毛细管电泳-短小串联重复序列多态性方法及对人凝血因子BSTR位点的检测

为开展高效毛细管电泳技术对STR位点的检测 ,通过建立毛细管电泳 短小串联重复序列 (STRs)多态性的检测方法 ,实现了利用毛细管电泳快速检测人凝血因子B (F13B)STR位点PCR产物的长度多态性 ,结果F13B STR基因型分型正确 ,图谱清晰 .方法的建立可简化常规多态性检测 ,实现快速、准确分离     

快速STR分型在法医DNA分析中的应用研究进展

STR分型是目前世界通用的DNA指纹分析方法.传统的分型方法包括DNA提取、DNA定量、PCR扩增和对扩增后的STR片段进行检测和分析,耗时较长(8¹0 h).一些情况下很难满足案件的实际需求.法医学家们在加快STR分型的方法研究一直不懈努力.现从快速提取DNA、无提取直接PCR、快速PCR、微流控芯片技术在STR快速分型方面的应用四方面,对近年来出现的可进行快速STR分型的新技术、新方法进行综述.     

毛细管电泳-短小串联重复序列多态性方法及对人凝血因子ⅧB STR位点的检测

为开展高效毛细管电泳技术对STR位点的检测,通过建立毛细管电泳-短小串联重复序列(STRs)多态性的检测方法,实现了利用毛细管电泳快速检测人凝血因子B(F13B)STR位点PCR产物的长度多态性,结果F13B-STR基因型分型正确,图谱清晰.方法的建立可简化常规多态性检测,实现快速、准确分离.     

微流控芯片电泳及其法医学应用

在光学性能良好的Brofloat玻璃电泳芯片上,利用自行搭建的共聚焦激光诱导荧光检测系统,通过对芯片管道表面修饰、筛分介质、分离电场强度、进样方式、电泳温度、进样时间等条件的优化,对含15个STR基因座的法医DNA样品进行电泳分离测试实验.通过对芯片电泳条件优化获得了本电泳系统的最佳条件,成功实现8 min内完成DNA样品片段的分离,表明该微流控芯片电泳系统在法医DNA快速分析方面具有良好的应用前景.     

中华绒螯蟹两种微卫星DNA分型方法的应用比较

为对比荧光标记毛细管电泳和聚丙烯酰胺凝胶电泳在微卫星等位基因分型上的效果,试验选择6对微卫星引物,对60个中华绒螯蟹个体基因组DNA进行PCR扩增,荧光标记法共检测出等位基因129个,平均每个位点21.5个等位变异,聚丙烯酰胺凝胶电泳共检测出等位基因174个,平均每个位点29个等位变异。对位点Esin67的PCR产物分别进行重复检测,发现荧光标记法的重复率为100%,而聚丙烯酰胺凝电泳法两次结果存在较大差异,证实了荧光标记法检测的可靠性显著高于聚丙烯酰胺凝胶电泳。对两种方法的检测效率和经济成本的分析表明,荧光标记法虽然成本较高,但效率高于聚丙烯酰胺凝胶电泳法。建立单重PCR的多重毛细管电泳技术是提高效率、降低成本的有效途径。     

毛细管电泳-短小串联重复序列多态性方法及对人凝血因子ⅩⅢB STR位点的检测

为开展高效毛细管电泳技术对STR位点的检测,通过建立毛细管电泳-短小串联重复序列（STRs）多态性的检测方法,实现了利用毛细管电泳快速检测人凝血因子ⅩⅢB（F13B）STR位点PCR产物的长度多态性,结果F13B-STR基因型分型正确,图谱清晰.方法的建立可简化常规多态性检测,实现快速、准确分离.     

中国汉族群体5个STR分子遗传标记

为了解中国人5个STR基因座等位片段结构特征,获得汉族群体D2S2955、D3S4014、D20S604、D22S689和GATA198B05基因座的群体遗传学数据。采取成都地区无血缘关系汉族个体血样EDTA抗凝血。Chelex法提取DNA,PCR扩增,非变性聚丙烯酰胺凝胶不连续缓冲系统水平电泳分型,自动激光荧光测序仪测定DNA序列。序列分析显示,中国人D2S2955、D3S4014、D20S604基因座具有简单重复序列,而D22S689、GATA198B05基因座具有复杂重复序列。5个STR基因座在成都汉族群体中均具有遗传多态性。揭示了我国汉族人群5个STR基因座的等位基因片段结构特征,为人类群体遗传研究提供了数据,建立的不连续缓冲系统水平电泳分型方法为检测这5个STR基因座提供了简便技术。     

