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。     

Probabilistic SNP genotyping at low DNA concentrations

We present a statistical method for biallelic SNP genotyping that reduces the risk of wrong SNP calls and gives fewer no-calls. The method uses a symmetric multinomial logistic regression model with an intuitive graphical interpretation. Its probabilistic nature gives the user control over the accepted risk through the estimated genotype probabilities. We compared the performance of our method with the HID SNP Genotyper v.4.3.1 plug-in (HSG) (Thermo Fisher Scientific) and the additional criteria of the University of Copenhagen (UCPH) through a series of six DNA dilutions from 500 pg to 16 pg DNA. The HSG method made wrong calls from 62.5 pg DNA and below, while the UCPH method made wrong calls at 16 pg DNA. Our method allowed SNP genotyping of 16 pg DNA without making wrong calls. Depending on the DNA dilution, our method also reduced the number of no-calls by 70–96 % compared to UCPH method and 59–69 % compared to the HSG method. Our method can be used for any biallelic genotyping.     

SNP genotyping of forensic casework samples using the 52 SNPforID markers

The analysis of degraded DNA is one of the biggest challenges in forensic casework. SNPs, which can be amplified using small amplicons, have previously been successfully applied to the profiling of forensic evidence that could not be analyzed using conventional STRs. Here we selected the 52 SNPforID SNP markers, with amplicons that ranged in size from 59 bp to 115 bp, and used them to profile a range of casework samples from Malaysia. DNA degradation is a common problem in Malaysia due to the high temperatures and humidity. To carry out the study we modified the 52 SNPforID markers into four 13-plex SNaPshot assays to enable easier interpretation of profiles on the ABI PRISM^® 310 and 3500.Fifty-one crime samples comprising bloodstains on cloth, swabs, and a mat and 2 swabs of trace DNA from 10 crime scenes in Malaysia were profiled after DNA extraction using a phenol–chloroform method. The samples were also subjected to STR analysis using the Powerplex^® 16 system (Promega), which resulted in only 17 full profiles and 9 partial profiles; using SNPs, 36 full profiles and 5 partial profiles could be generated.     

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.     

STR melting curve analysis as a genetic screening tool for crime scene samples

In this proof-of-concept study, high-resolution melt curve (HRMC) analysis was investigated as a postquantification screening tool to discriminate human CSF1PO and THO1 genotypes amplified with mini-STR primers in the presence of SYBR Green or LCGreen Plus dyes. A total of 12 CSF1PO and 11 HUMTHO1 genotypes were analyzed on the LightScanner HR96 and LS-32 systems and were correctly differentiated based upon their respective melt profiles. Short STR amplicon melt curves were affected by repeat number, and single-source and mixed DNA samples were additionally differentiated by the formation of heteroduplexes. Melting curves were shown to be unique and reproducible from DNA quantities ranging from 20 to 0.4 ng and distinguished identical from nonidentical genotypes from DNA derived from different biological fluids and compromised samples. Thus, a method is described which can assess both the quantity and the possible probative value of samples without full genotyping.     

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.     

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。     

31个SNP位点多重PCR扩增和芯片分型技术的建立及其法医学应用

目的对SNP基因分型芯片在个体识别中的应用价值进行研究。方法根据SNP不同等位基因的序列设计探针,制成分型芯片。采用4个复合PCR体系,用末端标记了Cy5的引物进行复合PCR扩增,产物与寡核苷酸探针进行杂交,根据杂交产生的荧光信号值确定样品在各SNP位点的基因型。将这一方法应用于109份样本的分型,根据基因型分布统计分析31个SNP位点的法医学应用价值。同时,进行家系调查和方法灵敏度分析。结果方法的灵敏度为1ng;所检测的31个SNP位点的累积个体识别率为0.9999999999979(偶合率为2.13×10-12),二联体亲子鉴定中累积非父排除率为0.9609,三联体亲子鉴定中累积非父排除率为0.9970。家系调查的结果表明,这些位点等位基因由亲代向子代的传递符合孟德尔遗传定律。结论上述31个SNP位点为中高信息量位点,适用于法医学个体识别,可作为当前STR系统的补充。     

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.     

