15个基因座复合扩增体系的建立及新疆维吾尔族遗传多态性

目的建立15个基因座五色荧光复合扩增体系,并调查新疆维吾尔族的遗传多态性。方法筛选STR基因座,等位基因测序后按照重复序列重复次数命名,对建立的15个基因座五色荧光复合扩增体系进行灵敏度、种属特异性、同一性及稳定性检测,对新疆维吾尔族群体进行遗传多态性分析,与西藏藏族、岫岩满族、广州汉族进行群体间比较。结果建立了15个基因座复合扩增体系,检测灵敏度为0.3 ng,具有良好的种属特异性、同一性和稳定性。新疆维吾尔族13个常染色体STR基因座的基因频率分布符合Hardy-Weinberg平衡,无连锁不平衡现象,大部分基因座在群体间差异具有统计学意义。结论建立的体系具有法医物证学应用价值,13个常染色体STR基因座在新疆维吾尔族群体多态性高,适合于亲子鉴定及个人识别,可作为现有基因座的补充。     

PowerPlex^TM16体系OL等位基因序列分析及命名探讨

目的观察中国汉族人群PowerPlexTM16体系STR基因座分型标准物外等位基因(OL等位基因)的序列组成,探讨其类型及命名。方法应用PowerPlexTM16体系和ABI377或3100遗传分析仪,对10071名中国汉族无关个体的血样DNA进行15个STR基因座的分型,筛选出OL等位基因样本;对该样本进行单基因座扩增、聚丙稀酰胺凝胶电泳、银染显色,获取等位基因条带并再次扩增和测序。结果在11个基因座检见OL等位基因,共32个,频率0.05‰￣4.02‰,各基因座OL等位基因数目1￣9个不等。按其组成分为四类:(1)重复单位完整重复,但重复次数在ladder范围外;(2)不完整重复;(3)侧翼序列个别碱基的插入或缺失;(4)较大片断的缺失。结论OL等位基因类型不一,既有重复次数的变化,也有侧翼序列或核心序列的变化,现有命名原则尚不能反映其组成类型。     

Early Access STR Kit v1对24个常染色体STR基因座和Ame-logenin基因座的法医学检测

正含有3~5个碱基重复单元的STR基因座是法医学常用遗传标记,主要表现为长度多态性,可用于个体识别及亲权鉴定[1-2]。其中,根据STR基因座核心序列结构的重复情况,可以分为简单重复结构、复合重复结构及复杂重复结构[3]。常用的毛细管电泳检测平台主要根据等位基因片段长度的大小及荧光素标记技术对STR基因座各等位基因进行读取和分析,检测方便且成本低,但无法获取内部序列结构信息[3-4]。     

法医DNA标准物质备选细胞STR等位基因片段长度的定值

目的 研究建立法医DNA标准物质备选细胞基因组STR基因座等位基因片段长度标准定值的方法.方法 利用有机法提取HPF和HSSM细胞基因组DNA并进行STR复合扩增,将产物进行电泳检测.利用Gene Mapper软件分析电泳结果,记录STR基因座等位基因的数值,并对目前我国公安系统应用较为广泛的DNATyperTM15、IdentifilerTM两种试剂盒扩增产物进行相应的DNA片段长度(bp)统计以及定值.结果 HPF为男性个体细胞,HSSM为女性个体细胞.HPF和HSSM细胞DNATyperTM15系统等位基因片段长度范围分别为126.26±0.05～367.53±0.20bp和125.33±0.07～370.08±0.17bp,IdentifilerTM系统等位基因片段长度范围分别为117.22±0.04～340.02±0.08bp和117.21±0.03～323.86±0.09bp.结论 对STR基因座等位基因片段长度进行标准定值,可为法医DNA标准物质提供有效的溯源途径.     