用基因芯片检测DPYD等位基因在受试人群中的发生频率

二氢嘧啶脱氢酶基因(DPYD基因)所编码的二氢嘧啶脱氢酶(DPD酶)是氟化嘧啶类抗肿瘤药物代谢的主要限速酶,其活性存在显著的个体差异,并因此影响药物的疗效和毒副作用.大部分编码低/无活性酶的突变型等位基因是由于基因中的单核苷酸多态性(single nucleotide polymorphism,SNP)造成的,检测这些SNPs是预测患者对药物的反应和实现个体化给药方案的基础.制备并优化了用于检测DPYD基因中6个已知SNPs所编码的等位基因(DPYD*2,*3,*4,*5,*9,*12)的基因芯片,建立了该芯片的基因分型标准.并利用该芯片检测了肿瘤患者(112例)、肾病患者(83例)和健康者(45例)中DPYD突变型等位基因的发生频率.在受试人群中,突变型等位基因DPYD*5和DPYD*9平均发生率分别为32.08%和11.25%,未发现DPYD*2,*3,*4,*12突变型等位基因.而且以上单碱基突变的发生率在肿瘤患者、肾病患者和健康者间以及男性、女性肿瘤患者间无显著性差异,表明其与疾病的发生或性别无显著性关联.对20例标本的基因分型结果采用直接测序法进行验证,19例基因芯片分型结果与直接测序法结果相一致.DPYD*5、DPYD*9突变型等位基因在受试人群中具有较高的发生率.利用基因芯片能够对其实现快速准确的检测.     

胶带纸粘面上汗潜指纹的STR分型检测

目的:建立胶带纸粘面上汗潜指纹的STR分型检测方法.方法:采用EZ1 Tissue试剂盒与EZ1 BioRobot全自动DNA纯化装置提取纯化汗潜指纹中的DNA,低拷贝模板(LCN)STR复合扩增,荧光电泳检测.结果:胶带纸粘面上的汗游指纹可得到完整的powerplex16基因座的STR分型,经磺酸双三嗪类荧光显色液喷雾显现的胶带纸粘面的汗潜指纹可成功进行PowerPlex16位点的分型.结论:成功建立了胶带纸粘面上汗潜指纹的微量DNA检验方法.     

多重等位基因特异性扩增—— 微流控芯片电泳法同时测定多个单核苷酸多态性位点

文章以微流控芯片电泳为检测平台, 建立了一种基于DNA适配器连接介导的多重等位基因特异性扩增同时测定多个单核苷酸多态性(SNP)位点的方法。以白细胞介素1β(IL1B)基因中的7个SNP位点(794C>T、1274C>T、2143T>C、2766T>del、3298G>A、5200G>A和5277C>T)为检测对象, 通过PCR预扩增得一段含该7个待测SNP位点的长片段; 用限制性内切酶MboⅠ将其消化成短片段, 再与DNA适配器(adapter)相连; 以连接产物为模板, 在两管中分别用7条等位基因特异性引物和一条公用引物进行7重等位基因特异性扩增; 最后用微流控芯片电泳法分离等位基因特异性扩增产物, 根据两管扩增产物的芯片电泳图谱中扩增片段的大小判断SNP的类型。采用本法成功测定了48名健康中国人的IL1B基因上的7个SNP位点, 与聚合酶链反应-限制性片段长度多态性法(PCR-RFLP)和测序法测定结果完全一致。本法结果准确, 可用于同时测定多个SNP位点; 以微流控芯片电泳作为检测平台, 分析速度快, 样品需要量少; 借助于自制筛分凝胶和重复使用芯片, 使得SNP分析成本大大降低。     

Short tandem repeat typing technologies used in human identity testing

Short tandem repeat (STR) typing methods are widely used today for human identity testing applications including forensic DNA analysis. Following multiplex PCR amplification, DNA samples containing the length-variant STR alleles are typically separated by capillary electrophoresis and genotyped by comparison to an allelic ladder supplied with a commercial kit. This article offers a brief perspective on the technologies and issues involved in STR typing.     

