贵州地方猪品种毛色与KIT基因拷贝数之间的关联分析

为了研究KIT基因的拷贝数与贵州地方猪毛色之间的关系,本试验以黔北黑猪、柯乐猪、糯谷猪、香猪4个地方品种为试验材料,采用实时荧光定量PCR方法检测基因组中KIT基因的拷贝数变异,并与荣昌猪和大白猪2个白毛色猪品种相比较.结果显示,4个贵州地方猪种中,全黑/全棕毛色个体的KIT基因拷贝数以缺失为主,黑色带白斑个体的KIT基因拷贝数全部缺失,而棕色带白个体的KIT基因拷贝数增加、正常各半.大白猪的KIT基因拷贝数显著增加,荣昌猪KIT基因拷贝数以正常类型为主.表明大白猪的白毛色由KIT基因拷贝数增加决定,但荣昌猪的白毛色可能与KIT基因的拷贝数变异之间没有直接的联系;4个贵州地方品猪的全黑/全棕色毛色与KIT基因拷贝数的缺失有关,但柯乐猪和香猪中带白斑个体的KIT基因拷贝数并未增加,提示贵州地方猪品种的白斑毛色的形成机制有一定的特殊性.     

Analysis on Polymorphisms of Three CNV Regions in Five Pig Breeds

The paper was aimed to investigate the polymorphism of copy number variation (CNV) in different pig breeds.Three CNV regions of CNVR91,CNVR92 and CNVR143 were chosen from the porcine SNP60 chip genotyping results.The polymorphisms of three CNVs were determined by Real-time quantitative PCR method,taking five pig breeds as samples,including Yorkshire pig,Xiang pig,Kele pig,Nuogu pig and Rongchang pig breeds.The results showed that the dominant status of CNVR91 was loss in Xiang pig,while it was normal in other four pig breeds.The major type of CNVR92 was deletion in Xiang pig,Yorkshire pig,Kele pig and Rongchang pig breeds,with a high normal percent in Nuogu pig.For CNVR143,the dominant event was gain in Xiang pig and Nuogu pig breeds,but it was not diverse in other three pig breeds.These results indicated that three CNV regions emerged with polymorphism in five pig breeds,which might have effects on gene expression in CNV regions and physiological function by dosage effect especially in Xiang pig,Nuogu pig and Kele pig breeds.     

5个猪品种3个拷贝数变异区的多态性分析

为了探究拷贝数变异(copy number variation,CNV)在不同猪品种间的多态性,本试验根据猪SNP60芯片检测结果,以大白猪、香猪、柯乐猪、糯谷猪、荣昌猪为主要研究对象,采用实时荧光定量PCR方法,对5个猪品种基因组中3个CNV区域(CNVR91、CNVR92和CNVR143)的拷贝数进行测定。结果显示,香猪的CNVR91以拷贝数缺失为主,其他4个猪品种的拷贝数以正常为主;香猪、大白猪、柯乐猪、荣昌猪的CNVR92以拷贝数缺失为主,糯谷猪以拷贝数正常为主;香猪和糯谷猪的CNVR143以拷贝数增加为主,其他3个猪品种以拷贝数正常为主。表明3个拷贝数变异区在5个猪品种之间具有多态性,可能通过剂量效应影响香猪、糯谷猪和柯乐猪等相关基因的表达和生理功能。     

皱皮香猪3个基因组拷贝数变异的多态性分布

为探究皱皮香猪个体产生皮肤变异的根本原因,本文基于重测序数据,采用生物信息学分析皱皮香猪基因组中的拷贝数变异(CNV),通过荧光定量 PCR 方法检测皱皮香猪中 3 个 CNVs 的拷贝数变异规律,并与香猪和大白猪进行比较。结果表明:3 个 CNVs 在猪群中的拷贝数变异呈现出多态性变化,皱皮香猪中CNV1以拷贝数缺失型为主,其中的 MPC1和 RSK3基因可能与脂肪沉积有关;皱皮香猪 CNV2和 CNV3以拷贝数增加型占优势,其中的 CCL17和 CX3CL1基因参与皮肤等组织的炎症反应,可能通过剂量效应引起香猪皮肤产生褶皱。     

