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1.
Myanmar indigenous chickens play important roles in food, entertainment, and farm business for the people of Myanmar. In this study, complete mitochondrial D-loop sequences (1232 bp) were analyzed using 176 chickens, including three indigenous breeds, two fighting cock populations, and three indigenous populations to elucidate genetic diversity and accomplish a phylogenetic analysis of Myanmar indigenous chickens. The average haplotype and nucleotide diversities were 0.948 ± 0.009 and 0.00814 ± 0.00024, respectively, exhibiting high genetic diversity of Myanmar indigenous chickens. Sixty-four haplotypes were classified as seven haplogroups, with the majority being haplogroup F. The breeds and populations except Inbinwa had multiple maternal haplogroups, suggesting that they experienced no recent purifying selection and bottleneck events. All breeds and populations examined shared haplogroup F. When 232 sequences belonging to haplogroup F (79 from Myanmar and 153 deposited sequences from other Asian countries/region) were analyzed together, the highest genetic diversity was observed in Myanmar indigenous chickens. Furthermore, Myanmar indigenous chickens and red junglefowls were observed in the center of the star-like median-joining network of 37 F-haplotypes, suggesting that Myanmar is one of the origins of haplogroup F. These findings revealed the unique genetic characteristic of Myanmar indigenous chickens as important genetic resources.  相似文献   

2.
1. To explore the genetic diversity of Chinese indigenous chicken breeds, a 585 bp fragment of the mitochondrial DNA (mtDNA) region was sequenced in 102 birds from the Xichuan black-bone chicken, Yunyang black-bone chicken and Lushi chicken. In addition, 30 mtDNA D-loop sequences of Silkie fowls were downloaded from NCBI. The mtDNA D-loop sequence polymorphism and maternal origin of 4 chicken breeds were analysed in this study.

2. The results showed that a total of 33 mutation sites and 28 haplotypes were detected in the 4 chicken breeds. The haplotype diversity and nucleotide diversity of these 4 native breeds were 0.916 ± 0.014 and 0.012 ± 0.002, respectively. Three clusters were formed in 4 Chinese native chickens and 12 reference breeds. Both the Xichuan black-bone chicken and Yunyang black-bone chicken were grouped into one cluster. Four haplogroups (A, B, C and E) emerged in the median-joining network in these breeds.

3. It was concluded that these 4 Chinese chicken breeds had high genetic diversity. The phylogenetic tree and median network profiles showed that Chinese native chickens and its neighbouring countries had at least two maternal origins, one from Yunnan, China and another from Southeast Asia or its surrounding area.  相似文献   


3.
旨在探讨鸡不同杂交组合线粒体控制区(mtDNA D-loop区)的遗传多样性和单倍型特性。选取固始鸡和隐性白羽鸡及其正、反交F1代、藏鸡以及F2代等6个群体共387个个体的mtDNA D-loop区进行测序,分析其遗传规律和单倍型特性,并与不同红色原鸡亚种进行聚类,分析其母系起源。结果显示,6个群体D-loop区全序列大小为1 231 bp,共检测到28个多态位点和1个C碱基缺失,共构成19种单倍型,分为A、B、C和E 4个单倍型群,其中,固始鸡和反交F1代主要为A、C单倍型,固始鸡A、C单倍型比例分别为53.42%和46.58%,反交F1代A、C单倍型比例分别为50.75%和49.25%;隐性白羽鸡、正交F1代和F2代优势单倍型均为E单倍型,占比分别为48.89%、48.84%和50.00%。6个鸡群体单倍型多样度(Hd)在0.496~0.729之间,核苷酸多样度(Pi)在0.003 40~0.005 41之间,Hd值和Pi值最大的均为正交F1代,其次为隐性白羽鸡和F2代,固始鸡和反交F1代群体遗传多样性接近。聚类分析显示,A、B单倍型群与滇南亚种交叉聚为一枝;E单倍型群与印度亚种交叉聚为一枝;C单倍型群与印度亚种、指名亚种、印尼亚种以及滇南亚种聚为一枝。结果提示,mtDNA D-loop区遵循严格的母系遗传,后代的遗传多样性和单倍型比例与其母本基本一致;我国家鸡群体具有多个红色原鸡母系起源,且主要起源于原鸡滇南亚种。  相似文献   

