中国三种实验用小型猪线粒体DNAD-loop多态性分析

分析中国三种实验用小型猪线粒体DNA（mtDNA）D-loop的多态性,建立各品种品系猪的遗传标记,为各品种、品系猪的鉴别提供依据。应用PCR技术分别对西双版纳近交系小耳猪、广西巴马小型猪、贵州小型香猪和长白猪的血液总DNA样品中mtDNAD-loop进行扩增,用23种限制性内切酶消化,观察其酶切多态。PCR扩增其mtDNAD-loop5′端227bp高变区域,应用PCR?SSCP和PCR直接测序分析,观察其单链构象多态和序列多态。结果显示：三种小型猪之间未见酶切长度多态、单链构象多态和序列多态。与长白猪之间表现出单链构象多态和序列多态。本研究认为：三种实验用小型猪之间mtDNA多态性贫乏,证明其亲源关系很近,在母系起源和进化上有一致性,应用PCR RFLP、PCR SSCP和PCR直接测序分析,尚不能作为三种实验用小型猪品种、品系鉴定的依据,但与长白猪等欧系猪比较有一定差异。 Abstract：the present study is to analyze the polymorphism of the mtDNA D-loop in three breeds of laboratory miniature pigs in China , and to establish its cytoplasmic DNA markers to distinguish among them . The polymorphism of mtDNA D-loop and its 5′-end high variable regions were detected by PCR-RFLP , PCR-SSCP and PCR-direct sequencing on Xishuangbanna Small-ear inbred pig, Guizhou miniature Xiang pig , Guangxi Bama miniature pig and Landrace.There was no polymorphism obtained among or within three breeds of Chinese laboratory miniature pigs besides Landrace. It is concluded that the polymorphism of mtDNA D-loop within the three breeds of Chinese laboratory miniature pigs is poor , These methods cannot be used to distinguish among them , but it can be used to distinguish them from Landrace.     

Polymerase chain reaction analysis of mitochondrial DNA polymorphism in N'Dama and Zebu cattle

A study of polymorphisms of mitochondrial DNA (mtDNA) of West African N'Dama (Bos taurus) and East African Zebu (B. indicus) cattle was carried out to obtain information on maternal phylogenetic relationships between these breeds. A relatively large sample size was made possible by using polymerase chain reaction (PCR) amplification of DNA prepared from small blood samples to generate fragments of two known polymorphic mtDNA regions, one within the gene encoding subunit 5 of NADH dehydrogenase and one encompassing the entire D-loop. This approach allowed us to achieve a higher resolution restriction analysis on mtDNA from more animals than would have been possible by conventional methods. PCR-amplified mtDNA of 58 animals from five populations was examined at 26 restriction sites by 16 enzymes. In this way 154 nucleotides of mtDNA were scanned for polymorphism. Six polymorphic sites were located by this means, five of which were within the D-loop and one of which was within the NADH dehydrogenase 5 gene. None of the polymorphisms observed could be con sidered typical of breed or type.     

三种小型猪线粒体DNA控制区的比较研究

目的分析五指山小型猪、巴马小型猪和贵州香猪线粒体DNA控制区碱基序列,比较研究不同猪种的遗传标志。方法应用PCR技术分别对这三种小型猪的血液总DNA样品中线粒体DNA D-loop区进行扩增,测序比对。结果猪的线粒体DNA D-loop区分三个区域。I区（靠近5’端区域）704bp,五指山小型猪在此区共有6个变异位点,通过6个变异位点中归纳出3个单倍体,而巴马小型猪在此区有9个变异位点,通过9个变异位点归纳出4个单倍体,贵州香猪在此区共有6个变异位点,通过6个变异位点归纳出3个单倍体。Ⅱ区（串联重复序列区）,五指山小型猪、巴马小型猪和贵州香猪序列相同。Ⅲ区（靠近3’端区域）三种小型猪的序列几乎相同。结论五指山小型猪、巴马小型猪和贵州香猪三种小型猪之间线粒体DNA碱基序列变异位点较少,五指山小型猪和巴马小型猪亲缘关系较近。     

