Y-STR四色荧光复合扩增系统的建立及其应用

目的建立Y染色体STR的四色荧光复合扩增系统,调查7个Y-STR基因座单倍型分布情况。方法设计3套公共引物对分别嵌合在3组Y-STR基因座的原始引物上(1)YS434、Y-GATA-A10、DYS531、DYS557、 DYS448、DYS456、DYS444),再利用加不同荧光颜色标记的3组公共引物对同时复合扩增,用AB I 310遗传分析仪对扩增后产物进行检测,CeneScan、Genotyper软件进行基因分型。结果 3组复合扩增均可成功进行分型,在成都汉族 120名无关男性个体中,7个基因座分别检出4、5、5、8、8、6、7个等位基因,共检出101种单倍型,其中89种为唯一的, 单倍型基因多样性为0．9958。对1例混合斑物证检材,成功检出了与嫌疑人血样Y-STR基因型一致的结果。结论 Y-STR四色荧光标记复合扩增系统分型可靠,对建立Y染色体STR数据库、研究群体遗传学和进行法医学鉴定有重要意义。     

9个Y-STR基因座荧光复合扩增系统的法医学应用

目的建立9个Y-STR基因座的复合扩增系统,提高Y-STR的法医学检测效能。方法6-FAM标记DYS434、Y-GATA-A10、DYS438、DYS439,HEX标记DYS531、DYS557、DYS448,TAMRA标记DYS456、DYS444引物,PCR复合扩增,毛细管电泳得到结果,考察扩增系统的个体识别能力、灵敏度、特异性、组织同一性。结果所建立的9个Y-STR复合扩增系统分型清晰,单倍型多样性达0.9968,特异性好,灵敏度高(0.5ngDNA),并且在男女混合斑检验上较常染色体STR分型更有优势。结论9个Y-STR复合扩增系统具有较高的识别能力,对建立Y染色体STR数据库,研究群体遗传学和进行法医学混合斑物证鉴定有重要意义。     

3个Y-STR的复合扩增及其单倍型

目的 建立复合扩增Y-STR基因座的体系,获得广东汉族人的单倍型频率。方法 复合扩增DYS439、DYS437和DYS434三个基因座,用聚丙烯酰胺凝胶电泳银染法进行基因分型,检测广东汉族327名无关男性个体的单倍型。结果 3个基因座分别检出6个、4个和4个等位基因,共38种单倍型,其单倍型的个体识别率为0.8796。结论 Y-STR基因座复合扩增体系和建立的Y染色体STR数据库,在法医学鉴定中有应用意义。     

7个Y-STR基因座单倍型及其法医学应用

目的调查7个Y-STR基因座单倍型及其法医学应用。方法利用二组复合扩增体系,(Ⅰ:DYS391、GATA-A4、GATA-A10和GATA-H4;Ⅱ:DYS439、DYS437和DYS434)检测7个Y染色体特异性的STR基因座,并用聚丙烯酰胺凝胶电泳和银染显色技术进行基因分型。结果在广东汉族372名无关男性个体中,二组7个基因座分别检出5、7、6、5和6、4、4个等位基因,共检出254种单倍型,其中201种为唯一的。单倍型基因多样性为0.9960。结论7个Y-STR基因座具有很高的识别能力,对建立Y染色体STR数据库,研究群体遗传学和进行法医学鉴定有重要意义。     

用复合扩增方法检测4个Y-STR基因座单倍型

目的建立复合扩增Y-STR基因座的体系,获得中国汉族人的单倍型频率。方法复合扩增DYS439、DYS390、GATA-A7.2和DYS3934个基因座,用聚丙烯酰胺凝胶电泳和银染法进行基因分型。结果调查中国汉族558名无关男性个体,4个基因座分别检出7、7、7和6个等位基因,共180种单倍型,其单倍型的个体识别率为0.9853。结论该复合扩增体系在建立Y染色体STR数据库、在群体遗传研究和法医学鉴定中有应用意义。     

荧光复合扩增检测3个Y—STR基因座单倍型

目的建立检测3个Y-STR基因座Y-GATA-A7.1、DYS456和DYS443的荧光复合扩增体系,并获取中国汉族人群单倍型频率分布。方法用荧光标记引物对郑州地区203名汉族男性无关个体进行3个基因座复合扩增,ABI3100型遗传分析仪检测、分型。结果Y-GATA-A7.1、DYS456和DYS443基因座分别检出5、6和6个等位基因,其基因多样性(GD值)分别为0.6692、0.5839和0.7053。三个基因座构成的单倍型共有44种,单倍型多样性(HD值)为0.9523。结论建立的3个Y-STR基因座荧光标记复合扩增系统具有很高的识别能力,可应用于法医学实践。     

