克里雅河下游封闭人群DYS19和DYS390多态性研究

本文以居住于塔克拉玛干沙漠当中克里雅河下游地区封闭人群(51例男性)为研究对象,采用基因扫描对其DYS19和DYS390两个STR基因座进行基因扫描研究其遗传多态性。对于DYS19基因座,克里雅河下游的封闭人群等位基因分布呈现“M”形分布,以DYS19*14和DYS19*16最常见,基因频率分别为0.353和0．510;对于DYS390基因座,其人群等位基因分布也并非呈现“钟形”分布,而是以DYS390*21和DYS390“24两种基因型基因频率最高,并且DYS390*21为此人群等位基因重复次数最少的基因型,基因频率分别为0．235和0．431,这可能是提示克里雅河下游的封闭人群的来源包含两个不同的群体分支。     

微卫星位点DYS19在中国人群中的多态研究

以人DNA为模板,经PCR扩增后,用聚丙烯酰胺凝胶电泳分离扩增片段,再经高灵敏度银染着色,对中国陕西汉族、广东汉族、宁夏回族、辽宁满族、四川彝族、西藏藏族、广西壮族、广西瑶族、新疆维吾尔族、湖南土家族等10个人群535名个体的Y染色体上微卫星位点DYS19的遗传多态性进行了研究。结果表明：中国人群中以等位基因C（194bp）为主要等位基因,基因频率范围在0.25-0.61;等位基因B（190bp）、D（198bp）次之,基因频率范围分别为0.08—0.36、0.06—0.42;而等位基因A（186bp）和E（202bp）频率较低,频率范围分别为0—0.07和0—0.38。在壮族中还检测出了一名携带F（206bp）等位基因的个体。中国人群DYS19等位基因的分布与蒙古人种群体以C型为主的结果相一致。X^2成对比较表明瑶族、藏族与大多数其它中国民族间DYS19表型分布存在差异（P< 0.05）或显著性差异（P< 0.01）。中国人群DYS19的基因频率至今在文献中尚未见报道。     

我国东北地区3个群体DYS390多态位点的遗传学研究

目的　研究中国群体Y染色体微卫星位点 DYS390遗传多态性 ,可以用于追溯人类进化上的父系祖先 ,也可以为人类基因组和法医学等研究积累数据。方法　采用 PCR技术扩增微卫星DNA片段 ,再经变性凝胶电泳及银染方法 ,对我国东北地区汉族、蒙古族及朝鲜族 3个群体的1 0 2例男性个体的 DYS390位点的遗传多态性进行了研究。结果　除汉族群体发现 5种等位基因外 ,朝鲜族和蒙古族群体均检出 4种。在汉族群体中 ,我们检出 1例具223bp等位基因。等位基因频率分布在汉族、朝鲜族以211bp的频率为最高 ,分别为0.439和0.451 ;而蒙古族群体则以215bp的频率为最高 (0.433)。结论　 3个群体之间 DYS390位点等位基因频率无显著性差异 ( Fisher精确概率检验 :P=0.930 )。 3个群体中DYS390位点 5种等位基因的分化程度以223bp为最高 ,分化程度最低的为211bp。聚类分析表明3个群体的父系亲缘关系较为密切 ,其中以汉族与朝鲜族之间的遗传距离最近。     

DYS458、DYS534、DYS426和DYS626基因座多态性研究

目的：研究河南汉族群体DYS458、DYS534、DYS426和DYS626四个Y-STR基因座遗传多态性,评估其法医学应用价值。方法：采用PCR扩增和非变性聚丙烯酰胺凝胶电泳及DNA测序分析河南汉族113名无血缘关系、健康男性个体的4个Y-STR基因座基因及单倍型频率分布。结果：4个基因座共发现了24个等位基因,频率分布在0.0177～0.9027,基因多样性（gene diversity,GD）值最低为0.1801（DYS426）,最高为0.8368（DYS626）。113个个体共检测到94个单倍型,其79种为惟一的,单倍型多样性为0.99589。结论：4个Y-STR基因座在河南汉族群体均具有较高的遗传多态性,可应用于法医学个体识别和亲子鉴定。     