中国17个黄牛品种mtDNA变异特征与多态性分析

中国黄牛品种资源丰富,尚有28个地方固有品种.为了进一步深入了解这些宝贵遗传资源,本研究通过mtDNA变异特征与多态性分析揭示这些来自中国不同地域地方黄牛的母系起源与分子系统学特征.在17个品种84个体的mtDNA D-loop全序列中,一共检测到了102个核苷酸替代突变位.由此定义的53个单倍型被类聚为2个明显的单倍群：普通牛和瘤牛.mtDNA D-loop全序列变异的第一个特征是转换发生的频率远高于颠换;第二个特征是缺失与替代突变共存;第三个特征是缺失突变率比较高.所有D-loop全序列的核苷酸多样性和单倍型多样性分别为0.026 78±0.000 50和0.919±0.027.普通牛D-loop单倍型在北方牛种群中占有优势(80%～100%),而瘤牛单倍型在南方牛种群中占有优势(42.9%～100%),2种不同单倍型在中原牛种群中的分布也存在差异.2种不同单倍型在中国不同地域17个黄牛品种中的差异性分布揭示出了瘤牛mtDNA基因在中国黄牛中自南而北、由高到低的流动模式,这种基因流动模式的形成可能是由历史事件、地理隔离以及气候环境差异等造成的.     

Genetic diversity of Guangxi chicken breeds assessed with microsatellites and the mitochondrial DNA D-loop region

The domestic chicken (Gallus gallus domesticus) is an excellent model for genetic studies of phenotypic diversity. The Guangxi Region of China possesses several native chicken breeds displaying a broad range of phenotypes well adapted to the extreme hot-and-wet environments in the region. We thus evaluated the genetic diversity and relationships among six native chicken populations of the Guangxi region and also evaluated two commercial breeds (Arbor Acres and Roman chickens). We analyzed the sequences of the D-loop region of the mitochondrial DNA (mtDNA) and 18 microsatellite loci of 280 blood samples from six Guangxi native chicken breeds and from Arbor Acres and Roman chickens, and used the neighbor-joining method to construct the phylogenetic tree of these eight breeds. Our results showed that the genetic diversity of Guangxi native breeds was relatively rich. The phylogenetic tree using the unweighed pair-group method with arithmetic means (UPGAM) on microsatellite marks revealed two main clusters. Arbor Acres chicken and Roman chicken were in one cluster, while the Guangxi breeds were in the other cluster. Moreover, the UPGAM tree of Guangxi native breeds based on microsatellite loci was more consistent with the genesis, breeding history, differentiation and location than the mtDNA D-loop region. STRUCTURE analysis further confirmed the genetic structure of Guangxi native breeds in the Neighbor-Net dendrogram. The nomenclature of mtDNA sequence polymorphisms suggests that the Guangxi native chickens are distributed across four clades, but most of them are clustered in two main clades (B and E), with the other haplotypes within the clades A and C. The Guangxi native breeds revealed abundant genetic diversity not only on microsatellite loci but also on mtDNA D-loop region, and contained multiple maternal lineages, including one from China and another from Europe or the Middle East.     

Genetic relationship amongst the major non-coding regions of mitochondrial DNAs in wild boars and several breeds of domesticated pigs

We completed phylogenetic analysis of the major non-coding region of the mitochondrial DNA (mtDNA) from 159 animals of eight Euro-American and six East Asian domesticated pig breeds and 164 Japanese and five European wild boars. A total of 62 mtDNA haplotypes were detected. Alignment of these regions revealed nucleotide variations (including gaps) at 73 positions, including 58 sites with transition nucleotide substitutions, and two transversion substitutions. Phylogenetic analysis of the sequences could not organize domestic pig breeds into discrete clusters. In addition, many of the haplotypes found in members of diverged clustering groups were found primarily in Euro-American pig breeds, indicating extensive introgression of Asian domestic pigs into European breeds. Furthermore, phylogenetic analysis allocated the DNA sequences of non-coding regions into two different groups, and the deepest branchpoint of this porcine phylogeny corresponded to 86 000-136 000 years before present. This time of divergence would predate the historical period when the pig is thought to have been domesticated from the wild boar.     

