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1.
目的建立变性梯度凝胶电泳(denaturing gradient gel electrophoresis,DGGE)技术与焦磷酸测序技术对小核核糖核蛋白多肽N(small nuclear ribonucleoprotein polypeptide N,SNRPN)基因rs220030位点的分型方法。建立应用焦磷酸测序技术分析CpG甲基化状态的方法,探讨rs220030位点用于亲缘等位基因判定的可行性。方法应用DGGE技术对97例上海地区汉族家系血样rs220030位点进行分型,同时应用焦磷酸测序技术对其中25例血液来源的家系样本的rs220030位点分型,并对两种方法在SNP分型结果上进行比较。通过重亚硫酸盐修饰联合焦磷酸测序技术分析随机2组家系样本rs220030位点上游CpG甲基化状态,判断甲基化是否有亲缘相关性。结果经DGGE检测97例家系血样rs220030位点分型结果为C纯合子20例,T纯合子29例,C/T杂合子48例。经焦磷酸测序检测25例血液来源的家系样本结果与DGGE检测结果一致。经重亚硫酸盐修饰联合焦磷酸测序技术分析,2组血液来源的家系子代的rs220030位点上游CpG甲基化状态均与母亲较相似。结论相比DGGE技术,焦磷酸测序技术更精确、方便,适合大样本、高通量SNP分型。重亚硫酸盐修饰联合焦磷酸测序技术可以精确分析CpG甲基化状态。rs220030位点可用于亲缘等位基因判定。  相似文献   

2.
目的获得H19基因上游差异性甲基化区中SNPs的群体遗传学信息。方法采用PCR和测序技术,对105例中国北方汉族健康无关个体H19上游启动子区检测;使用Haploview 4.1和PowerStats V12软件进行统计学分析。选用甲基化敏感的限制内切酶(msRE)HpaⅡ,检测5个家系样本H19等位基因的亲代来源。结果测序结果显示,H19启动子区含有13个SNPs,组成5种单倍型,13种单倍型组合,其个体识别能力为0.856、多态性信息含量为0.67、非父排除率为0.498。经msRE HpaⅡ消化母源等位基因后,进行PCR及测序分析,检测出父源等位基因,排除1例和肯定4例家系的亲缘关系。结论 DNA甲基化标记和SNPs多态性检测,可同时进行多态性分型并确定等位基因的亲代来源,具有较高的法医学应用价值。  相似文献   

3.
目的调查汉族群体KCNQ1基因内含子1a中STR基因座的遗传多态性,并采用PIA分型技术确定等位基因的亲代来源。方法用PCR-STR分型技术对230例武汉汉族无关个体样本进行KCNQ1基因内含子1a中STR基因座分型检测;同时选用两种甲基化敏感的限制酶(msRE)HhaI和HpaⅡ对家系中孩子的基因组DNA进行消化后,采用PIA分型技术检测父源等位基因。结果KCNQ1内含子1a中STR基因座在汉族人群中检出10个等位基因、24种基因型,其个体识别能力(PD)、多态性信息含量(PIC)和非父排除率(PE)分别为0.852、0.66和0.484。HhaI和HpaII可消化个体的母源等位基因,PIA分型仅能检测出单一的父源等位基因。结论KCNQ1内含子1a中STR基因座在汉族群体具有较高的遗传多态性,PIA分型技术可以确定个体等位基因的亲代来源,具有较高的法医学应用价值。  相似文献   

4.
印记基因H19上游高甲基化区SNPs多态性研究   总被引:2,自引:1,他引:1  
目的建立简单、高效的DNA甲基化标记和SNPs联合检测技术,并用于H19基因上游高甲基化区两组SNPs群体遗传学检测。方法用PCR—DGGE技术对232例武汉汉族无关个体H19基因上游启动子区H19FR1和H19FR2单倍型进行检测;同时选用两种甲基化敏感的限制酶(msRE)HpaⅡ和HhaⅠ,检测H19FR等位基因亲代来源。结果H19FR1区检出5种单倍型、9种表型组合,其个体识别能力(DP)、多态性信息含量(PIC)和非父排除率(PE)分别为0.803、0.58和0.322;H19FR2区检出2种单倍型、3种表型组合,其DP、PIC和PE值分别为0.626、0.37和0.162。测序结果显示,片段H19FR1含有a7342g、a7357g和g7547a3个SNPs与1个g7351c点突变;H19FR2仅含aS097g1个SNP。msREHpaⅡ或HhaⅠ可消化个体母源等位基因,PDP-DGGE分析仅能检测到父源等位基因。结论PDP-DGGE是一种简单、灵敏、高效的DNA甲基化标记和SNPs联合分析技术,其在进行多态性分型同时还可以确定等位基因的亲代来源,具有较高的法医学应用价值。  相似文献   