3个地方猪品种BOLL和STRA8基因结构变异位点的群体分布研究

为了探讨BOLL-I6-sv285（15号染色体BOLL基因第6内含子）和STRA8-I4-sv447（18号染色体STRA8基因第4内含子）这两个结构变异在地方猪与欧洲猪品种中的群体分布差异,试验采用PCR方法对从江香猪、江口萝卜猪、荣昌猪和大白猪4个猪品种进行基因分型,并通过在线软件miRBase、UCSC、RegRNA 2.0对结构变异序列所含的功能元件进行分析。结果显示,BOLL-I6-sv285为一段285 bp的插入,经群体验证,3个地方猪品种以DI和DD基因型为主,I等位基因的频率高于大白猪,插入基因型（Ⅱ）对应较高的产仔数,基因型与从江香猪产仔数之间呈显著相关（P<0.05）;STRA8-I4-sv447为一段447 bp的插入突变,群体中DD基因型占优势,从江香猪、江口萝卜猪和大白猪的I等位基因频率高于荣昌猪,插入基因型（Ⅱ）对应较低的产仔数,基因型与从江香猪产仔数之间呈显著相关（P<0.05）。本试验鉴定的BOLL-I6-sv285和STRA8-I4-sv447两个结构变异可作为从江香猪产仔数的候选分子标记。     

Copy number variations at LEPR gene locus associated with gene expression and phenotypic traits in Chinese cattle

Current evidences show that copy number variations (CNVs) are linked to complex phenotypic traits. Leptin receptor (LEPR) gene plays a critical role in energy homeostasis and fat development and re‐sequencing of the cattle genome revealed the CNV region (herein referred to as “I3 DNA”) within the LEPR intron 3. In the present study, we qualified copy numbers of I3 DNA within LEPR gene in four cattle breeds (Qinchuan, Nanyang, Jinnan and Xianan) by quantitative PCR, and explored their impacts on LEPR gene expression and phenotypic traits in Qinchuan and Nanyang cattle. The results showed that more individuals in Nanyang are with loss of the I3 DNA copy number than that in the others. Additionally, I3 DNA CNVs exhibited a significant negative correlation with LEPR gene expression (P < 0.05). Association analysis showed that gain/normal copy number types performed better traits of body weight, body height and body length than the loss type in Nanyang. To the best of our knowledge, this is the first evidence of the association between LEPR CNVs and cattle traits, and this may help deep understanding of the function of CNVs which may be promising markers for beef cattle breeding and genetics. © 2015 Japanese Society of Animal Science     

Genetic structure of pig breeds from Korea and China using microsatellite loci analysis

To understand molecular genetic characteristics of Korean pigs, the genetic relationships of nine pig breeds including two Korean pigs (Korean native pig and Korean wild pig), three Chinese pigs (Min pig, Xiang pig, and Wuzhishan pig), and four European breeds (Berkshire, Duroc, Landrace, and Yorkshire) were characterized from a 16-microsatellite loci analysis. The mean heterozygosity within breeds ranged from 0.494 to 0.703. Across multiple loci, significant deviation from Hardy-Weinberg equilibrium was observed in most pig breeds, except for two Chinese pigs (Min pig and Wuzhishan pig). This deviation was in the direction of heterozygote deficit. Across population loci, 36 of 144 significantly deviated (P < 0.05) from Hardy-Weinberg equilibrium. The mean FST, a measure of genetic divergence among subpopulations, of all loci indicated that 26.1% of total variation could be attributed to the breed difference. Relationship trees based on the Nei's DA genetic distance and scatter diagram from principal component analysis consistently displayed pronounced genetic differentiation among the Korean wild pig, Xiang pig, and Wuzhishan pig. Individual assignment test using a Bayesian method showed 100% success in assigning Korean and Chinese individual pigs into their correct breeds of origin and 100% exclusion success from all alternative reference populations at P < 0.001. These findings indicate that the Korean native pig has been experiencing progressive interbreeding with Western pig breeds after originating from a North China pig breed with a black coat color. Considering the close genetic relationship of Korean pigs to the Western breeds such as Berkshire and Landrace, our findings can be used as valuable genetic information for the preservation and further genetic improvement of the Korean native pig.     

