SNP分型方法及在法医学等领域的应用

随着单倍型图的产生,SNP越来越受到关注。不仅仅在Y染色体和线粒体,常染色体和X染色体上的SNPs的应用潜能也将被发现。SNPs具有比较低的突变率和适合于降解DNA分析的特点,在法医学领域也受到关注。本文综合介绍了SNPs和X-SNPs的一般特性、分型方法及其在法医学的应用。     

47个SNPs复合检测方法的建立及其法医学应用

目的建立47-plexSNPs复合检测方法，评价其在法医学中的应用价值。方法筛选46个常染色体SNPs和1个Y—SNPs，使用2个检测体系分别对47个SNPs进行单管内复合PCR扩增，采用荧光标记单碱基延伸法和毛细管电泳检测技术进行分型检测；并用建立的方法对260份广东地区无关个体血样进行47个SNPs分型。结果建立的47-plex SNPs的复合检测体系灵敏度高，种属特异性好；260名个体所有SNPs均能准确分型，群体内基因型频率分布均符合Hardy—Weinberg平衡，累积个人识别率大于0．9999，累积非父排除率为0．99982，累积偶合率为6．24×10一。结论本文47-plex SNPs复合检测方法能同时对47个SNPs进行快速、准确的检测，在法医学个体识别鉴定中具有良好的应用前景。     

HLA区域SNPs及其在法医学中的应用价值

人类白细胞抗原是迄今为止人类发现的最复杂的基因系统。HLA区域SNPs的分布频率高于人类整个基因组水平达到8.6%。目前SNPs可用多种方法检测。本文主要综述HLA区域SNPs在法医学亲权鉴定和个人识别的应用价值。     

Y染色体SNPs及其在法医学中的应用

Y-SNPs综合了Y染色体和SNPs的特点,具有男性特异性,突变率低,日益引起法医学工作者的关注。本文综合介绍了Y-SNPs的特性、单体群的命名规范及在法医学中的应用价值。     

GABRG2基因3'端的遗传多态性及法医学意义

目的调查GABRG2基因5个SNPs在中国北方汉族群体的多态性分布,评价其法医学应用价值。方法采用PCR扩增结合Sanger测序技术对213例中国北方汉族健康无关个体样品进行检测,应用Haploview4.2进行数据的统计分析。结果检测到rs418210、rs424740、 rs34705786、rs401750和rs647625等5个SNPs,其基因型频率分布均符合Hardy-Weinberg平衡,个人识别几率分别为0.632、0.613、0.631、0.634和0.623,非父排除率分别为0.187、0.179、0.178、0.187和0.187。结论 GABRG2基因5个SNPs在中国北方汉族人群中具有较好的遗传多态性,可用于法医学个人识别与亲权鉴定。     

DNA芯片分析单核苷酸多态性及其法医学应用

DNA芯片技术作为一门新兴的高科技生物技术,显示了它旺盛的生命力和迅猛的发展势头。单核苷酸多态性(SingleNucleotidePolymorphisms,SNPs)是最常见的人类基因组变异类型。它作为一种有效的人类遗传标记,在疾病相关性研究、药物基因组学、法医学、人类进化和迁移等研究中发挥了重要作用。它同DNA芯片技术结合运用也将在法医检验,尤其是亲子鉴定和个人识别中发挥重要作用。本文主要讨论了DNA芯片和SNPs的特点,以及二者联合运用于法医学的价值。     

用熔解曲线法分析插入/缺失多态性和Y染色体SNPs多态性

随着单核苷酸多态性SNPs (SingleNucleotidePolymorphisms)及插入 /缺失多态性Indels (Insertion/Dele tion)的分型技术研究的深入 ,SNPs和Indels在法医学上的应用将受到深刻的影响。本文研究和探讨Indels的分型方法 ,通过测定扩增DNA片段在溶液中的溶解曲线图确定每个样品的基因型 ,称为溶解曲线Indels基因分型方法(McI/D)。溶解曲线图由被测样品DNA片段的特殊溶解温度组成 ,扩增结果直接由仪器分析不需要繁杂的PCR后期操作。     