4.
为从分子水平上探究中国地方猪种遗传多样性和分类地位,本试验采用生物信息学方法比较了6个类型共22个中国地方猪种的线粒体基因组全序列,分析了其多态性,并构建了6个类型猪种线粒体D-loop区单倍型的网络中介图以及基于线粒体D-loop序列、Cytb基因、完整编码区序列的系统进化树。结果表明,6个类型22个猪种中共检测到了144个多态位点,22种单倍型,说明地方猪种具有丰富的遗传多样性;地方猪线粒体基因组序列中核苷酸变异以转换为主,且Ti/Tv大于转换/颠换比临界值(2.0),变异位点均符合中性突变。6个类型猪种间遗传距离均较小,且有共享单倍型。系统进化树结果表明,6种类型地方猪种主要聚为两个支系。表明线粒体D-loop序列及Cytb基因均可作为研究种内系统发育、起源进化的分子标记。  相似文献   

5.
In order to explore the genetic diversity and the classification status of the Chinese domestic pigs at the molecular level, the complete mitochondrial DNA (mtDNA) genomic sequences of 22 Chinese indigenous pig breeds from 6 types were downloaded from GenBank for the analysis using the bioinformatics method. The polymorphism of nucleic acid sequences was analyzed,the molecular phylogenetic tree based on D-loop sequences, Cytb gene, complete coding region mtDNA sequences and the Median-Joining network of the mtDNA D-loop haplotypes were constructed for 22 pig breeds from 6 types. The results showed that a total of 144 mutation sites among 22 pig breeds were detected, 22 haplotypes were discovered, which indicated that Chinese indigenous pig breeds had abundant genetic diversity. According to the complete mtDNA genomic sequences analysis, which suggested that the main mutations was transition, the transition/transversion ratio was greater than 2.0 and all mutations were in line with the neutral mutation. Our findings clearly demonstrated that there was a near genetic distance among 6 types, meanwhile, the shared haplotypes were found. The phylogenetic tree showed that Chinese indigenous pigs from 6 types were diverged from two ancestors.The results indicated that mtDNA D-loop and Cytb gene might serve as molecular markers for phylogenesis, origin and evolution.  相似文献   

6.
The aim of this study was to characterize the genetic diversity of domestic goat in China. For this purpose, we determined the sequence of the mitochondrial DNA (mtDNA) control region in 72 individuals of the Yangtze River delta white goat, and reanalysed 723 published samples from 31 breeds/populations across China. All goat haplotypes were classified into four haplogroups (A–D) previously described. The phylogenetic pattern that emerged from the mtDNA control region sequence was confirmed by the analysis of the entire cytochrome b sequence of eight goats representative of the four haplogroups. It appeared that in Chinese domestic goat, haplogroups A and B were dominant and distributed in nearly all breeds/populations, while haplogroups C and D were only found in seven breeds/populations. Four breeds/populations contained all four haplogroups. When grouping the breeds/populations into five geographic groups based on their geographic distributions and ecological conditions, the southern pasturing area had the highest diversity whereas the northern farming area had the lowest diversity. 84.29% and 11.37% of the genetic variation were distributed within breeds and among breeds within the ecologically geographical areas, respectively; only 4% of genetic variation was observed among the five geographic areas. We speculate that the traditional seasonal pastoralism, the annual long-distance migrations that occurred in the past, and the commercial trade would account for the observed pattern by having favoured gene flows.  相似文献   

7.
ABSTRACT

1. The objectives of the current study were to investigate the mitochondrial genome and molecular phylogeny of Lueyang black-bone chicken, and provide molecule base to preserve and explore the specific chicken strain.

2. Based on sequencing and clustering, the complete mitochondrial DNA map and sequences of Lueyang black-bone chicken were revealed, and two phylogenetic trees of Lueyang black-bone chickens based on D-loop sequences and the mitochondrial genome were constructed.

3. The results showed that the complete mitochondrial genome of Lueyang black-bone chickens is 16,784bp in size, consisting of 22 transfer RNA genes, two ribosomal RNA genes, 13 protein-coding genes, and one non-coding control region. The base composition of the complete mtDNA sequence is 30.28% for A, 23.78% for T, 32.42% for C, 13.52% for G. Additionally, 10 haplotypes of D-loop sequences in 32 Lueyang black-bone chickens were detected, which were distributed into 4 clades (A, B, C and E).