荧光复合扩增DXS6804、DXS6799和DXS7132基因座

应用分子克隆技术制备出DXS6804、DXS6799和DXS7132基因座的等位基因分型标准物,通过研究复合扩增技术,构建3个基因座X—STR复合扩增的荧光检测体系。     

3个Y-STR的复合扩增及其单倍型

目的 建立复合扩增Y-STR基因座的体系,获得广东汉族人的单倍型频率。方法 复合扩增DYS439、DYS437和DYS434三个基因座,用聚丙烯酰胺凝胶电泳银染法进行基因分型,检测广东汉族327名无关男性个体的单倍型。结果 3个基因座分别检出6个、4个和4个等位基因,共38种单倍型,其单倍型的个体识别率为0.8796。结论 Y-STR基因座复合扩增体系和建立的Y染色体STR数据库,在法医学鉴定中有应用意义。     

10个STR基因座荧光复合扩增体系的研制

目的建立10个STR基因座荧光标记复合扩增体系,并评价其法医学应用价值。方法在北京、山西、广东汉族,辽宁满族、西藏藏族群体中调查STR基因座遗传多态性,筛选出9个具有高度多态性和法医应用价值的STR基因座及性别基因座。构建四色荧光素标记复合扩增体系,制备等位基因分型标准物,编制分析软件,并对体系的种属特异性、灵敏度、稳定性、混合样本等检测能力进行考察。结果建立的复合扩增体系遗传稳定好,累积非父排除率可达0.999 96,累积个体识别率可达0.999 999 999 999 3;与CODIS系统均不存在连锁遗传;各基因座间布局合理、无杂峰、扩增结果清晰易辨,并可实现检测分析自动化。体系种属特异性较好,灵敏度为0.1ng,稳定性好,混合样本检出范围在2∶8～8∶2之间。实际案例检材检测结果好。结论本文建立的复合扩增体系在法医学实践中有较好的应用价值。     

荧光复合扩增4个Y染色体STR的单倍型及其法医学应用

目的建立一套Y染色体STR的双色荧光复合扩增系统,调查4个Y-STR基因座单倍型分布情况及其在混合斑物证检验中的法医学应用前景。方法荧光标记引物复合扩增Y-GATA-A10、DYS531、DYS557和DYS448四个Y染色体特异性STR基因座,并用ABⅠ310遗传分析仪对扩增产物进行检测、分型。结果在成都汉族120名无关男性个体中,四个基因座分别检出5、5、8、7个等位基因,共检出78种单倍型,单倍型基因多样性为0.9881。对3例本教研室不能用常规常染色体STR对男性成份作出同一认定的混合斑检材,该系统成功的作出了与嫌疑人血液Y-STR基因型一致的鉴定结论。结论建立的Y-STR荧光标记复合扩增系统具有很高的识别能力,对建立Y染色体STR数据库,研究群体遗传学和进行法医学混合斑物证鉴定有重要意义。     

多重PCR检测FFv三个基因座在景颇族人群中的遗传多态性

短串联重复序列（STR）是由几个碱基对作为核心单位串联重复形成的一类DNA序列,作者将3个STR基因座在同一反应体系中进行互不干扰的复合扩增,采用高分辨率的聚丙烯酰胺凝胶电泳分离、银染法显影技术,对云南省景颇族的F13A01,FESFPS和vWA等3个基因座等位基因的基因频率进行了调查,获得了满意的结果,显示了广阔的应用前景。F13A01基因座观察到8个等位基因、13个基因型;FESFPS基因应观察到7个等位基因、18个基因型;vWA基因应观察到7个等位基因、21个基因型。     

15重快速STR复合扩增体系的构建

目的建立一套15重快速STR复合扩增体系。方法选择14个常染色体基因座以及1个性别基因座,采用Fast Start Taq DNA聚合酶系统,以DNA标准品9947A为模板,通过筛选扩增条件、选择热启动酶用量、调整引物平衡、优化快速扩增程序、筛选反应缓冲液、选择反应体系以及筛选添加剂等一系列复合扩增实验,比较各条件下等位基因丢失和非特异性扩增情况。结果在以1 ng DNA为模板、0.4μL聚合酶及10×Fast Start高保真反应缓冲液构成10μL快速体系的条件下,32 min即可获得标准DNA全部15个STR基因座的完整分型,无等位基因丢失和非特异性扩增现象,等位基因均衡性良好。同时,5%甘油、0.01%明胶、0.05%明胶和5 mmol/L硫酸铵可作为PCR扩增过程中拟加入的反应添加剂。结论本研究建立的15重快速STR复合扩增体系可以明显缩短反应时间,提高样品检测效率。     