SNPs在个体识别与表型预测中的研究进展

单核苷酸多态性（single nucleotide polymorphism,SNP）作为第三代遗传标记,具有分布广泛、突变率低、遗传稳定及易于自动化高通量快速检测分析的特点。同时,因其扩增片段长度短、不存在复制滑动,所以利于腐败降解、痕量检材的检测。随着研究的深入,SNPs在法医学领域受到了广泛重视,与表型（ABO血型、色素沉积及颅面形态）相关的SNPs有望用于预测嫌疑人的基本特征,为案件侦破提供新的思路。本文对近年来SNPs在个体识别和表型预测的研究进行总结,介绍该领域的研究进展,为法医学工作者提供参考。     

藏族、白族18个面部相关SNPs位点多态性及群体差异性研究

目的获取18个面部相关SNPs位点在藏族人群和白族人群的遗传多态性,探索不同民族群体间遗传结构的差异性。方法采用SNa Pshot技术建立18-SNPs位点复合检测体系并检测192名藏族人群和159名白族人群18个SNPs位点的基因型。应用SPSS23.0软件进行统计学分析,R v3.3软件进行主成分分析。结果除了rs987525位点仅检测出一种等位基因G,其余位点的基因分型均具有很好的多态性,其中rs502393、rs7559271、rs920683、rs974448、rs6555969、rs13267109、rs2724626、rs1258763、rs1978860、rs2788888、rs934498 11个SNPs位点的等位基因频率在两个民族群体间差异有显著统计学意义(P0.01),rs502393、rs7559271、rs920683、rs974448、rs642961、rs13267109、rs2724626、rs1978860、rs2788888、rs934498 10个SNPs位点的基因型频率在两个民族群体间差异有显著统计学意义(P0.01),主成分分析(PCA)散点图中4个群体相互独立分布(云南傣族、北京汉族群体数据来自Ensembl千人数据库),群体间遗传结构差异明显。结论藏族、白族18个面部相关SNPs位点的基因分型具有很好的多态性,丰富了我国少数民族面部相关SNPs位点的数据库,其人群结构差异性在法医学应用具有重要的意义。     

单核苷酸多态性及其检测方法

单核苷酸多态性(single nucleotide polymorphisms,SNPs),作为第三代遗传标记,已经广泛应用于基因作图、遗传性和遗传相关性疾病的诊断、群体遗传学、药学研究和法医学等领域。SNP的检测方法多种多样,本文简要介绍SNP的特点和几种检测方法。     

个体识别SNPs位点组合筛选与法医学应用价值初探

目的筛选用于包括中国主要民族在内的多个群体个体识别的SNPs位点组合体系。方法以Kidd实验室筛选的86个SNPs位点、欧洲SNPforID组织构建的52-plex SNPs复合检测体系为基础,收集和整理这些位点在HapMap数据库中11个人群的分型数据,计算各位点杂合度和Fst值,筛选杂合度〉0.4,Fst值〈0.06,并在研究人群中处于Hardy-Weinberg和连锁平衡的位点组合。针对这些位点,采用MassARRAY分子阵列技术对自行收集的8个人群（尼日利亚人、坦桑尼亚查加人、印度人、丹麦人、俄罗斯汉特人、中国汉族、藏族、维吾尔族）308份样本进行分型,统计群体遗传学参数。结果按本文标准共筛选出66个SNPs位点,均符合Hardy-Weinberg平衡,之间互不连锁,平均杂合度和Fst值分别为0.475、0.014。在本文收集的8个人群中的随机匹配概率在1.45E-24~4.72E-27之间,累积非父排除率为0.999 995 608~0.999 997 876之间。结论本文筛选的SNPs组合系统具有较强的个体识别能力,可用于本文调查的HapMap数据库中11个人群和本文收集的8个人群的个体识别鉴定。     

