多巴胺D_3受体基因遗传多态性及法医学意义

多巴胺D3受体(dopam ine D3 receptor,DRD3)基因位于人类第3号染色体上[1],主要在大脑的边缘系统表达,被认为是与精神症状有关的重要候选基因之一[2],其功能可能是影响第二信使系统,对腺苷酸环化酶有抑制作用。在DRD3基因座的第一外显子上存在一个Ser9G ly(第9密码子由丝氨酸变     

焦磷酸测序技术分析单核苷酸多态性在法医学中的应用

单核苷酸多态性（SNP）是新一代的法医学遗传标记,有望成为法医实践中解决高度降解检材及特殊案件DNA鉴定的重要工具。近年来涌现出许多高通量的SNP分析方法,如引物延伸结合时间飞行质谱分析法、微测序法、SNP lex以及焦磷酸测序法等。本文重点对焦磷酸测序技术的原理、步骤及其在法医学中的应用进展进行简要的综述。     

荧光定量PCR技术研究线粒体DNA nt16519单核苷酸多态性

目的应用荧光定量PCR技术,建立mtDNA nt16519位点的PCR分型方法。方法应用Primer Express3．0软件,设计1对Taqman MGB探针和1埘扩增引物,在探针的5’端分别标记FAM和VIC报告荧光,应用7500荧光定量PCR和直接测序两种方法,分别榆测62份血样和18份毛发样本的mtDNA nt16519单核苷酸多态性,比较二种方法结果的一致性。结果62份血样和18份毛发样本均得到了可靠的mtDNA nt16519分型结果。结论建立的荧光定量PCR的分型方法操作简单、结果准确,适用于法医DNA检案。     

辽宁地区汉族人群TAP1基因座遗传多态性

本文根据2005年IHWC公布的抗原处理相关转运蛋白(TAP1)基因的等位基因序列,从中选取3个SNP基因座(333、637和643),调查了中国辽宁地区汉族人群基因型和等位基因频率分布,现报道如下。1材料与方法1.1样本中国辽宁地区汉族人群198例无关个体抗凝血采自健康献血者,采用酚/氯仿法提     

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。     

用dHPLC技术检测线粒体DNA编码区单核苷酸多态性

目的研究线粒体DNA(m tDNA)编码区单核苷酸多态性,建立检测m tDNA编码区单核苷酸多态性(SNP)的变性高效液相色谱(dHPLC)方法。方法设计针对线粒体DNA编码区nt10287-10679及nt8507-8805引物,应用dHPLC技术检测其序列多态性。结果100例中国汉族无关个体中,m tDNA nt10287-10679检出13个SNP位点,13种单倍型,基因多样性(H)为70.79%,偶合概率(P)为29.92%;m tDNA nt8507-8805检出10个SNP位点,12种单倍型,H为70.42%,P为30.28%;两段序列联合起来共检出23个SNP位点,23种单倍型,H为84.14%,P为16.70%。结论所建立的dHPLC方法可用于快速、准确地检测m tDNA编码区序列多态性;m tDNA编码区多态性位点作为m tDNA控制区多态性位点的补充,联合应用可以提高m tDNA的个体识别能力。     

云南汉族CRHBP基因多态性与暴力攻击行为的相关性

目的探讨云南汉族人群促肾上腺皮质激素释放激素结合蛋白(corticotropin releasing hormone-binding protein, CRHBP)基因多态性与暴力攻击行为的相关性。方法对云南汉族111例有攻击行为的服刑人员(包含53例抢劫,58例故意伤害)和189例健康对照样本采用改良的多重高温连接酶检测反应技术(improve Multiplex ligase detection reaction, iMLDR)检测CRHBP基因的4个Tag SNPs(rs10062367, rs32897, rs7718461, rs7721799)的基因型,应用SPSS 20.0和SHEsis软件对结果进行统计分析。结果 rs32897、rs7718461、rs7721799的等位基因和基因型分布在暴力组、抢劫亚组、故意伤害亚组和对照组中均无显著差异(P>0.05),rs10062367等位基因和基因型分布在暴力组、抢劫亚组和对照组中也无显著差异(P>0.05),但在故意伤害亚组与对照组中具有显著差异(P<0.05)。单倍型ATGA可使暴力的相对风险显著增高(P<0.05),单倍型GCAA可使指向他人暴力的相对风险显著增高(P<0.05)。结论 CRHBP基因rs10062367位点多态性可能与云南汉族人群针对他人的攻击行为有关,单倍型ATGA是暴力行为的风险因子,个体携带单倍型GCAA会使指向他人的躯体攻击行为风险增加。     

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.     