Polymerase chain reaction/ligase detection reaction/hybridization assays using flow-through microfluidic devices for the detection of low-abundant DNA point mutations

We have microfabricated a flow-through biochip for the analysis of single base mutations in genomic DNA using two different materials: (1) a polycarbonate (PC) chip for performing a primary polymerase chain reaction (PCR) followed by an allele-specific ligation detection reaction (LDR) and (2) a poly(methyl methacrylate) (PMMA) chip for the detection of the LDR products using a universal array platform. The operation of the device was demonstrated by detecting low-abundant DNA mutations in gene fragments (K-ras) that carry point mutations with high diagnostic value for colorectal cancers. The PC microchip was used for sequential PCR/LDR in a continuous-flow format, in which the following three steps were carried out: (1) exponential amplification of gene fragments from genomic DNA; (2) mixing of the resultant PCR product with a LDR mixture via a Y-shaped passive micromixer and (3) ligation of two primers only when the particular mutation was present in the genomic DNA. A PMMA chip was employed as the microarray device, where zip code sequences (24-mer), which were complementary to sequences present on the discriminating primer, were micro-printed into fluidic channels embossed into the PMMA substrate. We successfully demonstrate the ability to detect one mutant DNA in 80 normal sequences with the integrated microfluidic device. The PCR/LDR/hybridization assay using the microchips performed the entire assay at a relatively fast processing speed: 18.7 min for PCR, 8.1 min for LDR, 5 min for hybridization, 10 min for washing and 2.6 min for fluorescence scanning (total processing time=ca. 50 min) with an order of magnitude reduction in reagents compared to bench-top formats.     

副溶血弧菌LAMP检测方法的建立

副溶血弧菌(Vibrio parahaemolyticus)是一种能引起食源性疾病的重要病原菌。首次将一种新颖的核酸扩增技术-环介导等温扩增技术（Loop-Mediated Isothermal Amplification, LAMP）应用于副溶血弧菌的快速检测。针对副溶血弧菌不耐热溶血毒素基因（tlh）设计四条特异性引物（两条内引物和两条外引物）进行LAMP扩增,对扩增反应进行优化,最佳反应时间为60 min,反应温度为60 ℃。对12种细菌共28株菌进行LAMP扩增,仅14株副溶血弧菌得到阳性扩增结果,证明引物具有很高的特异性。副溶血弧菌基因组DNA和纯培养物的检测灵敏度分别约为90 fg和24 cfu/mL。对模拟食品样品进行直接检测,检测限为89 cfu/g。结果表明,该方法检测副溶血弧菌特异性强、灵敏度高,并且操作简便、检测成本低,1 h即可完成,有望发展成为快速检测副溶血弧菌的有效手段。     

Rapid, automated nucleic acid probe assays using silicon microstructures for nucleic acid concentration

A system for rapid point-of-use nucleic acid (NA) analysis based on PCR techniques is described. The extraction and concentration of DNA from test samples has been accomplished utilizing silicon fluidic microchips with high surface-area-to-volume ratios. Short (500 bp) and medium size (48,000 bp) DNA have been captured, washed, and eluted using the silicon dioxide surfaces of these chips. Chaotropic (GuHCl) salt solutions were used as binding agents. Wash and elution agents consisted of ethanol-based solutions and water, respectively. DNA quantities approaching 40 ng/cm2 of binding area were captured from input solutions in the 100-1000 ng/mL concentration range. For dilute samples of interest for pathogen detection, PCR and gel electrophoresis were used to demonstrate extraction efficiencies of about 50 percent, and concentration factors of about 10x using bacteriophage lambda DNA as the target. Rapid, multichannel PCR thermal cycling modules with integrated solid-state detection components have also been demonstrated. These results confirm the viability of utilizing these components as elements of a compact, disposable cartridge system for the detection of NA in applications such as clinical diagnostics, biowarfare agent detection, food quality control, and environmental monitoring.     

Hierarchical gene synthesis using DNA microchip oligonucleotides

High-cost of oligonucleotides is one of the major problems to low-cost gene synthesis. Although DNA oligonucleotides from cleavable DNA microchips has been adopted for the low-cost gene synthesis, construction of DNA molecules larger than 1 kb has been largely hampered due to the difficulties of DNA assembly associated with the negligible quantity of chip oligonucleotides. Here we report a hierarchical method for the synthesis of large genes using oligonucleotides from programmable DNA microchips. Using this hierarchical method, we successfully synthesized 1056 bp Dpo4 and 2325 bp Pfu DNA polymerase genes as models. This hierarchical strategy can be further expanded for the syntheses of multiple large genes in a scalable manner.     

