湖南汉族人群21个STR基因座的遗传多态性(英文)

目的调查湖南地区汉族人群21个STR基因座(D3S1358、D13S317、D7S820、D16S539、Penta E、D2S441、TPOX、TH01、D2S1338、CSF1PO、Penta D、D10S1248、D19S433、v WA、D21S11、D18S51、D6S1043、D8S1179、D5S818、D12S391和FGA)的遗传多态性。方法共采集560例湖南汉族健康无关个体血液样本,使用Chelex-100法提取DNA,应用AGCU EX22试剂盒及9700 PCR扩增仪进行复合扩增,扩增产物使用310遗传分析仪进行分离分析。结果共发现248个等位基因,等位基因频率分布在0.001~0.518。除Penta E(P=0.023)外,其余基因座的基因型分布均符合Hardy-Weinberg平衡。21个基因座的累积个人识别率、累积非父排除率、累积匹配率分别为0.999 999 999 999 999 999 999 999 8、0.999 999 998和1.36×10-25。结论 21个STR基因座在湖南汉族人群中呈高度多态性。本研究可为法医学个人识别及亲子鉴定提供有价值的数据及理论基础。     

南京汉族人群24个Y-STR基因座的遗传多态性

目的调查DYS391等24个Y-STR基因座在南京汉族人群的遗传多态性,考察其在法医学中的应用价值。方法应用AGCU Y-PLUS(24)PCR试剂盒对南京580名汉族无关男性个体进行Y-STR基因座扩增检测分型,用软件计算24个基因座的基因频率等群体遗传学参数,并与湖北、辽宁、广东、北京、成都汉族人群数据进行比较。结果南京580名汉族无关男性个体在24个Y-STR基因座共发现580种单倍型,各基因座的基因多样性(GD)为0.294 6~0.939 8,单倍型多样性(HD)为0.983 7。六地人群GD值的差异有统计学意义。结论 DYS391等24个Y-STR基因座在南京地区有法医学价值,可用于案件检验及家系排查。     

体外细胞培养技术在法医毒理学中的应用

本文介绍了细胞培养技术的基本条件及应用范围,可望为法医毒物鉴定增加一种新的检测方法,为法医毒理研究提供一项新的研究手段.     

基于Ion Torrent PGM~(TM)测序系统的人mtDNA全测序分析

目的应用Ion Torrent PGM~(TM)测序系统对人线粒体DNA(mitochondria DNA,mtDNA)全序列进行分析检测,研究不同组织间mt DNA序列差异情况。方法通过法医尸体检验采集6名无关个体的组织样本,包括胸腔血液、头发、肋软骨、指甲、骨骼肌和口腔上皮。使用4对引物对线粒体全序列进行扩增,应用Ion Shear~(TM)Plus Reagents试剂盒和Ion Plus Fragment Library试剂盒等构建文库,并在Ion Torrent PGM~(TM)测序系统上进行线粒体基因组全序列测序,并针对异质性位点和在HVⅠ区域突变位点,进行Sanger测序验证。结果所有样本的全基因组mtDNA都扩增成功,6名无关个体分属于6种不同的单倍型,同一个体不同组织之间mtDNA存在异质性差异。异质性位点和HVⅠ区域突变位点采用Sanger测序结果均得到验证。通过Kappa统计方法进行一致性检验后发现,相同个体不同组织的mtDNA序列检验结果仍具有较好的一致性。结论本研究所采用的人线粒体基因组全序列的测序检验方法,可以检测出同一个体不同组织间mtDNA的异质性差异,该差异具有较高的一致性,该结果对mtDNA在法庭科学中的应用具有指导作用。     

中国北方汉族人群FUT6基因3个SNPs遗传多态性

目的对中国北方汉族人群FUT6基因编码区序列特征及等位基因多态性进行调查。方法测序分析30例中国北方汉族人FUT6基因整个编码区序列并鉴定其单倍型,采用复合PCR与复合限制性内切酶结合的RFLP法分析FUT6基因rs778805（C370T）、G855A及rs61147939（C907G）3个SNPs遗传多态性;应用Haploview4.1软件进行相关统计分析。结果 30例测序样本中共检出8个SNPs和6种单倍型,149例中国北方汉族个体C370T、G855A、C907G基因型分布均符合Hardy-Weinberg平衡。杂合度分别为0.544、0.416、0.510;多态信息含量为0.375、0.372、0.367;个人识别能力为0.600、0.651、0.603;非父排除率为0.187、0.186、0.183。PCR-RFLPs检出13种基因型,单倍型变异度为0.646。Haploview4.1软件分析表明3个SNPs处于连锁不平衡状态。结论中国北方汉族人群FUT6基因编码区序列呈现出高度多态性;C370T、G855A、C907G位点多态性分布良好,但处于连锁不平衡状态。     