广州汉族人群DYS19、DYS389Ⅰ/Ⅱ、DYS390多态性及其单体型

用PCR结合PAGE技术观察111例广州汉族男性DYS19、DYS389Ⅰ/Ⅱ、DYS390等位基因及单体型分布状况。结果显示：广州地区汉族男性DYS19基因座观察到5种等位基因,DYS389Ⅰ观察到4种等位基因,DYS389Ⅱ观察到5种等位基因,DYS390观察到5种等位基因;χ2检验表明上述各等位基因频率分布与其他地区人群存在明显的差异。此外,还观察到72种由上述基因座共同构成的单体型,单体型多样性达0.953。 Abstract: In order to apply a set of useful and high polymorphic Y?STRs in forensic practice and genetic analysis,we performed a population genetic study from Chinese.The allele distributions of the systems DYS19、DYS389Ⅰ/Ⅱ、and DYS390 were investigated in sample of 111 unrelated males from the area of Guangzhou, China.PCR products were detected using polyacrylamide gel electrophoresis and silver staining.5、4、5、5 alleles were observed in locus DYS19、DYS389Ⅰ、DYS389Ⅱ、DYS390 respectively.Different allele frequency distributions were observed when compared to other population.Haplotype frequency date of 72 different types were obtained.     

广州汉族人群DYS19、DYS389Ⅰ/Ⅱ、DYS390多态性及其单体型

用PCR结合PAGE技术观察111例广州汉族男性DYS19、DYS389Ⅰ/Ⅱ、DYS390等位基因及单体型分布状况。结果显示：广州地区汉族男性DYS19基因座观察到5种等位基因,DYS389Ⅰ观察到4种等位基因,DYS389Ⅱ观察到5种等位基因,DYS390观察到5种等位基因;χ2检验表明上述各等位基因频率分布与其他地区人群存在明显的差异。此外,还观察到72种由上述基因座共同构成的单体型,单体型多样性达0.953。 Abstract: In order to apply a set of useful and high polymorphic Y?STRs in forensic practice and genetic analysis,we performed a population genetic study from Chinese.The allele distributions of the systems DYS19、DYS389Ⅰ/Ⅱ、and DYS390 were investigated in sample of 111 unrelated males from the area of Guangzhou, China.PCR products were detected using polyacrylamide gel electrophoresis and silver staining.5、4、5、5 alleles were observed in locus DYS19、DYS389Ⅰ、DYS389Ⅱ、DYS390 respectively.Different allele frequency distributions were observed when compared to other population.Haplotype frequency date of 72 different types were obtained.     

现代罗布人mtDNA 9bp序列缺失频率与DYS287位点多态性研究

目的:研究现代罗布人线粒体DNA 9bp序列缺失频率与Y染色体DYS287位点多态性.方法:分别采用PCR扩增直接测序法和PCR结合琼脂糖凝胶电泳检测法对不同位点的多态性进行分析.结果:在48名无关现代罗布人群个体中,线粒体DNA9bp序列缺失频率为8.3%,在34名无关现代罗布人群男性个体中DYS287全部显示为YAP-.结论:获得现代罗布人线粒体DNA 9bp序列缺失频率与Y染色体DYS287位点多态性数据,为该群体遗传关系的分析、法医学鉴定及该群体的起源提供了一定的遗传背景资料.     

对法医学相关的DYS549、DYS527和DYS459基因座在男性不育症人群中的缺失、重复调查

位于Y染色体无精症因子区域(Azoospermia factor, AZF)的基因座位点DYS549、DYS527和DYS459在法医学鉴定和家系分析中被广泛应用。但是,在男性不育患者中,DYS549、DYS527和DYS459位点很可能会表现出特殊的基因型,对应用Y染色体短串联重复序列(Y chromosome short tandem repeat, Y-STR)进行个体识别的结果产生干扰。因此,文章应用14个Y-STR基因座复合扩增体系和Y染色体AZFc区DAZ、CDY1基因的拷贝数检测等方法,探讨男性不育症中法医学相关的3个Y-STR基因座的异常分型,对个体识别和家系分析中的DNA检验异常结果提供合理的解释。在240例男性非梗阻性无精、严重少精、先天性双侧输精管缺如(CBVAD)患者中,采用改良的多重PCR体系进行AZF区域微缺失的序列标签位点(Sequence tagged sites, STSs)检测,发现AZF微缺失40例(AZFa：2例;AZFb：2例;AZFc：30例;AZFb+c：6例),AZF的总缺失率为16.67%。应用14 Y-STR复合扩增体系对上述AZF微缺失的阳性患者样本进行检测,发现所有AZFb缺失患者存在DYS549等位基因缺失,AZFc缺失患者存在DYS527、DYS459等位基因缺失,AZFb+c缺失患者存在DYS549、DYS527和DYS459等位基因缺失。在AZF微缺失阴性的不育症患者中,通过检测DAZ、CDY1基因拷贝数发现10例AZFc部分复制的患者(1例为先天性输精管缺如,2例非梗阻性无精症,7例严重少精子症),占所调查不育人群的4.17%。男性不育人群AZF区域3个Y-STR基因座多态性会造成等位基因缺失或者重复,这些异常分型是由于临床遗传缺陷造成的而不是实验偏差。阐明Y-STR在男性不育人群中的异质性可以更好地完善Y-STR数据库和解释STR实验结果。     