Single nucleotide polymorphic discrimination by an electronic dot blot assay on semiconductor microchips

We have developed a rapid assay for single nucleotide polymorphism (SNP) detection that utilizes electronic circuitry on silicon microchips. The method was validated by the accurate discrimination of blinded DNA samples for the complex quadra-allelic SNP of mannose binding protein. The microchip directed the transport, concentration, and attachment of amplified patient DNA to selected electrodes (test sites) creating an array of DNA samples. Through control of the electric field, the microchip enabled accurate genetic identification of these samples using fluorescently labeled DNA reporter probes. The accuracy of this approach was established by internal controls of dual labeled reporters and by using mismatched sequences in addition to the wild-type and variant reporter sequences to validate the SNP-genotype. The ability to customize this assay for multiple genes has advantages over other existing approaches.     

Functionalization of poly(methyl methacrylate) (PMMA) as a substrate for DNA microarrays

A chemical procedure was developed to functionalize poly(methyl methacrylate) (PMMA) substrates. PMMA is reacted with hexamethylene diamine to yield an aminated surface for immobilizing DNA in microarrays. The density of primary NH₂ groups was 0.29 nmol/cm². The availability of these primary amines was confirmed by the immobilization of DNA probes and hybridization with a complementary DNA strand. The hybridization signal and the hybridization efficiency of the chemically aminated PMMA slides were comparable to the hybridization signal and the hybridization efficiency obtained from differently chemically modified PMMA slides, silanized glass, commercial silylated glass and commercial plastic Euray™ slides. Immobilized and hybridized densities of 10 and 0.75 pmol/cm², respectively, were observed for microarrays on chemically aminated PMMA. The immobilized probes were heat stable since the hybridization performance of microarrays subjected to 20 PCR heat cycles was only reduced by 4%. In conclusion, this new strategy to modify PMMA provides a robust procedure to immobilize DNA, which is a very useful substrate for fabricating single use diagnostics devices with integrated functions, like sample preparation, treatment and detection using microfabrication and microelectronic techniques.     

Genetic polymorphism analysis of 15 STR loci in Chinese Hui ethnic group residing in Qinghai province of China

In the present study, we investigated the diversity distributions of allelic frequencies of 15 short tandem repeats (STRs) loci in a sample of Chinese Hui ethnic group in the Ningxia Hui Autonomous Region. The allelic frequencies of the 15 STR loci (D8S1179, D21S11, D7S820, CSF1PO, D3S1358, TH01, D13S317, D16S539, D2S1338, D19S433, vWA, TPOX, D18S51, D5S818 and FGA) were obtained from 2975 unrelated healthy Hui individuals. The STR genotyping data of all the samples were generated by DNA extraction, multiple amplification, GeneScan and genotype analysis. The genetic distances among different populations were calculated by using Nei's method and a phylogenetic tree was constructed based on the allelic frequencies of the same 15 STR loci using the neighbor-joining method. A total of 185 alleles were observed in the Hui population, with the corresponding allelic frequencies ranging from 0.0002 to 0.5322. Chi-Square tests showed that all STR loci were in Hardy-Weinberg equilibrium. The forensic statistical parameters of all the loci showed high values. The population data in this study were compared with the previously published population data from other ethnics or areas. The Hui population showed significant differences from the Minnan Han, Uigur, Ewenki, Yi, Tibetan, Maonan and Malay ethnic minority groups in some loci, and from the South Morocco population and the Moroccan population in all the loci. Our results are valuable for human individual identification and paternity testing in the Chinese Hui population and are expected to enrich the genetic information resources of Chinese populations.     

Single nucleotide polymorphism genotyping by mini-primer allele-specific amplification with universal reporter primers for identification of degraded DNA

Single nucleotide polymorphism (SNP) is informative for human identification, and much shorter regions are targeted in analysis of biallelic SNP compared with highly polymorphic short tandem repeat (STR). Therefore, SNP genotyping is expected to be more sensitive than STR genotyping of degraded human DNA. To achieve simple, economical, and sensitive SNP genotyping for identification of degraded human DNA, we developed 18 loci for a SNP genotyping technique based on the mini-primer allele-specific amplification (ASA) combined with universal reporter primers (URP). The URP/ASA-based genotyping consisted of two amplifications followed by detection using capillary electrophoresis. The sizes of the target genome fragments ranged from 40 to 67 bp in length. In the Japanese population, the frequencies of minor alleles of 18 SNPs ranged from 0.36 to 0.50, and these SNPs are informative for identification. The success rate of SNP genotyping was much higher than that of STR genotyping of artificially degraded DNA. Moreover, we applied this genotyping method to case samples and showed successful SNP genotyping of severely degraded DNA from a 4-year buffered formalin-fixed tissue sample for human identification.