人类DRB基因单核苷酸多态性研究

目的建立一种对单核苷酸多态性(SNPs)位点进行复合检测的方法,并对人类DRB基因的单核苷酸多态性进行研究。方法 应用荧光标记双脱氧核苷酸进行单碱基延伸反应,同步检测人类DRB基因10个单核苷酸多态性位点。结果 应用该方法检验了人类标准细胞株K562、9947A及其他法医学常见生物检材,包括血斑2份、精斑5份、烟蒂8份、毛发3份,各样品间未发现相同的单核苷酸多态性组合单倍型。DNA模板需要量仅为0.5~1.0ng。结论 该方法是对微量生物物证进行个体识别鉴定的理想方法。同时还可为法医学及其他研究领域进行单核苷酸多态性分析提供快速、高效的技术手段。     

SNPs and MALDI-TOF MS: tools for DNA typing in forensic paternity testing and anthropology

DNA markers used for individual identification in forensic sciences are based on repeat sequences in nuclear DNA and the mitochondrial DNA hypervariable regions 1 and 2. An alternative to these markers is the use of single nucleotide polymorphisms (SNPs). These have a particular advantage in the analysis of degraded or poor samples, which are often all that is available in forensics or anthropology. In order to study the potential of SNP analysis in these fields, 41 SNPs were selected on the basis of following criteria: conservation, lack of phenotypic expression, and frequency of occurrence in populations. Thirty-six autosomal SNPs were used for genotyping 21 inclusionary and 3 exclusionary paternity cases. The behavior of 5 X-chromosome SNPs was analyzed in a French representative population. Our approach to SNP typing is a multiplex PCR based amplification followed by simultaneous detection by primer extension (PEX) analyzed by Matrix Assisted Laser Desorption Ionization Time-of-Flight Mass Spectrometry (MALDI-TOF MS). The selected autosomal SNPs showed independent inheritance and gave clear results in paternity investigation. All X-SNPs were useful as both paternity and identification markers. PEX and MALDI-TOF MS, with their high sensitivity, precision and speed, gave a powerful method for forensic and anthropological exploitation of biallelic markers.     

Paternity investigation experience with a 40 autosomal SNP panel

With both the SNPforID and the Kidd panels of autosomal SNPs available, we selected the 40 most informative and population-independent SNPs from both these sets for evaluation in paternity testing and as a prelude for forensic human identification.We used the published primer sequences and constructed PCR multiplexes for genotyping using the SNaPshot assay. Fifty trios and 50 duos previously analysed using conventional autosomal STR markers were re-analysed using the 40 SNPs. We report our findings regarding the practical use of these markers including unexpected mutations which impacted significantly on the use of this panel.     

The use of the LightCycler for the detection of Y chromosome SNPs

A novel methodology based on PCR monitoring on-line with fluorescent formats using the LightCycler for Y chromosome SNP typing is proposed. The main advantages of the system are the time necessary for the analysis (which is around 20 min), the robustness and the accuracy of the method and especially its sensitivity, which permits the detection of the male component in male-female mixtures up to 1:300 for some of the SNPs.Singleplexes of four different SNPs (M9, sY81, SRY-1532 and SRY-2627) as well as two duplexes (M9 and sY81 on the one hand and SRY-1532 and SRY-2627 on the other) were efficiently implemented. A simultaneous amplification and analysis of the four SNPs is also possible. It seems difficult with the current methodology to implement more than a quadruplex.     

Tri-allelic SNP markers enable analysis of mixed and degraded DNA samples

For the analysis of degraded DNA in disaster victim identification (DVI) and criminal investigations, single nucleotide polymorphisms (SNPs) have been recognized as promising markers mainly because they can be analyzed in short sized amplicons. Most SNPs are bi-allelic and are thereby ineffective to detect mixtures, which may lead to incorrect genotyping. We developed an algorithm to find non-binary (i.e. tri-allelic or tetra-allelic) SNPs in the NCBI dbSNP database. We selected 31 potential tri-allelic SNPs with a minor allele frequency of at least 10%. The tri-allelic nature was confirmed for 15 SNPs residing on 14 different chromosomes. Multiplex SNaPshot™ assays were developed, and the allele frequencies of 16 SNPs were determined among 153 Dutch and 111 Netherlands Antilles reference samples. Using these multiplex SNP assays, the presence of a mixture of two DNA samples in a ratio up to 1:8 could be recognized reliably. Furthermore, we compared the genotyping efficiency of the tri-allelic SNP markers and short tandem repeat (STR) markers by analyzing artificially degraded DNA and DNA from 30 approximately 500-year-old bone and molar samples. In both types of degraded DNA samples, the larger sized STR amplicons failed to amplify whereas the tri-allelic SNP markers still provided valuable information. In conclusion, tri-allelic SNP markers are suited for the analysis of degraded DNA and enable the detection of a second DNA source in a sample.     