胆囊收缩素基因-45C/T多态性与精神分裂症的关联

目的 探讨精神分裂症人群胆囊收缩素(cholecystokinin,CCK)基因-45C/T位点遗传多态性及其法医学意义.方法采用双向等位基因特异性PCR方法对中国北方汉族群体207例精神分裂症患者(患者组)和202例健康个体(对照组)CCK基因-45C/T位点多态性进行检测.采用X<'2>检验对照组人群中基因型分布是...     

云南省10个少数民族遗传分化和基因流动

目的 基于9个CODIS STR基因座(CSFIPO、FGA、THOI、TPOX、vWA、D3S1358、D5S818、D7S820和D13S317)分型数据,探寻云南地区10个主要少数民族的遗传分化及基因流动特征.方法 计算出各基因座的杂合度和分化指标F、θ、f和Gst.分别采用Phylip 3.6和Arlequin...     

Using Gas Chromatography with Ion Mobility Spectrometry to Resolve Explosive Compounds in the Presence of Interferents*

Abstract: Ion mobility spectrometry (IMS) is a valued field detection technology because of its speed and high sensitivity, but IMS cannot easily resolve analytes of interest within mixtures. Coupling gas chromatography (GC) to IMS adds a separation capability to resolve complex matrices. A GC‐IONSCAN^® operated in IMS and GC/IMS modes was evaluated with combinations of five explosives and four interferents. In 100 explosive/interferent combinations, IMS yielded 21 false positives while GC/IMS substantially reduced the occurrence of false positives to one. In addition, the results indicate that through redesign or modification of the preconcentrator there would be significant advantages to using GC/IMS, such as enhancement of the linear dynamic range (LDR) in some situations. By balancing sensitivity with LDR, GC/IMS could prove to be a very advantageous tool when addressing real world complex mixture situations.     

An Assessment of the Utility of Universal and Specific Genetic Markers for Opium Poppy Identification

Abstract: The proper identification of illicit plants such as Papaver somniferum L (opium poppy) is important for law enforcement agencies. The identification of opium poppy was presently tested using 10 genetic markers that are universal for all plants or specific to a few poppy plants. The genetic distances of universal markers such as nuclear internal transcribed spacer (ITS), 18S rRNA, plastid rbcL, and trnL‐trnF intergenic spacer (IGS) of 14 species included in the Papaveraceae and Fumariaceae family were acquired by sequence comparisons. Both the ITS region and trnL‐trnF IGS showed high levels of interspecific divergence. Six Papaver genera‐specific markers were developed from coding regions involved in morphine biosynthesis. Three markers (TYDC, NCS, and BBE) produced amplicons only in opium poppy, providing a presence/absence test for opium poppy, while three additional markers (CYP80B1, SAT, and COR) were genus specific. These 10 markers might be useful for the forensic DNA analysis of opium poppy.     

Genetic study of 15 STRs loci of Identifiler system in Angola population

Angola is located in the African continent, in the area of southern Africa and has a population of approximately 14 million inhabitants. The Angola population has origin from Occidental and Southern Bantu people that came from the great lakes region, creating the most ever known African migration of our days.Allele frequencies for the 15 STRs loci in the AmpFlSTR Identifiler kit (D8S1179, D21S11, D7S820, CSF1PO, D3S1358, HUMTH01, D13S317, D16S539, D2S1338, D19S433, HUMVWA, TPOX, D18S51, D5S818, HUMFIBRA/FGA and including the segment of the X-Y homologous gene amelogenin) were studied for Angola population.The genotype frequency of the 15 STR loci showed no significant deviations from Hardy–Weinberg equilibrium expectations and great values for the combined power of discrimination and combined power of a priori exclusion validate the application of these markers in forensic genetics. Comparative analyses between Angola population data and other relevant population database from Africa, Europe and American are presented.