新Y-STR DYS605在山西汉族人群中的多态性分布

为了应用更多的Y染色体特异性STR基因座以用于法医学和人类遗传学研究,用PCR结合PAGE技术检测128例山西汉族无关男性DYS605等位基因分布状况。结果显示：山西地区汉族男性DYS605基因座观察到22,21,20,19,18共5个等位基因,基因频率分别为0．0156;0．1797;0．4531;0．2891;0．0625。等位基因20和19之间的电泳距离在非变性胶上非常接近,要有足够的电泳距离才能区分。测序表明该基因座包括3个串联重复区,其中一个为可变重复区。20例女性DNA未发现扩增产物。     

中国南方汉族人群6个Y-STR基因座 遗传多态性及法医学应用

为研究中国南方汉族人群DYS393等6个Y-STR基因座的遗传多态性并用于法医学鉴定,通过采用PCR复合扩增和基因测序仪荧光检测方法,检查204个无关男性个体,调查南方汉族的6个Y-STR基因座的单倍型频率,并对93对真父子和38对非父子的亲子鉴定样本进行检测。结果DYS393基因座检出5个等位基因,DYS19基因座检出6个等位基因,DYS389Ⅱ基因座检出8个等位基因,DYS390基因座检出6个等位基因,DYS391基因座检出4个等位基因,DYS385 基因座检出44个等位基因,共检出176种单倍型。93对真父子中,观察到2例分别有1个基因座突变。检测38对非父子,有1个或2个Y-STR基因座排除的案例各有1例（2.6%）;有3 个和3个以上的Y-STR基因座可以排除父子关系的案例为35例（92.1%）;6个Y-STR基因座不能排除父子关系的为1例。结果表明6个Y-STR基因座具有丰富的遗传多态性,可用于法医学个体识别和亲子鉴定。Abstract: To study the genetic polymorphisms of six Y-chromosome specific STR loci in the southern Chinese Han population and apply it in forensic science, six Y-STR loci were amplified by multiple PCR and the PCR products were detected by using ABI PrismTM 377 Sequencer. The haplotype frequencies at 6 Y-STR loci were determined in a total of 204 unrelated males from southern Han population of China. Ninety-three father/son pairs with demonstrated paternity and thirty-eight non-paternity father/son pairs were detected by using our Y-STR system. As a result, the number of alleles for DYS393、DYS19、DYS389Ⅱ、DYS390、DYS391and DYS385 were 5, 6, 8, 6, 4 and 44 , respectively. A total of 176 haplotypes at 6 Y-STR loci were found. Two father/son pairs with single Y-STR mutation were observed in the 93 father/son pairs with demonstrated paternity. Among the 38 non-paternity father/son pairs, one case with one Y-STR exclusion of paternity, one case with two Y-STR exclusions and 35 cases with 3 or more Y-STR exclusions were observed. Non-exclusion of paternity at 6 Y-STR loci was found only in one case. This result indicated that the six Y-STR loci were highly polymorphic and are suitable for personal identification and paternity testing.     

Analysis of DYS19 and DYS287 polymorphisms in the Han population and three other ethnic groups of northeast China

The allelic distribution of the Y-chromosome specific microsatellite DYS19 in the Han population and in the Daur, Oroqen and Ewenki ethnic groups (Northeast China) was analyzed by PCR and denatured polyacrylamide gel electrophoresis. The allelic distribution in the Han population group is as follows: A = 2.90%, B = 26.09%, C = 26.09%, D = 29.98%, E = 15.94%. This allelic distribution differs statistically significant from that observed in the three other ethnic groups (p < 0.05). Furthermore the polymorphism of the Y-chromosome specific Alu insert sequence DYS287 was tested in these four groups. However, no Alu sequence insert was found.     

