west from modern day Greece, and suggest little maternal introgression of Near Eastern and domestic haplotypes into wild Balkan populations.     

Ancient vs. recent processes as factors shaping the genetic variation of the European wild boar: are the effects of the last glaciation still detectable?

The European wild boar is an important game species, subjected to local extinctions and translocations in the past, and currently enormously and worryingly expanding in some areas where management is urgently required. Understanding the relative roles of ancient and recent events in shaping the genetic structure of this species is therefore not only an interesting scientific issue, but it represents also the basis for addressing future management strategies. In addition, several pig breeds descend from the European wild boar, but the geographical location of the domestication area(s) and the possible introgression of pig genomes into wild populations are still open questions. Here, we analysed the genetic variation in different wild boar populations in Europe. Ten polymorphic microsatellites were typed in 252 wild boars and the mtDNA control region was sequenced in a subset of 145 individuals. Some samples from different pig breeds were also analysed. Our results, which were obtained considering also 612 published mtDNA sequences, suggest that (i) most populations are similarly differentiated, but the major discontinuity is found along the Alps; (ii) except for the Italian populations, European wild boars show the signature of a postglacial demographic expansion; (iii) Italian populations seem to preserve a high proportion of preglaciation diversity; (iv) the demographic decline which occurred in some areas in the last few centuries did not produce a noticeable reduction of genetic variation; (v) signs of human-mediated gene flow among populations are weak, although in some regions the effects of translocations are detectable and a low degree of pig introgression can be identified; (vi) the hypothesis of an independent domestication centre in Italy is not supported by our data, which in turn confirm that Central European wild boar might have represented an important source for domestic breeds. We can therefore conclude that recent human activities had a limited effect on the wild boar genetic structure. It follows that areas with high variation and differentiation represent natural reservoirs of genetic diversity to be protected avoiding translocations. In this context controlling some populations by hunting is not expected to affect significantly genetic variation in this species.     

The origin of the domestic pig: independent domestication and subsequent introgression

The domestic pig originates from the Eurasian wild boar (Sus scrofa). We have sequenced mitochondrial DNA and nuclear genes from wild and domestic pigs from Asia and Europe. Clear evidence was obtained for domestication to have occurred independently from wild boar subspecies in Europe and Asia. The time since divergence of the ancestral forms was estimated at approximately 500,000 years, well before domestication approximately 9,000 years ago. Historical records indicate that Asian pigs were introduced into Europe during the 18th and early 19th centuries. We found molecular evidence for this introgression and the data indicated a hybrid origin of some major "European" pig breeds. The study is an advance in pig genetics and has important implications for the maintenance and utilization of genetic diversity in this livestock species.     

Genetic diversity and population structure of six Chinese indigenous pig breeds in the Taihu Lake region revealed by sequencing data

The Chinese indigenous pig breeds in the Taihu Lake region are the most prolific pig breeds in the world. In this study, we investigated the genetic diversity and population structure of six breeds, including Meishan, Erhualian, Mi, Fengjing, Shawutou and Jiaxing Black, in this region using whole‐genome SNP data. A high SNP with proportions of polymorphic markers ranging from 0.925 to 0.995 was exhibited by the Chinese indigenous pigs in the Taihu Lake region. The allelic richness and expected heterozygosity also were calculated and indicated that the genetic diversity of the Meishan breed was the greatest, whereas that of the Fengjing breed was the lowest. The genetic differentiation, as indicated by the fixation index, exhibited an overall mean of 0.149. Both neighbor‐joining tree and principal components analysis were able to distinguish the breeds from each other, but structure analysis indicated that the Mi and Erhualian breeds exhibited similar major signals of admixture. With this genome‐wide comprehensive survey of the genetic diversity and population structure of the indigenous Chinese pigs in the Taihu Lake region, we confirmed the rationality of the current breed classification of the pigs in this region.     