Developmental validation of a Cannabis sativa STR multiplex system for forensic analysis

A developmental validation study based on recommendations of the Scientific Working Group on DNA Analysis Methods (SWGDAM) was conducted on a multiplex system of 10 Cannabis sativa short tandem repeat loci. Amplification of the loci in four multiplex reactions was tested across DNA from dried root, stem, and leaf sources, and DNA from fresh, frozen, and dried leaf tissue with a template DNA range of 10.0-0.01 ng. The loci were amplified and scored consistently for all DNA sources when DNA template was in the range of 10.0-1.0 ng. Some allelic dropout and PCR failure occurred in reactions with lower template DNA amounts. Overall, amplification was best using 10.0 ng of template DNA from dried leaf tissue indicating that this is the optimal source material. Cross species amplification was observed in Humulus lupulus for three loci but there was no allelic overlap. This is the first study following SWGDAM validation guidelines to validate short tandem repeat markers for forensic use in plants.     

TWGDAM validation of a nine-locus and a four-locus fluorescent STR multiplex system

The Gene Print PowerPlex 1.1/Amelogenin and FFFL Fluorescent STR Systems have been validated following the recommendations presented by the Technical Working Group on DNA Analysis Methods (TWGDAM). The PowerPlex 1.1/Amelogenin System supports simultaneous amplification of eight short tandem repeat loci and the Amelogenin gender identification marker. The loci D16S539, D7S820, D13S317, and D5S818 are labeled with fluorescein (FL) while the loci CSF1PO, TP0X, TH01, vWA and Amelogenin are labeled with carboxy-tetramethylrhodamine (TMR). The FFFL Multiplex System is composed of the loci F13A01, FESFPS, F13B, and LPL, each labeled with fluorescein. We have observed no overlap of alleles across loci labeled with an individual fluorescent dye. Samples of each system were amplified and labeled in a single reaction, separated by electrophoresis through a denaturing polyacrylamide gel, and amplified alleles detected using a Hitachi FMBIO Fluorescent Scanner. Alterations from the standard amplification protocols in cycle number and annealing temperature generally produced excellent results. In experiments testing sensitivity as little as 0.2 ng of DNA template could be detected. As expected, different body fluids from the same individuals generated identical DNA profile results. Template DNA derived from blood-strains deposited on a variety of matrix supports displayed robust amplification except for material derived from deposits on wood and Japanese orchid leaves. Mixtures of DNA templates could be interpreted with the minor component present in as little as ten percent of the total sample. Monoplex and multiplex amplifications produced identical amplified allele patterns, indicating that STR multiplex systems save template and increase efficiency in the amplification procedure without loss of quality. Analyses of genotype frequencies in African-American, Caucasian-American and Hispanic-American populations using all twelve loci were used to determine matching probabilities smaller than 1 in 1.14 x 10(8) and 1 in 2658 for the PowerPlex 1.1 and the FFFL Multiplex Systems, respectively. The matching probability achieved with the two systems combined is smaller than 1 in 3.03 x 10(11). The independence of alleles within loci was generally demonstrated by applying the exact test to demonstrate Hardy-Weinberg Equilibrium. All of the studies performed indicate that the PowerPlex 1.1/Amelogenin and FFFL Multiplex Systems are powerful, robust, and reliable investigative tools that can be used in the analysis of forensic samples.     