DYS19 and DYS199 loci in a Chilean population of mixed ancestry

The current Chilean population originated from admixture between aboriginal populations (Amerindians) and Spanish conquerors of European origin. Consequently, the unions that gave rise to the Chilean population were chiefly between Spanish males and aboriginal females, and not the converse. To test the hypothesis that the Y chromosome of the Chilean population is mainly of Spanish origin, while the other chromosomes are from mixed (European and aboriginal) origin, we studied the DYS19 and DYS199 loci in two samples. One sample was obtained from a high socioeconomic stratum, while a second sample was from a low stratum. We studied male blood donors (N = 187) from Santiago, the capital of the country. Subjects were typed for the autosomal ABO and Rh (locus D) blood groups, and for the Y-linked DYS19 and the DYS199 loci, reported as Y-chromosome haplotypes. The aboriginal admixture was estimated for each genetic marker. The percentage of aboriginal admixture was 38.17% for the ABO system and 31.28% for the Rh system in the low socioeconomic stratum and 19.22% and 22.5%, respectively, in the high stratum. Y-chromosome haplotype frequencies constructed from the DYS19 and DYS199 loci demonstrated that the main haplotypes were DYS19*14/DYS199 C, as is often the case with many European populations, and DYS19*13/DYS199 C. The aboriginal admixture from Y-haplotype frequencies was estimated to be 15.83% in the low socioeconomic stratum and 6.91% in the high stratum. These values are lower than the values found using autosomal genetic markers, and are consistent with the historical background of the population studied. This study highlights the population genetic consequences of the asymmetric pattern of genome admixture between two ancestral populations (European and Amerindian).     

Geographic differences in the allele frequencies of the human Y-linked tetranucleotide polymorphism DYS19

We have studied the allele frequency distribution of the microsatellite locus DYS 19 in several populations with different geographical origins worldwide. Three new alleles were found. In addition, remarkable geographic and ethnic differences were observed in the allele frequency profiles and DNA marker (gene) diversity among populations and major ethnic groups. Amerindians showed an overwhelming predominance of the A allele, while in Caucasians the B allele was modal, and in Greater Asians and Africans allele C became predominant. Even within these geographic regions there were significant gradients, as exemplified by the decreasing frequency profile of the B allele from Great Britain over Germany to Slovakia. Thus, DYS 19 emerges as a useful tool for studying the structure and dynamics of human populations.     

Analysis of polymorphism of three human Y-chromosome STR loci: DYS390, DYS392 and DYS393 in the population of northern Poland

The study aimed at development of a multiplex PCR system for amplification of three Y-chromosome STR loci: DYS390, DYS392 and DYS393, and its application in haplotype polymorphism analysis in the population of northern Poland. Due to interactions between originally published primers, a new DYS392 primer pair was proposed. In a population of 158 unrelated males, 28 different haplotypes could be observed, 12 of which were seen only once. The haplotype diversity is 0.805. Distribution of haplotypes of the studied loci is specific to the population of northern Poland and distinguishes it from compared West-European populations. To our knowledge, this is the first report on a Y-STR multiplex system that can be analysed on native polyacrylamide gels.     

Polymorphism of microsatellite loci DYS19, DYS393, and frequency of the T-C transition of the RBF5 locus on the Y-chromosome in inhabitants of the Volga-Ural region

Polymorphism of the DYS19 and DYS393 microsatellite loci and T-C transition at the RBF5 locus of the Y chromosome were analyzed in Volga-Ural populations of Bashkirs, Tatars, Chuvashes, Maris, Mordovians, Udmurts, and Komis. For the DYS19 locus, statistically significant differences were observed between Trans-Ural and Northeastern Bashkirs; between Trans-Ural Bashkirs and Tatars; and between Udmurts and other populations of the Volga-Ural region, excluding Trans-Ural Bashkirs. The DYS393 locus allele frequency distribution patterns were similar in all populations studied. The highest and the lowest frequencies of T-C transition at the RBF5 locus was detected in Udmurts (0.68) and in Mordovians (0.09), respectively. Association of C-alleles with the DYS19/DYS393 microsatellite haplotypes was investigated. The major haplotypes specific to the Turkic- and Finno-Ugric populations were revealed.     