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。     

错配引物诱导酶切技术检测GC多态性

目的探讨建立检测GC点突变rs7041的引物错配诱导酶切技术（mismatch primer-induced RFLP,MPIR）及应用价值。方法针对GC基因点突变（NCBI Reference SNP ID：rs7401）,设计错配引物进行PCR扩增,引物错配碱基结合GC点突变诱导XhoI酶切,产生GC-rs7041片断长度多态性,并调查183例温州汉族无关群体GC-rs7401多态性。结果引物错配诱导酶切技术对GC-rs7041亚型的3种基因型分型明确。温州地区汉族人群GC-rs7041 T/G基因频率分别为0.787和0.213,基因型频率分别为T/T0.685、T/G 0.284和G/G 0.071,Ho（0.284）、He（0.337）、PIC（0.279）、DP（0.502）、PE（0.140）,基因型分布符合Hardy-Weinberg平衡。结论成功建立引物错配诱导酶切技术检测GC-rs7041单核苷酸多态性,该位点多态性有实际应用价值。     

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。     

武汉汉族群体3个多拷贝Y-STR基因座的遗传多态性

目的提供DYS385、DYS459和DYS464基因座的群体遗传学资料。方法用荧光标记引物及ABI 3100型基因分析仪对武汉地区176名汉族男性无关个体的DYS385、DYS459和DYS464 3个多拷贝Y-STR基因座进行分型。结果在DYS385和DYS459基因座的个体,可观察到1~2个不同长度的扩增产物;DYS464基因座个体,可观察到1~4个不同长度的扩增产物。DYS385基因座检出14个等位基因及47种单倍型,DYS459检出4个等位基因及7种单倍型,DYS464检出9个等位基因及51种单倍型,其单倍型多样性分别为0.9591、0.6047和0.9560。3个基因座构成的联合单倍型共有133种,其多样性值达0.9909。结论3个多拷贝Y-STR基因座均为高多态性的遗传标记,联合应用具有较高的个体分辨能力。     

Frequency assessment of SNPs for forensic identification in different populations

Allele frequencies for 16 previously described autosomal SNPs were tested in 1020 unrelated individuals originating from three different continents (Africa, Asia and Europe). The populations analyzed included Africans from Benin Gulf (180), Asians from Mongolia (160) and Europeans from Italy (680).     

Resolving relationship tests that show ambiguous STR results using autosomal SNPs as supplementary markers

When using a standard battery of STRs for relationship testing a small proportion of analyses can give ambiguous results – where the claimed relationship cannot be confirmed by a high enough paternity index or excluded with fully incompatible genotypes. The majority of such cases arise from unknowingly testing a brother of the true father and observing only a small number of exclusions that can each be interpreted as one- or two-step mutations. Although adding extra STRs might resolve a proportion of cases, there are few properly validated extra STRs available, while the commonly added hypervariable SE33 locus is four times more mutable than average, increasing the risk of ambiguous results. We have found SNPs in large multiplexes are much more informative for both low initial probabilities or ambiguous exclusions and at the same time provide a more reliable genotyping approach for the highly degraded DNA encountered in many identification cases. Eight relationship cases are outlined where the addition of SNP data resolved analyses that had remained ambiguous even with extended STR typing. In addition we have made simulations to ascertain the frequency of failing to obtain exclusions or conclusive probabilities of paternity with different marker sets when a brother of the true father is tested. Results indicate that SNPs are statistically more efficient than STRs in resolving cases that distinguish first-degree relatives in deficient pedigrees.     