Detection and analysis of genome-wide copy number variation in the pig genome using an 80 K SNP Beadchip

Copy number variation (CNV) is an important source of genetic variability in human or animal genomes and play key roles in phenotypic diversity and disease susceptibility. In the present study, we performed a genome-wide analysis for CNV detection using SNP genotyping data of 857 Large White pigs. A total of 312 CNV regions (CNVRs) were detected with the PennCNV algorithm, which covered 57.76 Mb of the pig genome and correspond to 2.36% of the genome sequence. The length of the CNVRs on autosomes ranged from 1.77 Kb to 1.76 Mb with an average of 185.11 Kb. Of these, 220 completely or partially overlapped with 1,092 annotated genes, which enriched a wide variety of biological processes. Comparisons with previously reported pig CNVR revealed 92 (29.49%) novel CNVRs. Experimentally, 80% of CNVRs selected randomly were validated by quantitative PCR (qPCR). We also performed an association analysis between some of the CNVRs and reproductive traits, with results demonstrating the potential importance of CNVR61 and CNVR283 associated with litter sizes. Notably, the GPER1 gene located in CNVR61 plays a key role in reproduction. Our study is an important complement to the CNV map in the pig genome and provides valuable information for investigating the association between genomic variation and economic traits.     

Diversity and population density of methanogens in the large intestine of pigs fed diets of different energy levels

Marker gene analysis was performed to assess the effect of energy level on the diversity and population density of methanogens in pig fecal material. Crossbred pigs were fed high or low energy level diets, a high‐energy (HE) diet that satisfied daily gain at 1.2 kg, and a low‐energy (LE) diet with amount of 0.6 times of the HE diet. Growth performance and short‐chain fatty acid in feces were examined. Diversity of methanogen was analyzed by the α‐subunit of methyl coenzyme‐M reductase gene (mcrA) clone library from fecal DNA. The DNA copy numbers of mcrA were quantified by real‐time PCR. There was no difference in the concentration and composition of short‐chain fatty acid between treatments. Differences in the mcrA clone library were observed between HE and LE treatments (p < 0.05). Ninety‐five percent of cloned sequence affiliated genus Methanobrevibacter in the feces of the pig regardless of treatments. During the experimental period, no significant difference in the proportion of copy numbers of mcrA against that of 16S rRNA gene of total bacteria was observed between treatments. In conclusion, feeding energy level affected composition of methanogens in the large intestine of the pig, while population density of methanogen was not affected.     

Genetic variation within coat color genes of MC1R and ASIP in Chinese brownish red Tibetan pigs

Melanocortin receptor 1 (MC1R) and agouti signaling protein (ASIP) are two major genes affecting coat color phenotypes in mammals, and inactivation mutations in the MC1R gene are responsible for red coat color in European pig breeds. Conversely, the gain‐of‐function ASIP mutations block MC1R signaling and lead to the production of red pheomelanin. Chinese Tibetan pigs have three types of coat color phenotypes, including brownish red, solid black and black with patches of brownish red and white. Herein, we investigated variations of the MC1R and ASIP genes in Tibetan pigs. The results showed that the brownish red Tibet pig had the dominant black MC1R allele (E^D1). No loss‐of‐function mutation in MC1R responsible for red coat color in European breeds was observed in this breed. No causal mutation for the red coat color phenotype was found in the coding sequence of the ASIP gene. A novel missense mutation c.157G > A was firstly identified in exon 2 of ASIP, which was further genotyped in 285 pigs from five Chinese breeds and three Western breeds having different coat color phenotypes. Nearly all pigs were GG homozygotes. In conclusion, no functional variant responsible for brownish red coloration was found in the coding region of MC1R and ASIP in Tibetan pigs.     