Allele variation of DYS19 and Y-Alu insertion (YAP) polymorphisms in Basques: an insight into the peopling of Europe and the Mediterranean region

Two Y-chromosome DNA polymorphisms, the DYS19 microsatellite and the YAP (at locus DYS287), were tested in males from two autochthonous Basque populations from France and northern Navarre (Spain). The results are compared to those obtained for the same genetic markers in 32 populations from Europe, northern Africa, and western Asia. The high predominance of the DYS19*11 (190-base-pair) allele in Basques indicates that their genetic diversity for microsatellite DYS19 is around half that observed in Europeans, North Africans, and western Asians. The Y-Alu insertion (YAP+) was not detected in the Basque samples. This study attempts to throw some light on the importance of historically recent migratory movements, the main corridors of gene flow, and demographic sizes and their variations in shaping gene frequency patterns in contemporary human populations, particularly in the Mediterranean region. Historical processes may have had more significant effects on the genetic make-up of current human populations than those of prehistoric times.     

福建畲族群体17个Y-STR基因座单倍型及遗传关系

应用Y-filerTM试剂盒及基因分型技术,检测152份福建畲族无关男性个体17个Y-STR基因座的多态性分布,计算等位基因频率及单倍型多样性,并结合已公开发表的其他11个群体相应基因座的单倍型资料,分析福建畲族群体遗传距离和聚类关系。福建畲族DYS385a/b基因座检出50种单倍型,其余15个Y-STR基因座分别检出3-11个等位基因,基因多样性GD值在0.4037(DYS391)～0.9725(DYS385a/b);观察到DYS19和DYS390基因座双等位基因和DYS385a/b基因座三等位基因,以及DYS448等部分基因座出现的"off-ladder"等位基因现象。17个Y-STR基因座共同构成的单倍型144种,其中138种单倍型出现1次,5种出现2次,1种出现4次,累计GD值为0.9990。从遗传距离分析发现,福建畲族与浙江汉族之间的遗传距离最近(0.0042),与青海藏族(0.2378)之间的遗传距离相对较远。福建畲族最靠近由台湾群体、浙江汉族、南方汉族等典型南方汉族群体聚成的分支区域。结果表明该17个Y-STR基因座在福建畲族群体中具有丰富的遗传多态性,对建立Y染色体STR数据库,研究群体遗传学和进行法医学应用有重要意义。     

Y-chromosome-specific microsatellite variation in Australian aboriginals

The frequency distributions of 4 highly polymorphic Y-chromosome-specific microsatellites (DYS19, DYS390, DYS391, and DYS392) were determined in 79 unrelated Australian Aboriginal males from the Northern Territory. These results are compared with those observed in worldwide populations at both the locus and the haplotype level. Common alleles in Aboriginals are DYS19*15 (49%), DYS19*14 (28%), DYS390*19 (39%), DYS390*24 (20%), DYS391*10 (72%), DYS392*11 (63%), and DYS392*13 (28%). No evidence of reduced gene diversity was observed for these Y-chromosome alleles. DYS390 exhibits the most complex arrangement, displaying a bimodal distribution composed of common alleles (*22-*26), and rare short alleles (*18-*20), with an intermediate allele (*21) being absent. DYS390*20, previously reported only in Papuans and Samoans, is observed for the first time in Aboriginals. Compared with a recent study of Aboriginals, our sample exhibits considerable diversity in the haplotypes associated with the rare DYS390*19 allele, indicating that this allele is of considerable antiquity, if it arose as a single deletion event. Combining all 4 Y-chromosome-linked microsatellites produced 41 unique haplotypes, which were linked using a median-joining network. This network shows that most (78%) of our Aboriginal haplotypes fall into 2 distinct clusters, which likely represent 2 separate lineages. Seven haplotypes are shared with haplotypes found in a recent study of Aboriginals, and 7 are shared with a Spanish population. The cluster of Aboriginal haplotypes associated with the short DYS390 alleles does not share any haplotypes with the Spanish, indicating that this cluster of haplotypes is unique to Australian Aboriginals. Limited data from 4 worldwide populations used to construct haplotypes based on 3 loci (DYS19, DYS390, DYS392) show that only 4 of these haplotypes are seen in Australian Aboriginals. Shared haplotypes may be the result of admixture and/or recurrent mutation at these loci. Expanding the haplotype analysis to include biallelic markers on the Y chromosome will resolve this issue.