Mitochondrial DNA sequence variation and phylogenetic relationships among Iberian pigs and other domestic and wild pig populations

Nucleotide sequences of mitochondrial DNA (mtDNA) cytochrome B gene (1140 bp) and control region (707 bp) were used to determine the phylogenetic relationships among 51 pig samples representing ancient and current varieties of Iberian pigs (26), Spanish wild boars (seven) and other domestic pigs (18) of cosmopolitan (Duroc, Large White, Landrace, Pietrain and Meishan) and local (Spotted Black Jabugo, Basque and Mangalitza) breeds. A neighbour-joining tree constructed from pairwise distances provide evidence of the European origin of both Iberian pigs and Spanish wild boars. The introgression of Asian mtDNA haplotypes in the genetic pool of the Iberian breed seems unlikely. Four estimates of sequence divergence between European and Asian clades were calculated from the two main domains of the D-loop region and the synonymous and nonsynonymous nucleotide substitutions in the cytochrome B gene. The time since the divergence of pig ancestors was estimated at about 600,000 years before present.     

Intra- and interbreed genetic variations of mitochondrial DNA major non-coding regions in Japanese native dog breeds [Canis familiaris)

Mitochondrial DNA (mtDNA) major non-coding regions were amplified from 73 dogs of eight Japanese native dog breeds and from 21 dogs of 16 non-Japanese dog breeds by the polymerase chain reaction and their DNA sequences were determined. A total of 51 nucleotide positions within the non-coding region (969–972 base pairs) showed nucleotide variations of which 48 were caused by transition. These nucleotide substitutions were abundant in the region proximate to tRNA^Pro. In addition to the nucleotide substitutions, the dog mtDNA D-loop sequences had a heteroplasmic repetitive sequence (TACACGTÀCG) involving size variation. The DNA sequences of the non-coding region were classified into four different groups by phylogenetic analysis and the deepest branchpoints of this dog phylogeny was calculated to about 100 000 years before the present. Phylogenetic analysis showed that Japanese native dog breeds could not be clearly delimited as distinct breeds. Many haplotypes found in members of some clustering groups were seen in each dog breed, and interbreed nucleotide differences between Japanese dog breeds were almost the same as the intrabreed nucleotide diversities.     

西藏小型猪的线粒体DNA控制区分析

目的研究西藏小型猪的遗传标记以及与其他国内地方猪的亲缘关系。方法扩增102头西藏小型猪以及16头巴马小型猪、17头贵州香猪的线粒体DNA控制区,测序并与国内其他猪进行比较。结果西藏小型猪线粒体DNAD-loop区分三个区域。串联重复序列区处于中间位置,包含有15～29个10 bp的重复片段,分为A、B两种类型。D-loop 3′端340 bp,与国内其他猪的序列相同比较保守;5′端704 bp,共有22个变异位点。由22个变异位点中归纳出25个单倍型,其中有两种主要的单倍型,分别占34.4%和36.6%。根据三个转换位点：305、500、691,将西藏小型猪分成了两组,几乎与串联重复序列所分的A、B两组类型相对应。与西藏小型猪相比,巴马小型猪和贵州香猪D-loop 5′端变异位点较少,分别只有4种和2种单倍型,串联重复区也只有一个类型。结论西藏小型猪可能有两个母系祖先并且与我国西南地区的品种猪有较近的亲缘关系;不同的串联重复片段类型和5′端的变异位点可以联合组建西藏小型猪的遗传标记。     

Identification of mitochondrial markers for genetic traceability of European wild boars and Iberian and Duroc pigs