6个猪种胰岛素样生长因子-1(IGF-1)基因座位遗传多态性检测

本文采用ＰＣＲ－ＲＦＬＰ分析方法对我国地方猪种民猪、香猪、桃源猪、内江猪、姜曲海猪以及用作对照的国外猪种杜洛克猪的ＩＧＦ－１基因座位进行研究。结果发现：ＩＧＦ－１基因ＰＣＲ扩增片段存在２个限制性内切酶ＨｈａＩ酶切位点,其中１个酶切位点产生遗传多态。此片段上共产生２个等位基因。在ＩＧＦ－１基因位点上,香猪除与桃源猪基因频率差异不显著之外,与其它猪种之间基因频率差异极显著（Ｐ＜０．０１）,而其它各猪种之间差异均不显著     

Evaluation of candidate genes related to litter traits in Indian pig breeds

Improvement in litter traits is the key to profitable pig farming that directly enhances the economic standing of the farmers in developing countries. The present study aimed to explore oestrogen receptor (ESR), epidermal growth factor (EGF), follicle-stimulating hormone beta subunit (FSHβ), prolactin receptor (PRLR) and retinol-binding protein 4 (RBP4) genes as possible candidate genetic markers for litter traits in indigenous pigs of India. The breeds included in the study were Ghungroo, Mali, Niang Megha and Tenyi Vo, and the reproductive traits considered were litter size at birth (LSB), number born alive (NBA), litter weight at birth (LWB), litter size at weaning (LSW) and litter weight at weaning (LWW) at their first parity. PCR-RFLP and primer-based mutation detection methods were used to identify polymorphism, and associations between the genotypes and the traits were analysed using a general linear model. The Ghungroo pigs recorded the best litter performances among the breeds (p < .05, LWB p < .01). Different alleles and genotypes of the genes under study were detected. Short interspersed nuclear element (SINE) −/− genotype of FSHβ revealed significantly higher litter traits (p < .05, LSB p < .01). The LWW was also found to be significantly influenced by ESR BB and AB, EGF AB and BB, and PRLR CC genotypes (p < .05). Although we did not find statistically significant and consistently superior litter traits with respect to different genotypes of other studied genes than genotype SINE −/− of the FSHβ, PRLR CC genotype demonstrated superior performances for all the litter traits. Our study revealed the FSHβ as a potential candidate genetic marker for litter traits in indigenous pig breeds of India.     

Molecular genetic diversity and genetic structure of Vietnamese indigenous pig populations

The study characterized genetic diversity and genetic structure of five indigenous pig populations (Ha Lang, Muong Te, Mong Cai, Lung and Lung Pu), two wild pig populations (Vietnamese and Thai wild pigs) and an exotic pig breed (Yorkshire) using FAO/ISAG recommended 16 microsatellite markers in 236 samples. All estimated loci were very polymorphic indicated by high values of polymorphism information content (from 0.76 in S0225 to 0.92 in Sw2410). Indigenous populations had very high level of genetic diversity (mean He = 0.75); of all indigenous breeds, Lung Pu showed highest mean number of alleles (MNA = 10.1), gene diversity (He = 0.82), allele richness (5.33) and number of private alleles (10). Thirteen percentage of the total genetic variation observed was due to differences among populations. The neighbour‐joining dendrogram obtained from Nei's standard genetic distance differentiated eight populations into four groups including Yorkshire, two wild populations, Mong Cai population and a group of four other indigenous populations. The Bayesian clustering with the admixture model implemented in Structure 2.1 indicated seven possible homogenous clusters among eight populations. From 79% (Ha Lang) to 98% (Mong Cai). individuals in indigenous pigs were assigned to their own populations. The results confirmed high level of genetic diversity and shed a new light on genetic structure of Vietnam indigenous pig populations.     

Genetic variation and phylogenetics of Lanyu and exotic pig breeds in Taiwan analyzed by nineteen microsatellite markers

