常染色体21个SNPs多态性分型方法研究

目的建立常染色体21个SNPs的多态性分型方法。方法采用荧光标记公用引物和等位基因特异性引物原理设计SNP复合扩增引物体系,对45个备选SNP位点筛选,选出21个及性别Amelogenin构成复合扩增体系。PCR产物经3130XL型电泳仪电泳分离,GeneMaperTM3.0数据分析软件分析结果。同时随机选取6份样品,使用测序方法对SNP分型并进行测序验证。结果应用本研究建立的复合扩增体系扩增样品,产物经毛细管电泳后,每个SNPs均可正确判定基因型。随机选取6份样品SNPs位点测序结果显示,荧光标记SNPs复合扩增分型与直接测序结果完全一致。结论本研究建立的荧光标记公有引物特异性片段常染色体21个SNPs复合扩增方法是SNP多态性分析的一种有效方法,并有助于解决SNP分型识别能力、效率、通量和高成本的问题。     

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.     

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。     

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。     

Effectiveness of Single‐Nucleotide Polymorphisms to Investigate Cattle Rustling

Short tandem repeats (STR)s have been the eligible markers for forensic animal genetics, despite single‐nucleotide polymorphisms (SNP)s became acceptable. The technology, the type, and amount of markers could limit the investigation in degraded forensic samples. The performance of a 32‐SNP panel genotyped through OpenArrays^TM (real‐time PCR based) was evaluated to resolve cattle‐specific forensic cases. DNA from different biological sources was used, including samples from an alleged instance of cattle rustling. SNPs and STRs performance and repeatability were compared. SNP call rate was variable among sample type (average = 80.18%), while forensic samples showed the lowest value (70.94%). The repeatability obtained (98.7%) supports the used technology. SNPs had better call rates than STRs in 12 of 20 casework samples, while forensic index values were similar for both panels. In conclusion, the 32‐SNPs used are as informative as the standard bovine STR battery and hence are suitable to resolve cattle rustling investigations.     

SNPs in forensic genetics: a review on SNP typing methodologies

There is an increasing interest in single nucleotide polymorphism (SNP) typing in the forensic field, not only for the usefulness of SNPs for defining Y chromosome or mtDNA haplogroups or for analyzing the geographical origin of samples, but also for the potential applications of autosomal SNPs. The interest of forensic researchers in autosomal SNPs has been attracted due to the potential advantages in paternity testing because of the low mutation rates and specially in the analysis of degraded samples by use of short amplicons. New SNP genotyping methods, chemistries and platforms are continuously being developed and it is often difficult to be keeping up to date and to decide on the best technology options available. This review offers to the reader a state of the art of SNP genotyping technologies with the advantages and disadvantages of the different chemistries and platforms for different forensic requirements.     

Analysis of 50 SNPs in CYP2D6, CYP2C19, CYP2C9, CYP3A4 and CYP1A2 by MALDI-TOF mass spectrometry in Chinese Han population

One of the major challenges in the near future is the identification of genes that affect the metabolism of different drugs. Large scale association studies that utilise single nucleotide polymorphisms (SNPs) have been considered a valuable tool for this purpose. CYP2D6, CYP2C19, CYP2C9, CYP3A4 and CYP1A2 were found to be involved in the majority of hepatically cleared drugs. To determine the allele frequencies of some SNPs that may have great potential value in forensic science, we screened 50 SNPs in these 5 CYP genes in Chinese Han people using an accurate, high-throughput, cost-effective method. Primers were designed using the MassARRAY Assay Design software. Genomic DNA was prepared from blood samples obtained from individuals of Chinese Han origin. Multiplex PCR was performed to amplify the relevant gene fragments, and the polymorphisms were analysed by allele-specific primer extension followed by matrix-assisted laser desorption/ionisation time-of-flight mass spectrometry (MALDI-TOF MS). A panel of genomic DNA samples previously genotyped by other methods were analysed simultaneously for quality control, and the results demonstrated that this assay was 100% accurate. A total of 17 of the analysed SNPs were polymorphic. Of these 17 SNPs, 8 (rs16947, rs28371725, rs1800754, rs4244285, rs4986893, rs12248560, rs3758580, rs2242480) had an allele frequency that was significantly different between this Chinese Han population and Caucasians (p<0.01). In addition, the frequencies of two of these SNPs (rs1800754, rs3758581) in our Chinese Han population differed significantly from the existing Chinese frequency data (p<0.01). The described method thus provides reliable results and enables the genotyping of up to thousands of samples by taking advantage of the high-throughput MALDI-TOF technology. The results herein are now included as a supplement to the P450 database.     