Iberian pigs and wild boars are the source of highly priced meat and dry-cured products. Iberian maternal origin is mandatory for labeled Iberian products, making necessary the authentication of their maternal breed origin. Discrimination between wild and domestic pig maternal origin may be useful to distinguish labeled wild boar meat obtained from hunting or farming. In order to detect useful polymorphisms to trace Iberian, Duroc and wild boar maternal lineages, we herein investigated the complete porcine mitochondrial DNA (mtDNA) using three complementary approaches. Near-complete mtDNA sequences (16989 bp), excluding the minisatellite present in the displacement loop region (D-loop), were successfully determined in six Iberian pigs, two Duroc and six European wild boars. To complete the mtDNA analysis, the D-loop minisatellite region was also analyzed in the same set of samples by amplification and capillary electrophoresis detection. Finally, the frequencies of Asian and European Cytochrome B (Cyt B) haplotypes were estimated in Iberian (n = 96) and Duroc (n = 125) breeds. Comparison of near-complete mtDNA sequences revealed a total of 57 substitutions and two Indels. Out of them, 32 polymorphisms were potential Iberian markers, 10 potential Duroc markers and 16 potential wild boar markers. Fourteen potential markers (five Iberian and nine Duroc), were selected to be genotyped in 96 Iberian and 91 Duroc samples. Five wild boar potential markers were selected and tested in samples of wild boars (73) and domestic pigs including: 96 Iberian, 16 Duroc, 16 Large White and 16 Landrace. Genotyping results showed three linked markers (m.7998C>T, m.9111T>C, m.14719A>G) absent in Duroc and present in Iberian pigs with a frequency 0.72. Six markers (m.8158C>T, m.8297T>C, m.9230G>A, m.11859A>G, m.13955T>C, m.16933T>C), three of them linked, were absent in Iberian pigs and present in Duroc with a joint frequency of almost 0.50. Finally three linked markers (m.7188G>A, m.9224T>C, m.15823A>G) were solely detected in wild boars with a frequency 0.22. The D-loop minisatellite results showed overlapping ranges of fragment sizes and suggested heteroplasmy, a result that nullify the use of this region for the development of breed diagnostic markers. The Cyt B haplotype results showed the presence of European haplotypes in Iberian while one of the Asian haplotypes was detected in Duroc with a frequency 0.22, linked to the Duroc marker m.9230G>A. Our results are valuable to resolve the problems of Iberian and wild boar maternal origin determination but additional markers are required to achieve totally useful genetic tests.     

Paternal inheritance of mitochondrial DNA in the sheep (Ovine aries)

Paternal inheritance of mitochondria DNA in sheep was discovered by examination of 152 sheep from 38 hybrid families for mtDNA D-loop polymorphisms using PCR-RFLP, amplification of repeated sequence somain, and PCR-SSCP of the D-loop 5' end region of a 253 bp fragment. Our findings have provided the first evidence of paternal inheritance of mtDNA in sheep and possible mechanisms of paternal inheritance were discussed.     

Genetic characterization of horse bone excavated from the Kwakji archaeological site,Jeju, Korea

We determined the nucleotide sequences of the hypervariable D-loop region of mitochondrial DNA (mtDNA) from horse bone (humerus, A.D. 700 to A.D. 800) that was excavated from the Kwakji archaeological site, Jeju, Korea. We compared them with ones from extant horses. We designed three pairs of oligonucleotide primers from the tRNA-Thr and tRNA-Phe gene regions of mtDNA that are highly conserved among many other animal species. We cloned 232, 336, and 644 bp from the horse bone in order to determine the mtDNA D-loop sequence. The sequence was 1,124 bp long; the middle contained 19 tandem repeats of an 8-bp sequence (TGTGCACC) that is specific to equines. The mtDNA D-loop region contained each base (total number, percentage of total) as follows: A (317, 28.20%), C (336, 29.89%), G (169, 15.04%), and T (302, 26.87%). This sequence, like those of other horse populations, was AT rich. Sequence divergence was the lowest (1.71%) between the ancient horse bone and that of the Thoroughbred horse 1. The neighbor-joining and strict consensus tree of three of the most parsimonious trees also suggested that the ancient bone was considerably unrelated to native Jeju horses. The molecular phylogenetic characteristics of the horse bone that was excavated from the Kwakji archaeological site (Jeju, Korea) showed that some horse breeds may have existed on Jeju Island, Korea before Mongolian horses were introduced. The horse bone that was excavated from the Kwakji archaeological site may aid future research on the origin and ancestry of native Jeju horses.     