Analysis of mitochondrial SNPs in addition to conventional STR-typing in a case of aggravated theft

In the field of forensic DNA typing, the analysis of Short Tandem Repeats (STRs) can fail in cases of degraded DNA. The typing of coding region Single Nucleotide Polymorphisms (SNPs) of the mitochondrial genome provides an approach to acquire additional information. In the examined case of aggravated theft, both suspects could be excluded of having left the analyzed hair on the crime scene by SNP typing. This conclusion was not possible subsequent to STR typing. SNP typing of the trace on the torch light left on the crime scene increased the likelihood for suspect no. 2 to be the origin of this trace. This finding was already indicated by STR analysis. Suspect no. 1 was excluded for being the origin of this trace by SNP typing which was also indicated by STR analysis. A limiting factor for the analysis of SNPs is the maternal inheritance of mitochondrial DNA. Individualisation is not possible. In conclusion, it can be said that in the case of traces which cause problems with conventional STR typing the supplementary analysis of coding region SNPs from the mitochondrial genome is very reasonable and greatly contributes to the refinement of analysis methods in the field of forensic genetics.     

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.     

Forensic Identification Using a Multiplex Assay of 47 SNPs*

Abstract: As a powerful alternative to short tandem repeat (STR) profiling, we have developed a novel panel of 47 single nucleotide polymorphisms (SNPs) for DNA profiling and ABO genotyping. We selected 42 of the 47 SNPs from a panel of 86 markers that were previously validated as universal individual identification markers and identified five additional SNPs including one gender marker and four ABO loci. Match probability of the 42 validated SNPs was found to be 9.5 × 10^?18 in Han Chinese. SNP analysis correctly assessed a panel of historical cases, including both paternity identifications in trios and individual identifications. In addition, while STR profiling of degraded DNA provided information for 11 loci of 16 potential markers with low peak intensities, SNPstream^® genotyping was sufficient to identify all 47 SNPs. In summary, SNP analysis is equally effective as STR profiling, but appears more suited for individual identification than STR profiling in cases where DNA may be degraded.     

单核苷酸多态性与法医学DNA分型技术

单核苷酸多态性(single nucleotide polymorphism,SNP)分型技术越来越成为法医学领域关注的热点,它在研究Y染色体或线粒体单倍型以及DNA表型的分析中具有重要应用价值。本文着重比较分析了SNP技术与片段长度多态性技术之间的优劣,同时就当前STR位点识别概率与所需选择的SNP位点数进行探讨。此外,本文还就各类SNP分型方法的优缺点及其法医学应用进行了论述。     

SNP genotyping by multiplex amplification and microarrays assay for forensic application

OBJECTIVE: Research on the application feasibility of SNP genotyping for forensic identification by microarrays. METHODS: Oligonucleotide microarrays which could detect 34 different SNPs were used. After hybridization and washing, the arrays were scanned and fluorescence intensities analyzed using Microarray software. Population studies on 34 SNP loci were carried out in a sample of 109 unrelated Chinese Han individuals using oligonucleotide microarrays for genotype detection. The method was also applied to cases. RESULTS: According to the results of population studies, no deviations from Hardy-Weinberg equilibrium could be found. Among the 34 loci, 3 SNPs were low informative, 4 were medium informative and 27 were high informative. The combination discrimination power (CDP) of the 31 optimal polymorphic SNPs was 0.9999999999979. The matching probability was 2.13 x 10(-12). The average exclusion probability in paternity testing for duos was 0.9609. The average exclusion probability in paternity testing for trios was 0.9970. CONCLUSION: The data and case application demonstrated that SNP typing by oligonucleotide probe microarrays was a useful technique for paternity testing and individual identification. Combined with the 28 SNPs loci distributed on HLA-DRB1 and ABO genes, the combination discrimination power (CDP) was 0.9999999999999910. The matching probability was 9.02 x 10(-15). The average exclusion probabilities in duos and in trios were 0.9894 and 0.9992, respectively. It may be concluded that the 59 SNPs loci yield the same power in forensic identification as CODIS STRs currently used.     