法医SNP复合检测体系的构建及应用

目的构建48-SNP位点复合检测体系,用于个体识别、性别鉴定、ABO基因分型。方法采集225份无关个体样本(血斑及口腔拭子),18份案例样本(不同组织及体液斑),选择43个常染色体位点、4个ABO基因位点和1个性别鉴定位点,根据单碱基延伸技术通过GenomeLabTMSNPstream基因分型系统进行SNP分型;并检测体系灵敏度、同一个体不同组织同一性及模拟腐败检材。结果 48-SNP体系分型结果与测序结果的一致性为100%,最小DNA检出量为0.25ng,不同组织来源样本检测同一性很好;利用该体系检测225名无关汉族个体,所有位点均符合Hardy-Weinberg平衡,整个系统的随机匹配概率为9.4×10-18,累积非父排除率(CEP)为0.999 788,累积个体识别率大于0.999 999 999 999 999 99。结论本文48-SNP体系能同时进行个体识别、ABO基因分型和性别鉴定,可以作为现有STR检验体系的补充。     

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.     

Evaluation of 96 SNPs in 14 populations for worldwide individual identification

Great advances have been made recently in searching for individual identification single-nucleotide polymorphisms (IISNPs or IDSNPs). Such SNPs as suggested by SNPforID scientists and by Pakstis et al., are promising, although they were selected from older or smaller databases rather than the most recent database. Here, we describe a new computational strategy for developing IDSNPs based on HapMap. We searched through HapMap r27 for SNPs having minor allele frequencies ≥0.30 in all its 11 populations and found more than 1881 qualified SNPs. We examined 96 of them with 183 DNA samples from three Chinese populations using Illumina arrays. The average allele frequency for these 96 SNPs among the three populations was 0.495/0.505, the average number of identical SNP genotypes shared by two individuals among the 14 populations (three Chinese and 11 HapMap) was 37.9, and the random matching probability for two unrelated Hans to match in all 96 genotypes was 9.793 × 10(-39). Thus, most of these 96 SNPs are universally applicable.     

A novel method for ABO genotyping using a DNA chip

ABO genotyping is often performed to identify the blood type of decomposed samples, which is difficult to be determined by a serological test. In this study, we developed a simple method for ABO genotyping using a DNA chip. In this method, polymerase chain reaction-amplified and fluorescent-labeled fragments in the ABO gene and primate-specific D17Z1 were hybridized with DNA probes on a chip designed to detect single nucleotide polymorphisms (SNPs) in the ABO gene and part of the D17Z1 sequence. Using blood samples from 42 volunteers and 10 animal species, we investigated whether the chip could be used to detect SNPs in the ABO gene and the D17Z1 sequence. This method was then applied to various forensic samples, and it was confirmed that this method was suitable for the simultaneous analyses of ABO genotyping and species identification. This method fulfills the recent need for the development of rapid and convenient methods for criminal investigations.     

