中国汉族与日本群体DYF155S1基因座的遗传多态性

目的探讨Y染色体DYF155S1基因座的遗传多态性及群体间差异.方法应用MVR-PCR、荧光显谱及DNA序列分析技术,对来自中国群体(北方汉族,64例)和日本群体(43例)男性个体的DYF155S1基因座进行初步分析.结果107例样本共检出了5种重复序列类型,包括新的命名为6型的重复序列,它是在1型的基础上T22A置换所形成,仅存在于日本群体,可作为民族特征性遗传标记.2群体重复序列的排列方式以3134顺序为主,在中国和日本群体中各占73.44%和67.44%,是黄种人的特点.134顺序在中国群体中占第二位,为17.19%,6134排列占日本群体的16.28%.3端的4型重复序列的平均数目在日本群体为8.8条,明显低于中国群体的12.5条.结论DYF155S1基因座具有非常高的遗传多态性和明显的群体差异.     

中国汉族与日本群体DYFl55S1基因座的遗传多态性

目的探讨Y染色体DYF155S1基因座的遗传多态性及群体间差异。方法 应用MVR-PCR、荧光显谱及DNA序列分析技术,对来自中国群体(北方汉族,64例)和日本群体(43例)男性个体的DYF155S1基因座进行初步分析。结果107例样本共检出了5种重复序列类型,包括新的命名为6型的重复序列,它是在1型的基础上T22A置换所形成,仅存在于日本群体,可作为民族特征性遗传标记。2群体重复序列的排列方式以3134顺序为主,在中国和日本群体中各占73.44％和67.44％,是黄种人的特点。134顺序在中国群体中占第二位,为17.19％,6134排列占日本群体的16.28％。3’端的4型重复序列的平均数目在日本群体为8.8条,明显低于中国群体的12.5条。结论DYF155S1基因座具有非常高的遗传多态性和明显的群体差异。     

荧光复合扩增4个Y染色体STR的单倍型及其法医学应用

目的建立一套Y染色体STR的双色荧光复合扩增系统,调查4个Y-STR基因座单倍型分布情况及其在混合斑物证检验中的法医学应用前景。方法荧光标记引物复合扩增Y-GATA-A10、DYS531、DYS557和DYS448四个Y染色体特异性STR基因座,并用ABⅠ310遗传分析仪对扩增产物进行检测、分型。结果在成都汉族120名无关男性个体中,四个基因座分别检出5、5、8、7个等位基因,共检出78种单倍型,单倍型基因多样性为0.9881。对3例本教研室不能用常规常染色体STR对男性成份作出同一认定的混合斑检材,该系统成功的作出了与嫌疑人血液Y-STR基因型一致的鉴定结论。结论建立的Y-STR荧光标记复合扩增系统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混合斑物证鉴定有重要意义。     

19个常染色体与4个Y染色体STR复合扩增体系的建立

目的建立19个常染色体STR及Amelogenin和4个Y染色体STR基因座复合扩增体系,并对其效能进行评估。方法用五色荧光标记20＋4Y—STR基因座,建立同步扩增检测体系,用ABI3130XL遗传分析仪对扩增产物进行电泳,GeneMapperID3．2软件进行基因分型;检测体系的灵敏度、均衡性、稳定性、特异性、同一性和稳定性,并观察混合、降解及微量检材的分型情况。结果采用本文体系,DNA模板量在0．05～1．00ng时,分型准确,均衡性、特异性好;混合、降解及微量检材分型正确。该19个常染色体STR基因座的累计个人识别率大于0．999999999,三联体累计非父排除率达0．999999985,Y—STR单倍型多态性为0．592。结论本文建立的复合扩增体系分型准确,稳定,在法医学案件检验及数据库建设等方面有良好的应用前景。     

DYS19、DYS391、DYS439三个Y-STR荧光标记复合扩增的法医学应用研究

目的　研究Y—染色体STR基因座在法医学检测中的应用价值。方法　用荧光标记DYS19,DYS391,DYS4 39三个Y—STR基因座 ,PCR复合扩增 ,通过毛细管电泳得到结果。结果　三个Y—STR基因座有较高的种属特异性 ;观察 5 0次男性配子细胞形成过程中的减数分裂未发现突变基因 ;对男∶女不同比例混合血样检测 ,当男∶女性血样比达 1∶5 0时 ,仍能准确分型Y—STR基因型 ,并且Y—STR检验较常染色体STR分型更有优势 ;检测了 1～ 15个月病理石蜡切片 ,表明Y -STR基因座适合降解DNA的检测。结论　Y -STR分型适合日常法医检案的需要 ,该方法是对常染色体STR应用的一个补充。     