6个Y-STR荧光复合扩增系统的建立及应用

目的建立6个Y-STR荧光复合扩增体系,评价其法医学应用价值。方法设计DYS444,GATA-A7.2,GATA-A10,DYS390,GATA-A7.1,DYS443荧光复合扩增引物,扩增总体积20μL,内含模板DNA0.5～10ng,PCR产物用3130遗传分析仪电泳,GenemapperID v 3.2分析结果,根据等位基因标准命名各等位基因,并评价该系统的特异性、准确性、均衡性、灵敏度及对混合血样的分析能力。结果当dNTP、Mg2+分别为200μmol/L、1.5mmol/L时扩增效果最佳,0.5～10ngDNA模板量均能获得较好的扩增效果,各基因座分型结果清晰,扩增均衡,特异性强,重现性好,基本满足实际应用的性能要求。对湖北汉族群体进行遗传学调查,结果GD值0.580 3～0.722 3,共检出158种单倍型,其多样性为0.995 8。结论本文6个Y-STR扩增系统分型可靠,配合常用Y-STR分型试剂盒,可进一步提高个体识别能力。     

A proposal for standardization in forensic canine DNA typing: allele nomenclature of six canine-specific STR loci

In this study a proposal for the allele nomenclature of six polymorphic short tandem repeat (STR) loci (PEZ3, PEZ6, PEZ8, PEZ10, FHC2161, and FHC2328) for canine genotyping (Canis lupus familiaris) is presented. The nomenclature is based on the sequence data of the polymorphic region of the microsatellite markers as recommended by the DNA commission of the International Society of Forensic Haemogenetics (ISFH) in 1994 for human DNA typing. To cover commonly and rarely occurring alleles, a selection of homozygous and heterozygous animals were analyzed and subjected to sequence studies. The alleles consisted of simple tri- and tetra-nucleotide repeat patterns as well as compound and highly complex repeat patterns. Several alleles revealing the same fragment size but different repeat structures were found. The allele designation described here was adopted to the number of repeats, including all variable regions within the amplified fragment. In a second step the most commonly occurring alleles were added to an allelic ladder for each marker allowing a reliable typing of all alleles differing in size. A total number of 142 unrelated dogs from surrounding municipal animal homes, private households, and canines in police duty were analyzed. The data were added to a population database providing allele frequencies for each marker.     

Polymorphism of four X-chromosomal STR loci in Belarusians and Slovaks

We have investigated four X-chromosomal STR loci (a tetranucleotide repeat marker HPRTB, DXS7423 and trinucleotide repeat systems DXS101, DXS8377) in population samples of unrelated Belarusian and Slovak males (N = 180 and 116, respectively).Markers were amplified in a multiplex PCR reaction with primers labeled with fluorescent dyes 5-FAM and 5-JOE (dye set F). The separation and detection of PCR products were performed by capillary electrophoresis on a 3130 Genetic Analyzer (Applied Biosystems), using positive controls (K562 and NA9947A) and the GeneScan-500 ROX internal lane standard. Allele designation was based on comparison with the constructed allelic ladder. We performed statistical analysis estimating power of discrimination for males (PD_male). Our data was compared with European populations from Poland and Germany. The obtained data are useful in forensic practice and they contribute to creation of national X-STR databases in Belarus and Slovakia.     

Autosomal short tandem repeat analysis of ancient DNA by coupled use of mini- and conventional STR kits

Abstract: Multiplex autosomal short tandem repeat (STR) genotyping enables researchers to obtain genetic information from ancient human samples. In this study, we tested newly developed AmpF?STR^® MiniFiler? kit for autosomal STR analysis of ancient DNA (aDNA), using human femurs (n = 8) collected from medieval Korean tombs. After extracting aDNA from the bones, autosomal STR analyses were repeated for each sample using the AmpF?STR^® MiniFiler? and Identifiler? kits. Whereas only 21.87% of larger‐sized loci profiles could be obtained with the Identifiler? kit, 75% of the same loci profiles were determined by MiniFiler? kit analysis. This very successful amplification of large‐sized STR markers from highly degraded aDNA suggests that the MiniFiler? kit could be a useful complement to conventional STR kit analysis of ancient samples.     