Application of mtDNA SNP analysis in forensic casework

In this study six forensic cases are presented where the routine analysis of samples for short tandem repeats (STRs) failed. The sequencing of the mitochondrial hypervariable region I (HVR I) also failed. Nevertheless, it was possible to analyse the samples with mitochondrial DNA (mtDNA) single nucleotide polymorphisms (SNPs) via SNaPshot technique. The age of the analysed samples ranged from 2 months to 1400 years. Saliva-, blood-, sperm-, hair-, tooth- and bone-samples were investigated. Furthermore the mtDNA SNP analysis of a forensic case sample showing a mixed stain profile is presented. It was possible to discriminate two different haplogroups in this mixed-person stain. If compared to another mtDNA SNP profile that was found in a hair, the discriminating SNPs of the hair were as well found in the mixed-person stain.To disburden the SNP analysis in forensic casework, haplogroup assignment criteria and quality criteria for mtDNA SNaPshot analysis are announced.     

A 21‐Locus Autosomal SNP Multiplex and its Application in Forensic Science

To develop a cost‐effective technique for single‐nucleotide polymorphism (SNP) genotyping and improve the efficiency to analyze degraded DNA, we have established a novel multiplex system including 21‐locus autosomal SNPs and amelogenin locus, which was based on allele‐specific amplification (ASA) and universal reporter primers (URP). The target amplicons for each of the 21 SNPs arranged from 63 base pair (bp) to 192 bp. The system was tested in 539 samples from three ethnic groups (Han, Mongolian, and Zhuang population) in China, and the total power of discrimination (TPD) and cumulative probability of exclusion (CPE) were more than 0.99999999 and 0.98, respectively. The system was further validated with forensic samples and full profiles could be achieved from degraded DNA and 63 case‐type samples. In summary, the multiplex system offers an effective technique for individual identification of forensic samples and is much more efficient in the analysis of degraded DNA compared with standard STR typing.     

Using FastID to analyze complex SNP mixtures from indoor dust

Forensically relevant single nucleotide polymorphisms (SNPs) can provide valuable supplemental information to short tandem repeats (STRs) for investigative leads, and genotyping can now be streamlined using massively parallel sequencing (MPS). Dust is an attractive evidence source, as it accumulates on undisturbed surfaces, often is overlooked by perpetrators, and contains sufficient human DNA for analysis. To assess whether SNPs genotyped from indoor dust using MPS could be used to detect known household occupants, 13 households were recruited and provided buccal samples from each occupant and dust from five predefined indoor locations. Thermo Fisher Scientific Precision ID Identity and Ancestry Panels were utilized for SNP genotyping, and sequencing was completed using Illumina^® chemistry. FastID, a software developed to permit mixture analysis and identity searching, was used to assess whether known occupants could be detected from associated household dust samples. A modified “subtraction” method was also used in FastID to estimate the percentage of alleles in each dust sample contributed by known and unknown occupants. On average, 72% of autosomal SNPs were recovered from dust samples. When using FastID, (a) 93% of known occupants were detected in at least one indoor dust sample and could not be excluded as contributors to the mixture, and (b) non-contributor alleles were detected in 54% of dust samples (29 ± 11 alleles per dust sample). Overall, this study highlights the potential of analyzing human DNA present in indoor dust to detect known household occupants, which could be valuable for investigative leads.     

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.     

Individual Identification of Racehorses from Urine Samples Using a 26‐Plex Single‐Nucleotide Polymorphism Assay

To construct a system for identifying individual horses from urine samples that are submitted for postracing doping tests, we developed a genotyping assay based on 26‐plex single‐nucleotide polymorphisms (SNPs). DNA was isolated from urine using a commercially available DNA/RNA extraction kit, and SNP genotyping was achieved with a SNaPshot^? technique. DNA profiles including 26 SNPs were acquired from urine samples and blood/hair samples. Within the studied Thoroughbred population, the 26‐plex assay showed a probability of identity of 5.80 × 10^?11. Compared to the conventional short tandem repeat assay, the SNP assay used less DNA, and the rate of successful genotyping was improved to 97% using aliquots of horse urine as small as 140 μL. The urinary DNA could be successfully genotyped under proper storage concerning refrigeration or freeze–thawing. This SNP assay can be used for individual identification when suspicious results are obtained from horse doping tests.     