The Lanyu pig is an indigenous miniature pig breed on Lanyu Islet near Taiwan, with a mitochondrial DNA genetic lineage remote from Asian and European pig breeds. The unknown population genetic structure and increased inbreeding among the small population of conserved Lanyu pigs is now of great conservation concern. Additionally, the presence for more than a century of exotic pig breeds in Taiwan has made gene introgression from exotic pig breeds into Lanyu pigs very possible. The present study thus aimed to investigate nuclear genetic variation within the conserved Lanyu pigs and the phylogenetic relationship and possible genetic introgression between Lanyu and exotic pig breeds by determining the polymorphism of 19 microsatellite loci. In the neighbor-joining tree constructed from 7 pig breeds based on Cavalli-Sforza and Edward chord genetic distances, 3 major clades were recognized, in which the Asian and European breeds were separately clustered into 2 clades with a 93.0 and 99.9% bootstrap confidence value, respectively. All individuals of the Lanyu breed formed a unique subclade within the Asian clade based on the distance of the proportion of shared alleles, -ln(ps), suggesting that the Lanyu breed possesses a unique nuclear genetic structure and that no nuclear gene introgression from exotic breeds into the conserved Lanyu pigs has occurred in recent history. Fifteen of 19 microsatellite loci deviated from Hardy-Weinberg equilibrium (by Wright's statistic), suggesting a significant loss of heterozygosity in the conserved population. The valuable nuclear genetic structure and phylogenetic information should assist future conservation and population management of Lanyu pigs.     

Characteristic features of porcine endogenous retroviruses in Vietnamese native pigs

We aimed to clarify the genomic characteristics of porcine endogenous retroviruses (PERVs) in Vietnamese native pig (VnP) breeds. First, we investigated genetic polymorphisms in β‐ and γ‐like PERVs, and we then measured the copy numbers of infectious γ‐like PERVs (PERV‐A, B, and C). We purified genomic DNA from 15 VnP breeds from 12 regions all over the country and three Western pig breeds as controls, and investigated genetic polymorphisms in all known PERVs, including the beta (β)1–4 and gamma (γ)1–5 groups. PERVs of β1, β2, β3, and γ4 were highly polymorphic with VnP‐specific haplotypes. We did not identify genetic polymorphisms in β4, γ1, or γ2 PERVs. We then applied a real‐time polymerase chain reaction–based method to estimate copy numbers of the gag, pol, and env genes of γ1 PERVs (defined as A, B, and C). VnP breeds showed significantly lower copy number of the PERV genes compared with the Western pig breeds (on average, 16.2 and 35.7 copies, respectively, p < .05). Two VnP breeds showed significantly higher copy number compared with the other VnPs (p < .05). Our results elucidated that VnPs have specific haplotypes and a low copy number of PERV genes.     

荣昌猪和两种小型猪遗传背景的微卫星分析

荣昌猪是我国优良地方品种,巴马香猪和贵州小型香猪为我国独特小型猪品系。本研究采用美国猪基因组协作计划推荐的19个微卫星标记对荣昌猪、荣昌猪B系、巴马香猪、贵州小型香猪及外来猪种大白猪进行了遗传学检测和分析。结果表明:19个微卫星位点在群体中均表现为多态,每位点等位基因数10~23个。5个猪种中荣昌猪B系的遗传多样性最高,荣昌猪次之;2种小型猪的遗传多样性较低,其中巴马香猪的等位基因数(121个)略大于贵州小型香猪(114个),但其遗传多样性指数(平均期望杂合度0.6535±0.0347)小于贵州小型香猪(0.6919±0.0227),反映了巴马香猪较低的基因杂合度和较小的遗传变异;大白猪的遗传多样性最低。从品系的共有等位基因来看,荣昌猪B系基因背景组成中其亲本品系荣昌猪所占比例(30.22%)要大于大白猪(24.37%);大白猪和其他4个猪群体的共享等位基因数均较低(21.24%~25.12%);巴马香猪和贵州小型香猪之间共有等位基因数最高(45.06%)。采用基于遗传距离的NJ法和基于基因频率的最大似然法进行系统聚类,除了大白猪明显为独立分支及荣昌猪B系表现出较远的聚类关系外,其他3个猪种间的聚类有所不同。     

Haplotype diversity in MC1R locus between the Min and white-haired pig breeds

In this article, we investigated the genetic variations in the coding region of porcine melanocortin receptor 1 (MC1R) gene in three pig breeds (Min, Yorkshire and Landrace) with black and white coat colors. Six polymorphic sites were found to be significantly associated with coat color. Two blocks were identified in the linkage disequilibrium map, the haplotypes in the first block are nt67/68indelCC and nt67/68indel--, and the haplotypes in the second block are ACCGA and GTTAG. The median-joining network diagram of MC1R haplotypes showed most Min pigs and other Asia domestic breeds own similar haplotypes to ACCGA, while the haplotypes of Europe pig breeds are similar to GTTAG. The phylogenetic analysis of the MC1R CDS further showed Min pigs are close to Laiwu pigs (Shandong, China), which indicated that the black coat color trait of Min pig might be originated and evolved from the black pig breed in Shandong Peninsula of China.     