Molecular phylogeny of Indian horse breeds with special reference to Manipuri pony based on mitochondrial D-loop

Manipuri pony is the geographically distant breed of horse from the five recognized horse breeds found in the Indian subcontinent. The phylogenetic relationship of Manipuri pony with the other breeds is unknown. The diversity in the mitochondrial (mt) DNA D-loop region is employed as an important tool to understand the origin and genetic diversification of domestic horses and to examine genetic relationships among breeds around the world. This study was carried out to understand the maternal lineages of Manipuri pony using the 247 bp region of the mtDNA D-loop. The dataset comprised of eleven numbers of self developed sequences of Manipuri pony, 59 and 35 number of retrieved sequences of Indian horse breeds and other worldwide breeds respectively. A total of 35 haplotypes was identified with a high level of genetic diversity in the Indian breeds. A total of seven major mtDNA haplogroups (A–G) was identified in the Indian horse breeds that indicated the abundance of mtDNA diversity and multiple origins of maternal lineages in them. The majority of the studied sequences of Indian breeds (33.3 %) were grouped into haplogroup D and least (3.9 %) in haplogroup E. The Manipuri breed showed the least F_ST distance (0.03866) with the most diverged Indian breeds and with Thoroughbred horse among the worldwide. This study indicated a close association between Manipuri pony and Thoroughbred.     

Paternal inheritance of mitochondrial DNA in the sheep ( Ovine aries )

Paternal inheritance of mitochondria DNA in sheep was discovered by examination of 152 sheep from 38 hybrid families for mtDNA D-loop polymorphisms using PCR-RFLP, amplification of repeated sequence somain, and PCR-SSCP of the D-loop 5′ end region of a 253 bp fragment. Our findings have provided the first evidence of paternal inheritance of mtDNA in sheep and possible mechanisms of paternal inheritance were discussed.     

Paternal inheritance of mitochondrial DNA in the sheep (Ovine aries)

Paternal inheritance of mitochondria DNA in sheep was discovered by examination of 152 sheep from 38 hybrid families for mtDNA D-loop polymorphisms using PCR-RFLP, amplification of repeated sequence somain, and PCR-SSCP of the D-loop 5′ end region of a 253 bp fragment. Our findings have provided the first evidence of paternal inheritance of mtDNA in sheep and possible mechanisms of paternal inheritance were discussed.     

Sequence and properties of the human KB cell and mouse L cell D-loop regions of mitochondrial DNA.

The sequences of the displacement-loop (D-loop) regions of mitochondrial DNA (mtDNA) from mouse L cells and human KB cells have been determined and provide physical maps to aid in the identification of sequences involved in the regulation of replication and expression of mammalian mtDNA. Both D-loop regions are bounded by the genes for tRNAPhe and tRNAPro. This region contains the most highly divergent sequences in mtDNA with the exceptions of three small conserved sequence blocks near the 5' ends of D-loop strands, a 225 nucleotide conserved sequence block in the center of the D-loop strand template region, and a short sequence associated with the 3' ends of D-loop strands. A sequence similar to that associated with the 3' termini of D-loop strands overlaps one of the conserved sequence blocks near the 5' ends of D-loop strands. The large, central conserved sequence probably does not code for a protein since no open reading frames are discretely conserved. Numerous symmetric sequences and potential secondary structures exist in these sequences, but none appear to be clearly conserved between species.     

耐力运动员及普通人群线粒体DNA调控区遗传多态性分析

目的：通过ＰＣＲ技术对优秀耐力项目运动员以及普通个体的ｍｔＤＮＡ调控区遗传多态性进行分析,以期发现与运动能力相关联的基因标记。方法：以单根毛发为检材,运用ＰＣＲ技术分析中国优秀耐力性项目运动员（ｎ＝６７）,一般水平运动员（ｎ＝３３）以及普通人群（ｎ＝２０）的线粒体ＤＮＡ调控区（Ｄ－Ｌｏｏｐ）的ＲＦＬＰ。结果：优秀耐力性项目运动员线粒体特定区域ＲＦＬＰ分布与普通人群至显著性差异。结论：一些在优秀运动     

Suitability of AFLP markers for the study of genetic relationships among Korean native dogs.