印记基因5个SNP分型及亲代来源的检测

目的 采用复合PCR-Snapshot联合甲基化敏感酶切技术,检测印记基因中5个SNP的甲基化状态、印记亲代来源及分型.方法 选择15例亲子鉴定已证实为亲生关系的家系样本,采用单碱基延伸复合检测技术,检测家系样本IGF2AS rs1003483、SNURF rs220028、SNURF rs4906939、DLGAP2 rs6558478、SIM2 rs737380等5个SNP分型,同时选用核酸内切酶(McrBC)和甲基化敏感的限制酶(msRE) HhaⅠ、HpaⅡ消化子代DNA,验证印记基因的亲代来源.结果 经用本文方法检测,证实rs1003483为父源印记;rs220028、rs4906939为母源印记;rs6558478及rs737380未在差异甲基化区,不能确定其印记亲代来源.结论 复合PCR-Snapshot联合甲基化敏感酶切技术简单、高效,在检测多个SNP分型的同时可确定亲代来源,可在相关研究和实践中选用.     

Rapid direct PCR for ABO blood typing

Many different molecular typing methods have been reported to complement routine serological ABO blood typing in forensics. However, these ABO genotyping methods are often time-consuming and call for an initial DNA isolation step that requires the use of expensive kits or reagents. We report here a rapid direct ABO genotyping method that eliminates the need for DNA extraction from fresh blood, hair, and body fluid stains before PCR. Using a fast PCR instrument and an optimized polymerase, the genotyping method-which employs a multiplex allele-specific primer set for the simultaneous detection of three single-nucleotide polymorphism (SNP) sites (nucleotides 261, 526, and 803)-identifies A, B, O01/O02, O03, and cis-AB01 alleles in around 70 min from sample collection to electropherogram. Not only will this ABO genotyping method be efficiently used in forensic practice for rapid screening of samples before full-blown multilocus short tandem repeat profiling, but it will also demonstrate an example of rapid direct genotyping of SNPs that offers the advantages of time- and cost-efficiency, convenience, and reduced contamination during DNA analysis.     

采用SNP分型方法对甲醛固定组织进行个体识别

目的通过对X染色体SNP遗传标记的检测,探讨甲醛固定组织块的DNA分型策略。方法提取甲醛固定组织块的DNA,在用SinofilerTM试剂盒、MiniFilerTM试剂盒检测未能获得分型结果的情形下,采用多重PCR和飞行质谱技术对X染色体上的51个SNP位点进行分型检测。结果对于常染色体STR、miniSTR分型失败的甲醛固定组织块,X-SNP分型获得成功。结论对于甲醛固定组织块等微量、降解的生物学检材,若常染色体STR基因座分型失败,可尝试进行SNP位点的分型,以获得更多的遗传信息。     

MiniFiler试剂盒进行微量细胞STR分型可行性探讨

目的探讨采用MiniFiler试剂盒进行微量细胞STR分型的可行性。方法利用显微操作法捕获微量口腔上皮细胞,采用MiniFiler试剂盒进行STR复合扩增,ABI 3130遗传分析仪检测STR分型。结果10个口腔上皮细胞能够获得稳定的STR分型;1、3、5个口腔上皮细胞能够获得完整的STR分型,但存在随机性。结论微量细胞进行STR分型具有不稳定性,目前还难以在实际检案中应用,但可以通过增加模板量来提高分型的成功率。     

应用DNA工作站进行批量血斑STR分型的研究

目的建立对大批量血斑样品PCR-STR基因分型检测的自动化新方法。方法应用自动化DNA工作站改良优化Chelex-100法和DNAIQ磁珠法的实验条件,建立两种批量血斑的自动化DNA提取方法;筛选确定PCR-STR反应体系的构建和PCR-STR产物测序电泳分析前处理程序。结果1104份血斑样品经Chelex-100法批量提取、Profiler Plus试剂盒扩增均一次检出9个STR基因座,定量PCR测定模板浓度均值为0.43ng/ml,荧光检测信号在200~800RFU之间;对其中114份血斑样品用DNAIQ磁珠法批量提取、同试剂盒扩增均一次检出9个STR基因座,定量PCR测定模板浓度均值为0.7ng/ml,荧光检测信号在1000~2000RFU之间;对其中50份血斑进行自动和手动Chel-ex-100检验法比较,成功率分别为100%和98%,且前者等位基因峰高信号更均衡。结论本文建立的自动化DNA工作站批量检测方法,在成功率、稳定性、均一性等方面具有优势。     

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。