Single Nucleotide Polymorphism Assay for Genetic Identification of Lophophora williamsii*

Lophophora is a member of the Cactaceae family, which contains two species: Lophophora williamsii and L. diffusa. Lophophora williamsii is an illegal plant containing mescaline, a hallucinogenic alkaloid. In this study, a novel method based on a single nucleotide polymorphism (SNP) assay was developed for identifying L. williamsii; this assay reliably detects SNPs within chloroplast DNA (rbcL, matK, and trnL-trnF IGS) and was validated for identifying Lophophora and L. williamsii simultaneously. The chloroplast DNA sequences from four L. williamsii and three L. diffusa plants were obtained and compared using DNA sequence data from approximately 300 other Cactaceae species available in GenBank. From this sequence data, a total of seven SNPs were determined to be suitable for identifying L. williamsii. A multiplex assay was constructed using the ABI PRISM^® SNaPshot™ Multiplex Kit (Applied Biosystems, Forster City, CA) to analyze species-specific SNPs. Using this multiplex assay, we clearly distinguished the Lophophora among 19 species in the Cactaceae family. Additionally, L. williamsii was distinguished from L. diffusa. These results suggest that the newly developed assay may help resolve crimes related to illegal distribution and use. This multiplex assay will be useful for the genetic identification of L. williamsii and can complement conventional methods of detecting mescaline.     

Forensic typing of autosomal SNPs with a 29 SNP-multiplex—Results of a collaborative EDNAP exercise

We report the results of an inter-laboratory exercise on typing of autosomal single nucleotide polymorphisms (SNP) for forensic genetic investigations in crime cases. The European DNA Profiling Group (EDNAP), a working group under the International Society for Forensic Genetics (ISFG), organised the exercise. A total of 11 European and one US forensic genetic laboratories tested a subset of a 52 SNP-multiplex PCR kit developed by the SNPforID consortium. The 52 SNP-multiplex kit amplifies 52 DNA fragments with 52 autosomal SNP loci in one multiplex PCR. The 52 SNPs are detected in two separate single base extension (SBE) multiplex reactions with 29 and 23 SNPs, respectively, using SNaPshot kit, capillary electrophoresis and multicolour fluorescence detection. For practical reasons, only the 29 SBE multiplex reaction was carried out by the participating laboratories. A total of 11 bloodstains on FTA cards including a sample of poor quality and a negative control were sent to the laboratories together with the essential reagents for the initial multiplex PCR and the multiplex SBE reaction. The total SNP locus dropout rate was 2.8% and more than 50% of the dropouts were observed with the poor quality sample. The overall rate of discrepant SNP allele assignments was 2.0%. Two laboratories reported 60% of all the discrepancies. Two laboratories reported all 29 SNP alleles in all 10 positive samples correctly. The results of the collaborative exercise were surprisingly good and demonstrate that SNP typing with SBE, capillary electrophoresis and multicolour detection methods can be developed for forensic genetics.     

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。     

Correlation between Genetic Variants and Polymorphism of Caveolin and Sudden Unexplained DeathCSCD

Objective: To explore the genetic variation sites of caveolin (CAV) and their correlation with sudden unexplained death (SUD). Methods: The blood samples were collected from SUD group (71 cases), coronary artery disease (CAD) group (62 cases) and control group (60 cases), respectively. The genome DNA were extracted and sequencing was performed directly by amplifying gene coding region and exonintron splicing region of CAV1 and CAV3 using PCR. The type of heritable variation of CVA was confirmed and statistical analysis was performed. Results: A total of 4 variation sites that maybe significative were identified in SUD group, and two were newfound which were CAV1:c.45C>T (T15T) and G4V7:C.512G>A (R171H), and two were SNP loci which were CAVl:c.246C>T (rs35242077) and CAV3:C.990T (rsl008642) and had significant difference (P<0.05) in allele and genotype frequencies between SUD and control groups. Forementioned variation sites were not found in CAD group. Conclusion: The variants of CAV1 and CAV3 may be correlated with a part of SUD group. © 2017 by the Editorial Department of Journal of Forensic Medicine.     

改良IPEP法用于痕量DNA检测的实验研究

目的探讨改良扩增前引物延伸(IPEP)法对痕量DNA样本STR检测分型的效果。方法用改良IPEP法对痕量样品DNA进行全基因组扩增(WGA),扩增产物用实时荧光定量PCR技术定量、用AmpFLSTR~ Indentifiler~试剂盒作基因型检测。结果该方法可增加模板DNA约200~1100倍。基因组DNA不低于0.025ng时,可获得15个STR基因座和Amelogenin性别基因座的分型结果。基因组DNA0.01~0.025ng时,可获得9个以上基因座的分型结果。结论改良IPEP法可有效提高痕量DNA样本STR分型检验的灵敏度,有较好的实用价值。