4. It was concluded that genetic diversity is wide in Lueyang black-bone chickens, and this strain has multiple maternal origins from different regions in China and neighbouring regions.  相似文献   

8.
试验旨在以线粒体DNA(mitochondrial DNA,mtDNA)为切入点,研究建昌马的母系遗传多样性与系统进化。从建昌马(n=39)血液中提取基因组DNA,用PCR方法扩增mtDNA D-loop区并直接测序,分析其高变区247 bp序列信息,统计mtDNA D-loop区的单倍型及变异位点,计算单倍型多样性(haplotype diversity,Hd)、核苷酸多样性(nucleotide diversity,Pi)和平均核苷酸变异数(average number of nucleotide differences,K)。构建包括建昌马在内的19个品种马的NJ系统进化树,计算各品种间的遗传距离。结果显示,试验获得了清晰的PCR扩增产物,并通过直接测序方法获得了约1200 bp的序列。39匹建昌马mtDNA D-loop区247 bp序列(其中1个样品缺失1 bp)的AT碱基含量为61.45%,属AT碱基对富集区,检测到33个多态性位点,共显示26种单倍型,其中4种为共享单倍型,且Hap7和Hap1为优势单倍型,单倍型多样性为0.947,核苷酸多样性为0.02399,平均核苷酸变异数为5.901,显示丰富的母系遗传多样性;NJ系统进化树显示,建昌马分布在A、C、D、E、F、G共6个支系中,约50%的样品分布在A支系,显示出复杂的母系起源;建昌马与关中马的遗传距离最小(0.021),其次是三河马、文山马、韩国车巨马(0.024),与韩国济州岛马遗传距离最大(0.032)。本研究结果表明,建昌马的mtDNA D-loop高变区遗传多样性丰富,具有多个母系起源,且A支系占有明显优势,与关中马、文山马可能有共同的母系起源。  相似文献   

9.
To explore the genetic diversity and origin for genetic resource protection of Huili Black goat, the mitochondrial DNA (mtDNA) D-loop was investigated. mtDNA D-loop sequences of 41 goats were analyzed by PCR, sequencing techniques, and biological information and the phylogenetic trees were constructed. The mtDNA sequences of the Huili Black goat ranged from 1211 to 1213 bp, and 2 sequences were 1211 bp, 29 sequences 1212 bp, and 10 sequences 1213 bp. The content of A+T (60.1%) was higher than one of G+C (39.9%). There were 9 haplotypes, and the haplotype diversity was 0.842+0.00368. The nucleotide diversity was 0.01542+0.00034. The phylogenetic analysis showed that Huili Black goat was distributed in a branch, and were closed to Jianchang Black goat, Chengdu Ma goat, Jintang Black goat, Guizhou White goat, Guizhou Black goat, but they were less related to Capra falconeri. Huili Black goats had rather abundant genetic diversity, and were greatly affected by other goat breeds in history.  相似文献   

10.
对泰国红色原鸡Gallus gallus gallus亚种和中国红色原鸡Gallus gallus spadiceus亚种各16个个体mtDNAD-loop序列进行系统分析,测定线粒体D-loop部分序列大小约为560bp,A、C、G、T这4种核苷酸的平均比例分别为13.6%、43.2%、4.3%和38.9%,A+T含量高于G+C含量。结果共发现27个变异位点,颠换和转换之比为0.13,没有观测到插入/缺失情况。测定的6种单倍型中,2个红色原鸡亚种没有共享单倍型,单倍型多样度分别为0.250和0.695,平均核苷酸差异数分别为3.750和10.833,核苷酸多样度分别为0.954%和2.757%。泰国红色原鸡中性检验的Tajima'sD值为-1.800(P<0.05),不符合中性突变。2个红色原鸡亚种间核苷酸分歧度(Dxy)为2.847%,核苷酸净遗传距离(Da)为0.991%。序列群体间的方差组分(Va)占总变异的47.31%,Fst=0.473,差异极显著(P<0.01);群体间mtDNAD-loopFst值也差异显著(P=0.035)。红色原鸡2个亚种具有不同的群体遗传结构,群体之间存在明显的遗传分化,本研究支持这2个亚种并非是同一个亚种的观点。  相似文献   