Results of the 2009 Paternity Testing Workshop of the English Speaking Working Group of the International Society for Forensic Genetics

Here we present the results of the 2009 Paternity Testing Workshop of the English Speaking Working Group of the International Society for Forensic Genetics. The exercise included paternity testing of blood samples from a mother, a child and two alleged fathers. The laboratories were encouraged to answer questions concerning their laboratory routines and a paper challenge was distributed in order to compare statistical calculations. A total of 62 laboratories participated. The laboratories used a total of 49 autosomal STRs and PCR-investigated VNTRs, 19 Y-chromosomal STRs, 8 X-chromosomal STRs, 7 VNTR systems investigated with RFLP, 49 autosomal SNPs and 11 mtDNA SNPs. The rate of typing and reporting errors was 0.1%.     

Using STR,MiniSTR and SNP markers to solve complex cases of kinship analysis

In complex kinship investigation, miniSTRs and SNPs have been frequently used in order to increase the likelihood ratio (LR), when the results obtained for the most commonly used STR multiplexes were not informative enough. In this work, we describe the results obtained when using a battery of 23 STRs, 3 miniSTRs and 52 SNPs to investigate three complex paternity cases where the father was not available, and one paternity case with bone samples, from which no results could be obtained for STRs (including the 3 miniSTRs, D10S1248, D14S1434 and D22S1045). In all cases, the additional information provided by the SNPforID 52plex identification panel was enough to achieve conclusive results.     

基于二代测序平台的90个常染色体SNP分型研究

目的基于二代测序平台进行90个常染色体SNP位点分型,调查其在中国广东汉族人群中的多态性,评估其法医学应用价值。方法采集100例中国广东汉族无关个体外周血样,采用Auto Mate Express TM提取样本DNA,使用HID-Ion Ampli Seq?Identity Panel分型体系复合扩增90个SNP位点制备文库,Ion One Touch?2进行乳化PCR,Ion PGM?平台进行测序,Torrent_Suite_v4.4.2软件及HID_SNP_Genotyper_v4.3.1插件进行数据分析,计算常用法医学参数并与该群体Goldeneye TM 20A体系的检测效能进行比较。结果经Bonferroni法校正后,90个常染色体SNP位点分布均符合Hardy-Weinberg平衡,不存在连锁不平衡现象。各位点平均杂合度(Ho)为0.423,平均个体识别力(DP)为0.560,平均多态信息含量(PIC)为0.329。90个SNP体系的累积个体识别率(CDP)为(1-1.20×10~(-33)),大于20A体系;三联体累积非父排除率(CPE_(tri))为0.999 999 911,二联体累积非父排除率(CPE_(duo))为0.999 882,均小于20A。结论 90个常染色体SNP检测体系可独立应用于法医个体识别和三联体亲子鉴定,并辅助进行二联体亲子鉴定。     

Mass spectrometry-based SNP genotyping as a potential tool for ancestry inference and human identification in Chinese Han and Uygur populations

Ancestry informative SNPs (AISNPs) are genetic variants that exhibit substantially different frequencies between populations from different geographical regions; thus, they can provide some valuable information regarding samples and be used in predicting an individual's ancestry origin. In this study, we selected the potentially best SNPs from our previous study with genome-wide high-density SNP data in mainland Chinese Uygur and Han populations and investigated the allele distribution patterns and genetic information of AISNPs with a mass spectrometry-based SNP genotyping panel. Mass spectrometry-based detection technology offers the opportunity to analyze forensic DNA samples and obtain SNP variants with accuracy and ease. The panel can distinguish and cluster Han and Uygur populations and is suitable for human identification and parentage testing in the two populations. Heatmap, PCA, and Structure analyses indicated that the ideal 64 AISNPs can collectively provide additional information on differences among populations from East Asia, South Asia, Europe and Africa. Additionally, the results proved that the Uygur population is the admixture of East Asia and Europe.