4个多拷贝RM Y-STR基因座的异常分型

目的观察湖北汉族人群中4个多拷贝RM Y-STR基因座的异常分型。方法使用文献报道及自行设计的荧光标记引物对252个无关男性个体样本进行扩增,并用AB 3130遗传分析仪对扩增产物进行检测分析。结果在所有样本中共发现25例异常多等位基因分型,其中基因座DYF387S1出现5例,DYF399S1出现15例,DYF403S1出现1例,DYF404S1出现4例。25例异常分型存在于20个样本中,发生率为7.94%,其中4个样本在两个以上基因座上均出现异常分型。结论多拷贝RM Y-STR基因座异常分型发生率较高,在法医学的实际应用中应予以注意。     

荧光标记STRs复合扩增分析混合血样品

探讨应用荧光标记STRs复合扩增技术能够检测出混合血样品中较少个体成份的最低检出量及所占的比例多少与基因型的峰值高低是否存在一定的剂量反应关系。采用荧光标记STRs复合扩增技术 ,分析 4对两无关男 /女的混合血样品。扩增基因座包括D8S1179、D2 1S11、D18S5 1、D3S135 8、vWA、FGA、D5S818、D13S317、D7S82 0及性别Amelogeine。结果表明 ,对经用酚 /氯仿有机溶剂方法提取的混合血样品中较少成份的最低检出量为 ,能够从10ng混合DNA中检出 1ng的较少成份 ;从 10∶90至 5 0∶5 0 5个不同比例组 ,较少成份所占比例多少与其对应基因型峰值的高低呈现一定的正相关趋势。应用荧光标记STRs复合扩增技术可能较好地解决混合血样品的个体识别问题     

D20S161和D8S384两个基因座在法医学中的应用

评估D2 0S16 1和D8S384两个基因座在法医学中的应用价值。用自制的D2 0S16 1和D8S384两个DNA分型试剂盒 ,对人血、人精液、人唾液、动物血、人血与动物血的混合检材和人血痕、人精液斑、人唾液斑、动物血痕、人血与动物血的混合斑痕检材 ,以及陈旧血痕检材进行检测分型 ,并用这两个基因座PCR引物序列与DNA数据库进行联网对比分析。自制的D2 0S16 1和D8S384两个DNA分型试剂盒能对人血、人精液、人唾液、人血与动物血的混合检材分型 ,而动物血没有PCR产物 ;自制的D2 0S16 1和D8S384两个DNA分型试剂盒能对人血痕、人精斑、人唾液斑和人血与动物血的混合斑痕检材正确分型 ,而动物血痕没有PCR产物 ;斑痕检材分型结果与对应体液检材分型结果无差异 ;5 0份陈旧血痕检材全部获得阳性分型结果。DNA数据库联网比较提示 ,D2 0S16 1和D8S384基因座引物除了能与各自的模板序列发生特异性扩增外 ,理论上不能与DNA数据库中 6 0 6 36 4种已知序列产生PCR产物。D2 0S16 1和D8S384两个基因座具有高度的种属特异性 ,抗污染能力强 ,不易受降解的影响 ,是解决法医现场生物检材个人识别和亲子鉴定的理想手段     

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。     

苏北地区汉族人群19个Y—STR基因座的遗传多态性

Y染色体短串联重复序列（Y—STR）作为常用的Y染色体特异遗传标记，在法医学个体识别、亲子鉴定、混合斑中男性成分检测、追溯父系迁移历史f1J等方面都具有独特的应用价值，是常染色体及mtDNA的重要补充。本研究调查了苏北地区642名汉族无关男性个体的19个Y—STR基因座的遗传多态性，以期为该群体的DNA检验鉴定提供基础数据。     

Frequencies of D8S384 alleles and genotypes in European, African-American, Chinese, and Japanese populations

D8S384 is a tetranucleotide tandem repeat locus. In order to evaluate the forensic validation of D8S384, the genotype distributions and allele frequencies in ten populations from three main ethnic groups were investigated, including Germans, Slovakians, African Americans, Japanese, and Chinese (Jilin, Guangzhou, Nanning, Hailaer, Dali, and Chengdu). A total of 1011 unrelated individuals, 41 pedigrees, 30 disputed paternity trios and three personal identification cases were analyzed for D8S384 by Amp-FLP technique. Many kinds of tissues, body fluids, secreta and stains have been tested. The alleles were determined by comparison with a human allele ladder. The results showed that D8S384 typing was both precise and reliable. There were eight alleles in these populations. The genotype distributions conformed to Hardy-Weinberg equilibrium predictions. No mutation events were observed. With a maximum likelihood method, the mutation rate was indirectly estimated as 2.14 x 10(-5). The heterozygosity was 0.704 +/- 0.014 at D8S384 locus. All these results suggest that D8S384 locus is a useful marker for forensic identification and paternity analysis.     