11.
中国6个地方鸡品种的母系起源   总被引:2,自引:2,他引:0  
通过对线粒体DNA(mtDNA)D-loop区的测序和比对,探讨了中国6个地方鸡品种的母系起源。结果表明,文昌鸡、鲁西斗鸡、寿光鸡、济宁百日鸡和莱芜黑鸡分别有5、5、5、6和7种单倍型,琅琊鸡只有3种单倍型;6个地方鸡品种聚为3个分支:分支A是1个主要分支,共有17种单倍型,有寿光鸡(10只)、鲁西斗鸡(9只)、文昌鸡(5只)、莱芜黑鸡(6只)、济宁百日鸡(6只)和琅琊鸡(2只),分别占所分析各地方鸡品种个体数的100%、90%、84%、75%、60%和20%,与分布于老挝、云南红原鸡的3个大陆亚种(G.g.gallus、G.g.jabouile和G.g.spadi-ceus)关系较近;分支B中包含8只琅琊鸡(80%)和1只济宁百日鸡(10%);分支C中有1只鲁西斗鸡(10%)、1只文昌鸡(16.7%)、2只莱芜黑鸡(25%)和3只济宁百日鸡(30%);分支B和C分别与来自红原鸡G.g.gallus亚种H19单倍型和H32、H33单倍型聚在一起。推测这6个地方鸡品种分别来自云南、老挝和越南附近地区的红原鸡大陆亚种。基因流是上述品种群体间遗传分化的主要因素。错配分布和Fu'sFs检验表明,分布于山东的5个地方鸡品种未发生群体扩张。  相似文献   

12.
The objective of this study was to determine the genetic diversity and evolution of Danzhou chicken.The complete mitochondrial DNA (mtDNA) D-loop regions of 36 Danzhou chickens were amplified,sequenced and analyzed.The sequencing reads were compared with the complete mtDNA D-loop sequence of several relative strains of chicken annotated in GenBank,and analyzed by bioinformatics methods.The genetic diversity and its evolutionary relationship in Danzhou chicken were analyzed.The results showed that the lengths of PCR products at the D-loop region were 1 210 bp,with 59.9% being A+T and 40.1% as C+G.The variable regions were 167-1 215 bp,and the high variable regions were mainly 167-367 bp.A total of 20 variable sites that defined 6 haplotypes were identified.The average haplotype diversity (Hd) and average number of nucleotide difference (k) were 0.571 and 6.449,respectively,the nucleotide diversity (Pi) was 0.00537,and the Tajima's D value of neutrality test was 1.61643.6 haplotypes could be grouped to 3 haplogroups (A,B and C) as determined by phylogenic analysis,with B clade,as the most abundant population.It concluded that the genetic diversity and haplotype diversity of Danzhou chicken were relatively low.Phylogenetic tree showed that the genetic composition of Danzhou chicken came from 3 maternal ancestors,Gallus gallus spadiceus,Gallus gallus bankiva and Gallus gallus jabouillei were potential ancestors.There was few influence of exotic lineage detected,which indicated that Danzhou chicken was a relatively conserved breed.  相似文献   

13.
[目的]从分子水平上探究青海省唐古拉山牦牛群体的母系遗传多样性、群体遗传结构及其遗传背景。[方法] 对52头唐古拉山牦牛个体mtDNA D-loop区序列进行测定后,使用生物信息学软件分析确定其核苷酸变异位点和单倍型数目,计算单倍型多样度和核苷酸多样度大小,并进行系统发育分析。[结果] 在619 bp唐古拉山牦牛D-loop区序列分析中,排除2处插入(缺失)后共检测到31处多态位点,包括单一多态位点5处和简约信息位点26处。根据序列间核苷酸变异共确定了13种单倍型,单倍型多样度和核苷酸多样度分别为0.821±0.043和0.007±0.004。与我国其他18个家牦牛品种和野牦牛相比,唐古拉山牦牛群体单倍型多样度和核苷酸多样度值均较低,表明该群体遗传变异较为贫乏,母系遗传多样性水平较低。以美洲野牛为外群,邻接法(即NJ法)构建的系统发育树结果显示:唐古拉山牦牛群体13种单倍型分布在A、B、C、D和E五种单倍型组中,且聚为2个大的母系分支(即I和II),支系Ⅰ占比为77%,提示唐古拉山牦牛由2个母系支系组成,拥有2个母系起源且以支系Ⅰ为主。 [结论] 唐古拉山牦牛母系遗传多样性水平较低,由2个母系支系组成,以支系Ⅰ为主,推测其有2个母系起源。  相似文献   