Sequence variation in humans and other primates at six short tandem repeat loci used in forensic identity testing

A large number of alleles from the six different short tandem repeat (STR) loci FGA, D3S1358, vWA, CSF1PO, TPOX and TH01, used in human identity testing were sequenced to provide support for the robustness of fluorescent STR DNA typing by allele size. Sequence information for some of these loci (FGA, vWA, TH01) is an extension of published work, whereas no extensive sequence information is available with respect to the D3S1358, CSF1PO, and TPOX loci. Sequencing of alleles at each locus has provided quantitative data with respect to the true nucleotide length of common alleles, and of alleles that vary in length from the common alleles. All alleles that were identified as "off-ladder" alleles through fluorescent typing at these STR loci have proven to be true length variant alleles. Sequencing at the D3S1358 and CSF1PO loci allowed for the establishment of a common nomenclature for these loci. A correlation between percent stutter and the length of the core tandem repeat is demonstrated at the FGA locus. Alleles in which the core tandem repeat is interrupted by a repeat unit of different sequence have a reduced percent stutter. DNA samples from three non-human primates (chimpanzee, orangutan, and gorilla) were compared to the human sequences, and shown to differ markedly across loci with respect to their homology. The effects of primer binding site mutations on the amplification efficiency at a particular locus, and methods used to interpret amplification imbalance of heterozygous alleles at a locus is also addressed.     

Validation of a male-specific, 12-locus fluorescent short tandem repeat (STR) multiplex

Y chromosome-specific short tandem repeat (Y-STR) analysis has become another widely accepted tool for human identification. The PowerPlex Y System is a fluorescent multiplex that includes the 12 loci: DYS19, DYS385a/b, DYS389I/II, DYS390, DYS391, DYS392, DYS393, DYS437, DYS438 and DYS439. This panel of markers incorporates the 9-locus European minimal haplotype (EMH) loci recommended by the International Y-STR User Group and the 11-locus set recommended by the Scientific Working Group on DNA Analysis Methods (SWGDAM). Described here are inter-laboratory results from 17 developmental validation studies of the PowerPlex Y System and include the following results: (a) samples distributed between laboratories and commercial standards produced expected and reproducible haplotypes; (b) use of common amplification and detection instruments were successfully demonstrated; (c) full profiles were obtained with standard 30 and 32 cycle amplification protocols and cycle number (24-28 cycles) could be modified to match different substrates (such as direct amplification of FTA paper); (d) complete profiles were observed with reaction volumes from 6.25 to 50 microL; (e) minimal impact was observed with variation of enzyme concentration; (f) full haplotypes were observed with 0.5-2x primer concentrations; however, relative yield between loci varied with concentration; (g) reduction of magnesium to 1mM (1.5 mM standard) resulted in minimal amplification, while only partial loss of yield was observed with 1.25 mM magnesium; (h) decreasing the annealing temperature by 2-4 degrees C did not generate artifacts or locus dropout and most laboratories observed full amplification with the annealing temperature increased by 2 degrees C and significant locus dropout with a 4 degrees C increase in annealing temperature; (i) amplification of individual loci with primers used in the multiplex produced the same alleles as observed with the multiplex amplification; (j) all laboratories observed full amplification with >or = 125 pg of male template with partial and/or complete profiles observed using 30-62.5 pg of DNA; (k) analysis of < or = 500 ng of female DNA did not yield amplification products; (l) the minor male component of a male/female mixture was observed with < or =1200-fold excess female DNA with the majority of alleles still observed with 10,000-fold excess female; (m) male/male mixtures produced full profiles from the minor contributor with 10-20-fold excess of the major contributor; (n) average stutter for each locus; (o) precision of sizing were determined; (p) human-specificity studies displayed amplification products only with some primate samples; and (q) reanalysis of 102 non-probative casework samples from 65 cases produced results consistent with original findings and in some instances additional identification of a minor male contributor to a male/female mixture was obtained. In general, the PowerPlex Y System was shown to have the sensitivity, specificity and reliability required for forensic DNA analysis.