SNP Miniplexes for Individual Identification of Random‐Bred Domestic Cats

Phenotypic and genotypic characteristics of the cat can be obtained from single nucleotide polymorphisms (SNPs) analyses of fur. This study developed miniplexes using SNPs with high discriminating power for random‐bred domestic cats, focusing on individual and phenotypic identification. Seventy‐eight SNPs were investigated using a multiplex PCR followed by a fluorescently labeled single base extension (SBE) technique (SNaPshot^®). The SNP miniplexes were evaluated for reliability, reproducibility, sensitivity, species specificity, detection limitations, and assignment accuracy. Six SNPplexes were developed containing 39 intergenic SNPs and 26 phenotypic SNPs, including a sex identification marker, ZFXY. The combined random match probability (cRMP) was 6.58 × 10^?19 across all Western cat populations and the likelihood ratio was 1.52 × 10¹⁸. These SNPplexes can distinguish individual cats and their phenotypic traits, which could provide insight into crime reconstructions. A SNP database of 237 cats from 13 worldwide populations is now available for forensic applications.     

Genome‐wide Screen for Individual Identification SNPs (IISNPs) and the Confirmation of Six of Them in Han Chinese with Pyrosequencing Technology*

Abstract: Single nucleotide polymorphisms (SNPs) offer promise to forensic DNA analysts, but it remains uncertain whether a panel of individual identification SNPs can be as informative as the Combined DNA Index System short tandem repeats. Based on the highly accurate and publicly available HapMap SNP database (r21a) and a minor allele frequency cutoff of ≥0.45, we completed a genome‐wide screen through 3,905,819 SNPs with internally modified computer programs and identified 1439 SNPs with high heterozygosity and low F_st values among four populations (Utah Caucasian, Han Chinese, Tokyo Japanese, and Nigerian Yoruba). Using pyrosequencing technology, we studied six loci in a relatively large group of samples to determine whether these loci were as informative as the HapMap data suggest. These SNPs performed as expected in the Han Chinese in terms of heterozygosity and F_st. The 1439 identified SNPs should provide a comprehensive and reliable set of loci for identity and relationship testing.     

Selection of twenty-four highly informative SNP markers for human identification and paternity analysis in Koreans

A number of DNA marker types suitable for human identification and parentage testing have been developed, of which single nucleotide polymorphisms (SNPs) merit attention as they are abundant, genetically stable, and amenable to high-throughput automated analysis. In this regard, 24 highly informative SNP markers representing each 22 autosome and both sex chromosomes were selected, and the allele and genotype frequencies of these SNPs were determined in a group composed of 30 unrelated Koreans. Based on frequency data from this group, the estimated probability of identity (P(I)) and probability of paternity exclusion (P(E)) with 22 autosomal SNP loci were 1.905x10(-10) and 98.9%, respectively. The SNPs in this study offer a small but highly accurate database that will be an essential reference for SNP-based forensic application in the future.     

Development of a genetic traceability test in pig based on single nucleotide polymorphism detection

In order to assure traceability along the meat transformation process, a powerful system is required. The administrative traceability shows limits that the use of genetic markers could overcome. The individual genomes contain sequence differences, basis of the genetic polymorphism of which the genetic markers are the witnesses. Among them, two classes seem to dominate on the traceability field: the microsatellites and the single nucleotide polymorphisms (SNP). The aim of this work was to develop a genetic traceability test in pig based on SNPs mainly located in 5' and 3' untranslated regions (UTRs). A set of 21 SNP markers including new SNPs identified in this study and SNPs previously described was selected. A genotyping assay was performed on 96 individuals representing the major crossbred of the pig population in Belgium. Results showed that all individuals tested presented a different genotype. This genotyping method might help the administrative system to guarantee the traceability of pork meat along the transformation process.