Y染色体STR的银染复合扩增

目的建立一套Y染色体STR的复合扩增体系,检测中国藏族人群的单倍型分布。方法利用复合扩增的方法扩增DYS434、DYS443和DYS456三个基因座,利用聚丙烯酰胺凝胶电泳银染进行分型,检测西藏藏族101名无关男性个体单倍型分布。结果三个基因座在藏族样本中分别检测出4、4、6个等位基因,共检测出31种单倍型,其单倍型的变异度是0.9481,标准误为0.0049。结论Y-STR的复合扩增在法医学的亲权鉴定和个人识别中有重要的作用。     

浙江汉族人群16个Y-STR基因座遗传多态性调查

目的进一步完善浙江省汉族人群Y-STR基因座遗传多态性研究,为其法医学应用提供基础数据。方法应用Y-filer荧光标记复合扩增系统,对浙江汉族203名无关男性个体进行16个STR基因座的复合扩增,统计各基因座的群体遗传学参数。结果其中15个Y-STR基因座分别检出4~13个等位基因,DYS385基因座检出47种单倍型,GD值为0.3918~0.9609;观察到16个Y-STR基因座共同构成的单倍型199种,其中196种单倍型出现1次,2种出现2次,1种出现3次,累计GD值为0.9998。结论16个Y-STR基因座具有较强的个体识别能力,适合浙江法庭科学应用。     

浙江汉族人群6个Y—STR基因座的遗传多态性调查及法医学应用

目的获得6个Y-STR基因座及其单倍型在浙江汉族人群中的遗传多态性分布,并探讨其法医学应用价值。方法应用Y-plex荧光标记复合扩增系统,对浙江汉族200名无关男性个体进行6个STR基因座的复合扩增,用ABI3100型基因分析仪对扩增产物进行检测,统计6个Y-STR基因座的群体遗传学参数。结果其中5个Y-STR基因座分别检出5、7、6、6、5个等位基因,DYS385基因座检出47种单倍型,GD值最低为0.4275(DYS391),最高为0.9584(DYS385);观察到6个Y-STR基因座共同构成的单倍型159种,其中有132种单倍型只出现1次,16种出现2次,6种出现3次,2种出现4次,2种出现5次,累计GD值为0.9967。结论6个Y-STR基因座具有较强的个体识别能力,可应用于浙江法庭科学中的个体识别与亲权鉴定。     

4个Y-STR基因座遗传多态性及分子克隆技术制备分型标准物

目的研究Y染色体4个新发现的STR基因座在成都汉族群体中的遗传多态性,寻找适合于法医学应用的Y-STR基因座并用分子克隆法制备其等位基因分型标准物。方法用PCR扩增和非变性聚丙烯酰胺凝胶电泳技术,对105名成都地区汉族无血缘关系男性个体的4个Y-STR基因座进行分型。并通过分子克隆技术制备DYS643基因座的等位基因分型标准物。结果DYS632、DYS634、DYS642和DYS643四个STR基因座均具有Y染色体特异性,在成都汉族群体中等位基因个数分别为2、4、3和5,共检测出31种单倍型;DYS643基因座的等位基因分型标准物可以用于群体研究。结论DYS643基因座及其分子克隆法制备的等位基因分型标准物具有较高的法医学应用价值。     

中国成都汉族群体三个Y-STR基因座复合扩增及其单倍型的研究

目的建立一种同步检测Y-STR基因座的方法。方法采用复合扩增的方法同时对三个基因座(DYS390、DYS391及DYS393)进行扩增。结果成功地对这三个Y-STR基因座进行了同步扩增,并用其对中国成都汉族群体进行群体遗传学研究。结论三个Y-STR基因座在中国成都汉族群体个人识别几率为0.8965±0.0081,证明这个体系可用于个人识别和群体遗传学研究。     

Testing and evaluation of 43 "noncore" Y chromosome markers for forensic casework applications

A developmental validation study was performed on three Y-STR multiplex systems, Multiplex III (MPIII), Multiplex IV (MPIV), and Multiplex V (MPV), to ascertain their potential applicability to forensic casework. MPIII contains eight Y-STRs, including DYS426, DYS435, DYS436, DYS441, DYS442, DYS446, DYS462, and Y-GATA-A10, and one InDel, YAP (DYS287). MPIV contains 21 Y-STR loci, including DYS443, DYS444, DYS445, DYS447, DYS448, DYS449, DYS452, DYS453, DYS454, DYS455, DYS456, DYS458, DYS463, DYS464, DYS468, DYS484, DYS522, DYS527, DYS531 DYS557, and DYS588. MPV contains 13 Y-STR loci, including DYS459, DYS476, DYS488, DYS513, DYS549, DYS561, DYS570, DYS575, DYS576, DYS590, DYS594, DYS598, and DYS607. Full genetic profiles were consistently obtained for all three multiplexes with 25-50 pg of male DNA. No significant amplification was observed with 1 mug of female DNA. Each multiplex permitted the determination of the number of male donors in male:male DNA admixtures. Species specificity studies demonstrated some cross-reactivity with some primate samples. Environmentally compromised blood samples produced full or partial profiles after exposure to various conditions for up to 1 year. Full profiles were recovered from simulated casework specimens including cigarette butts and postcoital cervicovaginal swabs. Population data were collected to determine individual loci gene diversity and multiplex discriminatory capacity.     