To determine the genetic relationships among domestic dog breeds, we performed both a sequence comparison of mitochondrial DNA (mtDNA) and an amplified fragment length polymorphisms (AFLP) analysis. Three of four regions of mtDNA, cytochrome b, cytochrome oxidase subunit II, and 16S rRNA genes were highly homogeneous among dog breeds, whereas the other region, the control region, showed relatively high polymorphisms with a maximum percentage difference of 3.18%. However, the control region showed extensive polymorphism even within breeds, and the relationship tree derived from the data could not clearly delimit distinct breeds. 19 EcoRI/MseI primer combinations were used to generate AFLP markers among 25 dogs from 11 breeds including three Korean native dogs. These amplification reactions allowed the detection of more than 1900 amplification products of which 408 were identified as polymorphic bands. Unrooted neighbor-joining tree based on dissimilarity values showed that the Korean native dogs were clustered together with the Asian dogs and that the Asian originated dogs were clustered separately from Western originated dogs. A consensus tree using parsimony method also showed Korean native dogs were grouped separately from the other dogs with moderate bootstrap values. Taken together, it is concluded that AFLP analysis is a more informative tool for revealing genetic relationships among dog breeds than mtDNA sequence comparison.     

High frequency of mitochondrial DNA D-loop mutations in Ewing’s sarcoma

Somatic mutations and polymorphisms in the noncoding displacement (D)-loop of mitochondrial DNA (mtDNA) are present in a variety of human cancers. To investigate whether Ewing’s sarcoma (EWS) harbors genetic alterations within the D-loop region and their potential association with EWS carcinogenesis, we analyzed and compared the complete mtDNA D-loop sequences from 17 pairs of tumor tissues and corresponding peripheral blood samples using the direct DNA sequencing method. Our results revealed that 12 of the 17 EWS tumor specimens (70.6%) carried 19 somatic mutations in the D-loop of mtDNA, including 11 single-base substitutions, 3 insertions and 5 deletions. Among the tested 17 patients, we screened a total of 40 germline polymorphisms including one novel sequence variant in the D-loop fragment. Most of these identified mutations and germline variations were clustered within two hypervariable segments (HVS1 and HVS2) as well as the homopolymeric C stretch between nucleotide position 303 and 309. In addition, there was no significant correlation between mtDNA D-loop mutations and various clinicopathological factors of EWS. In conclusion, our study reports for the first time that mtDNA D-loop mutations occur at a high frequency in EWS. These data provide evidence of mtDNA alterations’ possible involvement in the initiation and/or progression of this rare malignancy.     

Inheritance of mitochondrial DNA in serially recloned pigs by somatic cell nuclear transfer (SCNT)

Somatic cell nuclear transfer (SCNT) has been established for the transmission of specific nuclear DNA. However, the fate of donor mitochondrial DNA (mtDNA) remains unclear. Here, we examined the fate of donor mtDNA in recloned pigs through third generations. Fibroblasts of recloned pigs were obtained from offspring of each generation produced by fusion of cultured fibroblasts from a Minnesota miniature pig (MMP) into enucleated oocytes of a Landrace pig. The D-loop regions from the mtDNA of donor and recipient differ at nucleotide sequence positions 16050 (A→T), 16062 (T→C), and 16135 (G→A). In order to determine the fate of donor mtDNA in recloned pigs, we analyzed the D-loop region of the donor's mtDNA by allele-specific PCR (AS-PCR) and real-time PCR. Donor mtDNA was successfully detected in all recloned offspring (F1, F2, and F3). These results indicate that heteroplasmy that originate from donor and recipient mtDNA is maintained in recloned pigs, resulting from SCNT, unlike natural reproduction.