14.
[目的]探究郏县红牛的mtDNA D-loop遗传多样性与母系起源。[方法]采用生物信息学方法。[结果]在46头郏县红牛mtDNA D-loop区全序列共检测到60个变异位点,定义20种mtDNA D-loop单倍型,平均单倍型多样度(Hd)为0.8530,平均核苷酸多样度(Pi)为0.0254,表明郏县红牛有丰富的母系遗传多样性。构建的IQ系统发育树表明郏县红牛具有瘤牛和普通牛两个母系支系。[结论]郏县红牛具有丰富的母系遗传多样性,有普通牛和瘤牛两个母系起源。  相似文献   

15.
This study was aimed to evaluate the information of their genetic background of Frizzle chicken (FM),Naked-neck chicken (CB) and YN chicken (YN) that were three newly discovered native chicken genetic resources with excellent characteristics,which had been found in Nujiang prefecture and mountainous area of Yunnan province.The variation in a total of 168 individuals sampled from the three chicken populations was assessed using the mitochondrial DNA (mtDNA) D-loop region sequences as genetic marker.The results showed that there were a total of 27 haplotypes were defined in the three native chicken as well as the haplotype diversity of these three chicken were 0.947,0.938 and 0.596,respectively.The nucleotide diversity of these three chicken were 0.01268,0.01434 and 0.00239,respectively.Phylogenetic tree displayed that all 168 individuals distributed in maternal lineage A,B,C,E,F and G.Frizzle chicken contained lineages E,F and G,and Naked-neck chicken contained all 6 lineages,of which the main lineages were E,F and G.YN chicken included lineages E,F and G,and lineage E was the highest percentage in this population.Also,it found that YN chicken was closely related to Gallus gallus murghi,White Plymouth Rock chicken,White Leghorn chicken and New Hampshires chicken,while Naked-neck chicken was closely related to Gallus gallus spadiceus,Gallus gallus jabouillei,Gallus gallus gallus Linnaeus,Indonesian cockfight and Laos chicken.The Frizzle chickens shared more haplotypes with Naked-neck chicken,and the evolutionary relationship between the two species was closer.This study provided a basis for the origin and genetic assessment of three newly discovered Yunnan local chicken breeds.  相似文献   

16.
The aim of this work was to analyse the genetic origin of the Mexican Creole donkey, as well as its genetic diversity, by comparison with Spanish and African donkey populations by means of the D-loop region of mitochondrial DNA. To this end, the genomic DNA of 68 Mexican Creole donkeys from eight geographical regions in six States of the Republic of México and from a Sicilian donkey was obtained. By the polymerase chain-reaction technique (PCR) a fragment of 541 bp was amplified, corresponding to the most informative region of the mitochondrial DNA, the D-loop. The fragments were subsequently sequenced. The analysed sequences revealed 10 new Mexican haplotypes that were different from those of the Spanish and African breeds with which they were compared, showing high levels of genetic diversity. Analysis of the phylogenetic relationships in the different Creole varieties showed a tendency of origin towards Spanish breeds, mainly the Andaluza, Zamorano-Leonesa and Majorera from the Canary Islands; these in turn showed an African origin, seven Mexican haplotypes and three haplotypes similar to those analysed by Aranguren and colleagues (2004) of Spanish and African breeds being obtained. This work allows us to reach the preliminary conclusion that the origin of Mexican Creole donkey populations in the different states of the Republic of México is clearly of Iberian origin, the Spanish donkey breed Andaluza being the main one contributing to the populations of the Mexican Creole donkeys, followed by the Spanish breeds Zamorano-Leonesa and Majorera from the Canary Islands, and that the populations possess high levels of genetic diversity.  相似文献   