Further characterization and population data for the pentanucleotide STR polymorphism D10S2325.

Pentanucleotide tandem repeat markers are interesting for forensic sciences, because they may present less stutter on the electrophoretic pattern. We focused on the analysis of the DNA sequence for each allele at the pentanucleotide STR locus D10S2325 in order to understand their structures in the human genome and to construct human allelic ladder, which is necessary for forensic DNA typing. In order to evaluate the forensic applicability of D10S2325 and to construct a preliminary database, the genotype distributions and allele frequencies in three major ethnic groups were investigated. The population samples included Caucasians (Germans), Africans (African Americans), and Asians (Chinese). A total of 520 samples from unrelated individuals was analyzed by Amp-FLP. An example of each allele and new alleles were sequenced. Allele determination was carried out by comparison with a sequenced human allelic ladder made in-house. This pentanucleotide STR provided easily interpretable results. A total of 15 alleles was found in our population samples. Three new alleles were observed and named as alleles 19 and 21 based on the number of repeat motifs, while allele 19 can be divided further into two alleles, 19a and 19 according to analysis of the sequence. No evidence of deviation from Hardy-Weinberg equilibrium was observed. In 64 confirmed father/mother/child triplets no mutation event was observed. Using a maximum likelihood method, the mutation rate was indirectly estimated as 2.5 x 10(-5). These results suggest that D10S2325 is a useful marker for forensic casework and paternity analysis.     

Validation of a 16-locus fluorescent multiplex system

STR multiplexes have been indispensable for the efficient genotyping of forensic samples. The PowerPlex 16 System contains the coreCODIS loci, D3S1358, D5S818, D7S820, D8S1179, D13S317, D16S539, D18S51, D21S11, CSF1PO, FGA, THOI, TPOX, vWA, the sex determinant locus, amelogenin, and two pentanucleotide STR loci, Penta D and Penta E. This multiplex satisfies the locus requirements for most national databases and is the most efficient currently available system due to its single PCR amplification. To provide the groundwork for judicial acceptance, including the publication of primer sequences, and to evaluate laboratory-to-laboratory variation, a developmental validation for casework on this commercially available system was performed in 24 laboratories and produced the following conclusions. Amplification was reliable on a variety of thermal cyclers and product could be analyzed on either an ABI PRISM 310 Genetic Analyzer or an ABI PRISM 377 DNA Sequencer. Genotyping using single source samples was consistent between 0.25 and 2 ng of input DNA template with a few laboratories obtaining complete genotypes at 0.0625 ng. However, heterozygote allele imbalance (<60% peak height balance) caused by stochastic effects was observed at a rate of 13% with 0.125 ng DNA and 22% at 0.0625 ng DNA. Mixture analyses were done using a total of 1 ng of DNA template. Most alleles were detected in mixtures of 4 to 1 and some minor alleles were detected in mixtures of 19 to 1. Optimum amplification cycle number was dependent on the sensitivity of the detection instrument used and could also be adjusted to accommodate larger amounts of DNA on solid supports such as FTA paper. Reaction conditions including volume, annealing temperature, and concentrations of primer, AmpliTaq Gold, and magnesium were shown to be optimal yet robust enough to withstand moderate variations without affecting genotype analysis. Environmental, matrix and standard source analyses revealed an ability to obtain complete genotypes in all sample types except those exposed to 80 degrees C for 12-48 days. Finally, comparison of genotype results from the PowerPlex 16 System with other commercially available systems on non-probative reference and forensic samples showed consistent results.     

Long PCR for VNTR analysis

The Polymerase Chain Reaction (PCR) has revolutionized the analysis of DNA from a variety of sources. With its sensitivity and ability to amplify degraded DNAs and small quantities of samples, coupled with fast turn-around-time, PCR is often the analytical method of choice for DNA profiling in forensic laboratories. RFLP methods, while requiring larger amounts of high molecular weight DNA and needing approximately 6-8 weeks of analytical time, still provide a higher power of discrimination per locus than that achieved using the loci currently available for PCR. The combination of both RFLP and PCR would be advantageous for some applications. A new technique, Long PCR, allows for the effective amplification of long DNA targets from approximately 0.5 kb to > 20 kb of genomic DNA. Currently, several Long PCR systems are commercially available. Using a Taq/Pyrococcus DNA polymerase enzyme system and DNA isolated from bloodstains, we have successfully amplified 1-20 ng of Chelex-extracted DNA, an amount commonly used in Amp-FLP technology. The robustness of Long PCR in comparison to RFLP was also examined through the use of partially degraded blood samples. Long PCR was then used to amplify both D2S44 and D5S110 RFLP loci. Although all D2 and D5 alleles were detected, the larger alleles were amplified at significantly lower levels than the smaller alleles.     