Phylogenetic analysis for the Seoul National University (Minnesota) miniature pig by mitochondrial DNA sequence polymorphism

Seoul National University (SNU) miniature pigs are originated from the Minnesota miniature pig. This study was conducted to investigate the maternal origin of SNU (Minnesota) miniature pigs and their phylogenetic relationships by analyzing the mitochondrial DNA (mtDNA) D‐loop (control region) sequence. Two mtDNA D‐loop sequences of the SNU miniature pigs were identified. On an unweighted pair‐group method with an arithmetic mean (UPGMA) phylogenetic tree analysis, the large white was the pig breed closest to the SNU miniature pig, and the pairwise distance analysis showed the same result. While mtDNA sequences of 4 pig breeds which were used to establish Minnesota miniature pig were not known, our result might be different from the history of the Minnesota miniature pig development. In conclusion, we thought that some haplotypes of the Minnesota miniature pig maternally were originated from the Large white pig, or that wild pigs had similar mtDNA sequences to the Large white pig, and all SNU miniature pigs were derived from this colony.     

Polymorphism of FSHR Gene Exon 10 and Its Relationship with the Litter Size of Xiang Pigs

Follicle-stimulating hormone (FSH), a glycoprotein secreted from pituitary, can regulate ovarian function through the FSH receptor (FSHR).To evaluate the effects of FSHR gene on the litter size of Xiang pig population, the polymorphisms of FSHR gene exon 10 were detected by polymerase chain reaction (PCR) and sequencing methods, and the effect of polymorphisms in FSHR gene exon 10 on litter size traits in Xiang pigs was analyzed using the least square analysis.In eight candidate sites, there were two polymorphic loci were detected out from Xiang pig population, which were rs322800083 (C276T) and rs332115220 (T601C). Moreover, a new SNP novel 1 (G-92A) was discovered.Four haplotypes were constructed between rs322800083 and rs332115220 sites, in which C-T was the main haplotype (45.0%) and presented closely linkage disequilibrium (r²=0.334) in Xiang pig population. Furthermore, the haplotype C-T corresponded to the highest total number born (TNB) at the second fetus of Xiang pigs, haplotype C-C to the lowest TNB. It was notified that haplotype C-T produced 0.99 TNB of Xiang pigs more than haplotype C-C (P<0.05). And the TNB at the third fetus was also the highest in haplotype C-T, which produced 1.61 and 2.33 TNB more than haplotypes T-C and C-C (P<0.01). The genotypes of locus rs332115220 was weakly correlated with the third fetus of Xiang pig population (ρ=0.429).The results suggested that haplotype C-T could be used as a molecular marker to assist selection for the litter size of Xiang pigs.     

A substitution within erythropoietin receptor gene D1 domain associated with litter size in Beijing Black pig,Sus scrofa

Studies of uterine capacity and litter size in swine have suggested that erythropoietin receptor (EPOR) plays an important role in fetal survival through maturation of red blood cells. In this study, we screened the porcine EPOR gene for mutations and identified three single nucleotide polymorphisms (SNPs): two missense mutations and one synonymous mutation. We then genotyped 272 Beijing Black sows, Sus scrofa, and compared this data with litter sizes from a total of 1523 parities among the sows. The G allele of the nonsynonymous SNP, EPOR c.434A>G, was associated with greater litter size at both first parity (P < 0.05) and at later parities (P < 0.01). This SNP causes His92Arg adjacent to the fourth conserved cysteine residue in the mature protein and is in the D1 domain of the protein. Additionally, we determined the allele frequencies for this SNP among six Chinese indigenous pig breeds (Bamei, Erhualian, Laiwu Black, Mashen, Meishan and Min) and three Western commercial pig breeds (Duroc, Landrace and Large White). The c.434G allele was significantly more common among the more prolific Chinese breeds than the Western breeds, implying that EPOR c.434A>G could be a useful genetic marker to improve litter size in swine.