Analysis of Genome-Wide Copy Number Variations in Chinese Indigenous and Western Pig Breeds by 60 K SNP Genotyping Arrays

Copy number variations (CNVs) represent a substantial source of structural variants in mammals and contribute to both normal phenotypic variability and disease susceptibility. Although low-resolution CNV maps are produced in many domestic animals, and several reports have been published about the CNVs of porcine genome, the differences between Chinese and western pigs still remain to be elucidated. In this study, we used Porcine SNP60 BeadChip and PennCNV algorithm to perform a genome-wide CNV detection in 302 individuals from six Chinese indigenous breeds (Tongcheng, Laiwu, Luchuan, Bama, Wuzhishan and Ningxiang pigs), three western breeds (Yorkshire, Landrace and Duroc) and one hybrid (Tongcheng×Duroc). A total of 348 CNV Regions (CNVRs) across genome were identified, covering 150.49 Mb of the pig genome or 6.14% of the autosomal genome sequence. In these CNVRs, 213 CNVRs were found to exist only in the six Chinese indigenous breeds, and 60 CNVRs only in the three western breeds. The characters of CNVs in four Chinese normal size breeds (Luchuan, Tongcheng and Laiwu pigs) and two minipig breeds (Bama and Wuzhishan pigs) were also analyzed in this study. Functional annotation suggested that these CNVRs possess a great variety of molecular function and may play important roles in phenotypic and production traits between Chinese and western breeds. Our results are important complementary to the CNV map in pig genome, which provide new information about the diversity of Chinese and western pig breeds, and facilitate further research on porcine genome CNVs.     

Genetic variation and relationships of eighteen Chinese indigenous pig breeds

Chinese indigenous pig breeds are recognized as an invaluable component of the world''s pig genetic resources and are divided traditionally into six types. Twenty-six microsatellite markers recommended by the FAO (Food and Agriculture Organization) and ISAG (International Society of Animal Genetics) were employed to analyze the genetic diversity of 18 Chinese indigenous pig breeds with 1001 individuals representing five types, and three commercial breeds with 184 individuals. The observed heterozygosity, unbiased expected heterozygosity and the observed and effective number of alleles were used to estimate the genetic variation of each indigenous breed. The unbiased expected heterozygosity ranged between 0.700 (Mashen) and 0.876 (Guanling), which implies that there is an abundant genetic variation stored in Chinese indigenous pig breeds. Breed differentiation was shown by fixation indices (F_IT, F_IS, and F_ST). The F_ST per locus varied from 0.019 (S0090) to 0.170 (SW951), and the average F_ST of all loci was 0.077, which means that most of the genetic variation was kept within breeds and only a little of the genetic variation exists between populations. The Neighbor-Joining tree was constructed based on the Nei D_A (1978) distances and one large cluster with all local breeds but the Mashen breed, was obtained. Four smaller sub-clusters were also found, which included two to four breeds each. These results, however, did not completely agree with the traditional type of classification. A Neighbor-Joining dendrogram of individuals was established from the distance of – ln(proportions of shared alleles); 92.14% of the individuals were clustered with their own breeds, which implies that this method is useful for breed demarcation. This extensive research on pig genetic diversity in China indicates that these 18 Chinese indigenous breeds may have one common ancestor, helps us to better understand the relative distinctiveness of pig genetic resources, and will assist in developing a national plan for the conservation and utilization of Chinese indigenous pig breeds.     

21个野生,培育及地方猪种免疫及生化遗传标记基因位点的遗传分化研究

分析了亚,欧,美,非２１个野生,培育及地方猪种４个免疫遗传标记基因位点（Ｅ,Ｆ,Ｇ,Ｌ系统）和３人生化遗传标记基因位点（Ｃｐ,Ａｍ和Ｔｆ）的遗传多态性,认为Ｅ＾ａｅｇ,Ｆ＾ａ,Ｔｆ＾ｃ基因在亚洲猪种与欧美猪种间存在显著差异,是亚洲猪种３个重要的遗传标记基因,根据Ｆ＾ａ基因频率在亚,欧,美,非猪种的变化规律分析了其基因流向特点,证明欧美猪的育种过程中利用了中国地方猪种的血缘,计算了所测猪种间的Ｎｅｉ