Y-chromosome variation in a Norwegian population sample

Y-chromosome DNA profiles are promising tools in population genetics and forensic science. Here we present DNA profiles of 300 unrelated Y-chromosomes of Norwegian origin. The profile is composed of eight short tandem repeats (STRs) and one single nucleotide polymorphism (SNP). In more than 2/3 of the haplotypes the modular structure in the 5' end of the minisatellite locus DYF155S1 was revealed by minisatellite variant repeat PCR (MVR-PCR) These haplotypes were also typed for deletions of fragment 50f2C (DYF155S2). Allele distribution and paternity exclusion parameters are given for each marker. The degree of haplotype diversity and its implication for statistics are evaluated. In the 300 samples 177 different haplotypes were encountered, of which 137 were observed once only. Analysis showed that the main source of variation is within the population. The Fst values were less than 0.015 in general. Haplotype grouping by the SNP demonstrated two haplogroups (Tat/T and Tat/C). Haplogroup Tat/C--found in 5.7% of the present material - is the same haplogroup as encountered in 60% of Finnish males [Am. J. Hum. Genet. 62 (1998) 1171]. Mutation analysis in 150 father/son pairs (a total of 1200 meiotic events) revealed an average mutation frequency of 0.0042 (95% CI 0.0014-0.0097).     

Evaluation of rapidly mutating Y-STRs in Pakistani population

Y-chromosomal Short Tandem Repeats have been widely used in forensic investigations, identification of males for criminal justice purpose and population genetics. Commercially available Y-STRs kits allow the identification of male pedigrees and has a limited application in forensic genetics because of its limitation in differentiating closely related male individuals. Recent research with the Rapidly Mutating Y-STRs (RM Y-STRs) have revealed that these loci deliver significantly higher discrimination capacity and haplotype diversity in worldwide populations when compared with the conventional Y-STRs. Although a number of RM Y-STRs have found their way in most updated commercial kits, there are still some loci that are not yet used in such kits. The aim of this study is to develop RM Y-STR haplotypes frequency database for the Pakistani population, in order to appraise the resolution power of these loci. A total of 212 unrelated males from the Pakistani population were typed with 13 RM Y-STRs which comprise DYF399S1, DYF387S1, DYS570, DYS576, DYS518, DYS526a + b, DYS626, DYS627, DYF403S1a + b, DYF404S1, DYS449, DYS547 and DYS612. 211 unique haplotypes were identified, out of which 1 haplotype was shared between two individuals, accounting for 0.9952 discrimination capacity (DC). Haplotype diversity was found to be 0.999925. Gene diversity (GD) values of all the loci were higher than 0.5, where the highest GD values were observed at DYF399S1, DYF403S1a and DYF404S1; with values of 0.99419, 0.98252 and 0.93061 respectively. Results of our study revealed that these 13 RM Y-STRs produced significantly stronger discriminatory power in Pakistani populations.     

Amelogenin locus typing using toehold-assisted fluorescent DNA melting analysis

The amelogenin gene is the locus of choice for gender identification in forensic science. Here we report on the use of fluorescent DNA melting curve analysis to genotype the amelogenin locus by means of a toehold-assisted DNA strand displacement reaction. The shape of the curves, or “polarity” of the melting peaks, allowed for visual discrimination between male and female DNA samples.     

Multiplexing of Y chromosome specific STRs and performance for mixed samples

A combination of four Y-specific polymorphic STR loci was amplified simultaneously using fluorescently labeled primers. Multiplex conditions required optimization to eliminate constant bands and amplification products for female DNA. A series of experiments was carried out for mixtures of DNA from two males, and from male and female individuals for the Y-specific STRs and an autosomal locus. For the male/male mixtures amplified with the Y specific system, and amplified for an autosomal locus, the minor component in the mixture could only be identified up to a ratio of 1:10, 1:50 respectively. In male/female DNA mixtures the Y STR alleles could be identified for the highest ratio tested, 400 pg male in DNA in 800 ng female DNA which amounts to a ratio of 1:2000.