17.
The aim of this work was to analyse the genetic origin of the Mexican Creole donkey, as well as its genetic diversity, by comparison with Spanish and African donkey populations by means of the D-loop region of mitochondrial DNA. To this end, the genomic DNA of 68 Mexican Creole donkeys from eight geographical regions in six States of the Republic of Mexico and from a Sicilian donkey was obtained. By the polymerase chain-reaction technique (PCR) a fragment of 541 bp was amplified, corresponding to the most informative region of the mitochondrial DNA, the D-loop. The fragments were subsequently sequenced. The analysed sequences revealed 10 new Mexican haplotypes that were different from those of the Spanish and African breeds with which they were compared, showing high levels of genetic diversity. Analysis of the phylogenetic relationships in the different Creole varieties showed a tendency of origin towards Spanish breeds, mainly the Andaluza, Zamorano-Leonesa and Majorera from the Canary Islands; these in turn showed an African origin, seven Mexican haplotypes and three haplotypes similar to those analysed by Aranguren and colleagues (2004) of Spanish and African breeds being obtained. This work allows us to reach the preliminary conclusion that the origin of Mexican Creole donkey populations in the different states of the Republic of Mexico is clearly of Iberian origin, the Spanish donkey breed Andaluza being the main one contributing to the populations of the Mexican Creole donkeys, followed by the Spanish breeds Zamorano-Leonesa and Majorera from the Canary Islands, and that the populations possess high levels of genetic diversity.  相似文献   

18.
China is abundant of sheep genetic resources. A total of 55 sequences containing the Ovis aries mtDNA D-loop of three large-fat-tailed sheep breeds, named Lanzhou, Tong, and Han were retrieved from GenBank to investigate their genetic diversity, origin, and phylogenetic evolution. The results showed that the sheep breeds in our study proved to be extremely diverse, the average haplotype diversity and nucleotide diversity were 0.987 ± 0.006 and 0.03956 ± 0.00206, respectively. The 55 sequences gave 39 different haplotypes. Phylogenetic analyses revealed that there were three distinct mtDNA haplogroups: A, B, and C, in which haplogroup A was predominant and had experienced population expansion events. Clustering analysis showed that the large-fat-tailed sheep breeds clustered into one group and were closely related to the Mongolian sheep and then European mouflon sheep (Ovis musimon). The results contribute to the knowledge of Chinese sheep breeds and the plan of conservation programs on large-fat-tailed sheep.  相似文献   

19.
为研究安徽江淮水牛群体的分子种质特性,本试验测定了江淮水牛2个亚群共82个个体的线粒体D-loop区和细胞色素b基因完整序列,分析了序列遗传多态性及系统进化关系,并结合GenBank中已发表的141条中国水牛D-loop序列,进行了联合分析。结果在D-loop区内共发现核苷酸多态位点91个,组成104个单倍型,其中32个是在江淮水牛中新发现的单倍型。总体mtDNA D-loop区核苷酸多样性为(0.015 43±0.001 42),单倍型多样性为(0.948±0.009)。其中,江淮水牛的mtDNA D-loop区核苷酸多样性为(0.014 89±0.002 32),单倍型多样性为(0.955±0.013),表明其群体遗传多样性丰富,群体变异性水平与中国其他水牛群体接近。根据线粒体D-loop区单倍型构建系统树和进化网络,显示江淮水牛存在沼泽型水牛线粒体支系A和B,表明其具有2个线粒体母系来源,其中B支又分为b1和b2两个亚支;针对细胞色素b基因的进化分析也支持这一结论。这些研究结果为今后开展江淮水牛遗传资源的保护和利用提供了客观依据。  相似文献   

20.
1. The objective of this study was to determine the origin and evolution of chickens from 5 native breeds that are traditionally raised in Jiangsu Province.

2. To address this question, the complete mitochondrial DNA D-loop sequence of 149 chickens from 5 native breeds of Jiangsu Province was analysed.

3. Sequence read lengths of the native breeds were 1231 to 1232 bp, with a single-base deletion from the 859 bp site in the 1231 bp haplotype. A total of 33 variable sites that defined 19 haplotypes were identified. The average haplotype diversity and nucleotide diversity were 0.862 ± 0.017 and 0.00591 ± 0.00135.

4. Phylogenetic analysis showed that genetic structure of the mtDNA haplotypes of Jiangsu chickens are distributed across 5 clades (haplogroups): Clades A, B, C, D, and E. However, most of the individuals characterised in this study belonged to clades A and B.

5. The results of this study indicate that Jiangsu chicken populations have relatively low nucleotide and haplotype diversity and likely share 5 common maternal lineages.  相似文献   


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