Development and validation of the AmpFlSTR Yfiler PCR amplification kit: a male specific, single amplification 17 Y-STR multiplex system

In the past 5 years, there has been a substantial increase in the use of Y-short tandem repeat loci (Y-STRs) in forensic laboratories, especially in cases where typing autosomal STRs has met with limited success. The AmpFlSTR Yfiler PCR amplification kit simultaneously amplifies 17 Y-STR loci including the loci in the "European minimal haplotype" (DYS19, DYS385a/b, DYS389I, DYS389II, DYS390, DYS391, DYS392, and DYS393), the Scientific Working Group on DNA Analysis Methods (SWGDAM) recommended Y-STR loci (DYS438 and DYS439), and the highly polymorphic loci DYS437, DYS448, DYS456, DYS458, Y GATA H4, and DYS635 (formerly known as Y GATA C4). The Yfiler kit was validated according to the FBI/National Standards and SWGDAM guidelines. Our results showed that full profiles are attainable with low levels of male DNA (below 125 pg) and that under optimized conditions, no detectable cross-reactive products were obtained on human female DNA, bacteria, and commonly encountered animal species. Additionally, we demonstrated the ability to detect male specific profiles in admixed male and female blood samples at a ratio of 1:1000.     

High-throughput Y-STR typing of U.S. populations with 27 regions of the Y chromosome using two multiplex PCR assays

Two Y-chromosome short tandem repeat (STR) multiplex polymerase chain reaction (PCR) assays were used to generate haplotypes for 19 single copy and 3 multi-copy Y-STRs. A total of 27 PCR products were examined in each sample using the following loci: DYS19, DYS385 a/b, DYS388, DYS389I/II, DYS390, DYS391, DYS392, DYS393, DYS426, DYS437, DYS438, DYS439, DYS447, DYS448, DYS450, DYS456, DYS458, DYS460, DYS464 a/b/c/d, H4, and YCAII a/b. The first multiplex is the Y-STR 20plex previously described by Butler et al. [Forensic Sci. Int. 129 (2002) 10]. The second multiplex is a novel Y-STR 11plex and includes DYS385 a/b, DYS447, DYS448 and the new markers DYS450, DYS456, DYS458, and DYS464 a/b/c/d. These two multiplexes were tested on 647 males from three United States population sample sets: 260 African Americans, 244 Caucasians, and 143 Hispanics. Haplotype comparisons between common loci included in the 20plex and 11plex assays as well as commercially available kits found excellent agreement across a sampling of the population samples. The multi-copy loci DYS464, DYS385, and YCAII were the most polymorphic followed by the following single copy Y-STRs: DYS458, DYS390, DYS447, DYS389II, DYS448, and DYS456. Samples containing the most common type in the European database could be well resolved with additional markers beyond the minimal haplotype loci.     

Unexpected patterns in Y-STR analyses and implications for profile identification

Y-STR analysis is widely used in many fields, such as paternity testing, genealogy studies and in male/female mixtures. In many rape cases, Y-STRs are also useful for the determination of contributors’ number. Here we described a father/son pair with double peaks at DYS439 and DYS635 loci. This case should focus the attention on forensic interpretation of Y-haplotype profiles, because multiple alleles at various loci do not forcibly indicate that the sample originates from a mixture.We also report a case of two half-brothers with null allele at DYS448.Since DYS439 and DYS635 loci are located in the AZFa region and DYS448 locus in the AZFc region, we performed a molecular genetics study of these regions to evaluate a possible correlation between Y-STR profiles and Y chromosome deletions involved in infertility.     

Genetic analysis of 17 Y-chromosomal STRs haplotypes of Chinese Tibetan ethnic group residing in Qinghai province of China

We have co-amplified and analyzed 17 Y-chromosomal STRs loci including European 'extended haplotypes' (DYS19, DYS389 I, DYS389 II, DYS390, DYS391, DYS392, DYS393, DYS385a,b, DYS438, and DYS439) and also six additional loci DYS437, DYS448, DYS456, DYS458, DYS635 and YGATA H4 in a population sample of 167 healthy unrelated autochthonous male individuals of Chinese Tibetan ethnic minority group residing in Qinghai province of China using a multiplex PCR system. The gene diversity values for the Y-STRs loci ranged from a minimum 0.3581 for DYS391 locus to a maximum of 0.8702 for DYS385a,b loci in Tibetan population. A total of 163 haplotypes were identified in the set of Y-STR loci, of which 159 were unique and 4 found in two individuals. The overall haplotype diversity for the set of Y-STRs loci was 0.9998, and the discrimination capacity was 0.9938. Research results will be valuable for human identification and paternity tests in the region and for Chinese population genetic study in the future.