5.
目的调查中国朝鲜族群体中H19基因上游差异甲基化区(differentially methylated region,DMR)SNP及单倍型分布,为法医学应用及群体遗传学研究提供基础数据。方法收集中国朝鲜族101份无关个体血样和14份来自5个亲缘关系已知的两代家系血样,用PCR-循环测序、McrBC消化DNA后PCR方法检测H19基因上游DMR的SNP,并用亲源印记等位基因(parentally imprinted allele,PIA)分型法进行单倍型检测,再计算相关遗传学参数。结果在H19基因上游DMR 1174bp的目的基因扩增产物中,共检出13个SNP(rs10840167、rs2525883、rs12417375、rs4930101、rs2525882、rs2735970、rs2735971、rs11042170、rs2735972、rs10732516、rs2071094、rs2107425、rs4930098)和5种单倍型,有9个SNP属于高鉴别能力的遗传标记,其单倍型具有较高的个人识别率,单倍型平均基因多样性(GD)为0.714。应用McrBC酶消化基因组DNA的PIA分型法确定了家系子代样本的母源单倍型。结论 H19基因上游DMR在中国朝鲜族群体中具有很高的遗传多态性,母源单倍型的确定进一步提高了印记基因的法医学鉴定效能。  相似文献   

6.
目的探讨利用母体血浆中高甲基化RASSF1A位点进行胎儿SNP分型的应用价值。方法随机收集10个未孕健康妇女和45例不同孕期(早期5例、中期20例、晚期20例)孕妇的血样本及相应胎儿组织(绒毛组织、羊水、胎盘组织);利用甲基化敏感限制性内切酶BstUI酶切后进行PCR,产物进行血细胞、血浆和胎儿组织(绒毛或胎盘)DNA RASSF1A序列的甲基化模式检测,并采用直接测序法对SNP rs4688725位点进行分型。结果经BstUI酶消化,RASSF1A序列在母体血细胞中均未检出,而在绒毛或胎盘组织中均能检出;在45名孕妇血浆中,RASSF1A序列均能被检出,且序列内的SNP分型与相应胎儿组织一致;在10名非孕妇女血浆中均未检出RASSF1A序列。结论母体和胎儿DNA中RASSF1A基因启动子区域的甲基化模式存在差异,可用于对母体血浆中的游离胎儿DNA进行SNP分型。  相似文献   

7.
印记基因KCNQ1的遗传多态性及在亲权鉴定中的应用   总被引:1,自引:1,他引:0  
目的为了调查印记基因KCNQ1的STR位点在中国汉族人群中的遗传多态性,利用亲源印记等位基因(parentally imprinting allele,PIA)分型法确定孩子的等位基因亲代来源,为亲权鉴定提供新的侯选STR位点。方法应用Chelex法提取153例佳木斯地区汉族健康无血缘关系个体DNA,用QIAamp Blood Kit(Qiagen)法提取3个家庭10个个体DNA,PCR扩增,凝胶电泳分型,ABIPRISM^TM 3730XL DNA测序仪测序;甲基化敏感性限制性内切酶消化孩子基因组DNA,PCR扩增,确定孩子等位基因的亲代来源。结果发现在中国佳木斯地区汉族人群中KCNQ1基因的STR有7个等位基因,多态信息含量为0.662,且KCNQ1基因的STR位点呈父源印记。结论印记基因KCNQ1的STR位点有很好的多态性,可为亲权鉴定提供新的侯选遗传标记,其亲源特异性甲基化标记有望应用于单亲鉴定中。  相似文献   

8.
Li L  Li RY  Li CT 《法医学杂志》2005,21(2):90-95
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。  相似文献   

9.
目的建立基于pyrosequencing和Pooling技术进行SNP位点的法医学多态性分析技术。方法对50名无关个体样本建立一适合pyrosequencing检测的组池;采用PyroMark Assay Design 2.0软件进行SNP位点等位基因定量分析的引物设计;对组池样本PCR产物进行焦磷酸测序检测。结果检测的3个SNP位点多态性良好,其中位点rs220028与以往人群调查后频率数据无显著差异。结论采用pyrosequencing和Pooling技术对SNP位点进行多态性分析,适合于位点的初筛及大规模群体调查。该技术准确可靠,方便快捷。  相似文献   

10.
目的调查广东汉族人群中H19基因上游差异甲基化区(differentially methylated region,DMR)的单核苷酸多态性(SNP)及单倍型。方法应用PIA分型法,以限制性内切酶Mcr BC、HpaⅡ消化基因组DNA分别获得个体单亲源DNA模板链,经测序,分别获得个体H19基因上游DMR单亲源SNP等位基因、基因型及单倍型数据。结果共检出13个SNP(rs10840167、rs2525883、rs12417375、rs4930101、rs2525882、rs2735970、rs2735971、rs11042170、rs2735972、rs10732516、rs2071094、rs2107425、rs4930098)及1个突变点(g7351c)。所有位点经统计学分析均符合Hardy-Weinberg平衡定律(P0.05)。除rs12417375位点DP值为0.279,其余12个SNP DP值在0.446~0.614;g7351c突变点DP值为0.013,提示为南方汉族民族特异性位点。共检出8种单倍型(命名为单倍型1~8),其中有3种为新发现的单倍型,其DP、PIC、PE及H分别为0.891、0.714、0.524和0.758。结论 PIA分型法获得的H19基因上游DMR SNP位点及其单倍型遗传标记系统具有较高的鉴别能力,在法医学鉴定中具有较好的实用价值。  相似文献   

11.
In paternity test, especially in motherless cases, the allele inherited from father (obligatory gene, OG) often cannot be determined. The paternity exclusion probability (PE) of a genetic marker is reduced considerably. Therefore, it is necessary to develop a new technique, by which the parental origin of alleles can be determined without genealogical analysis. In this paper, we explored the possibility of using parent-of-origin specific DNA methylation markers to determine the parental origin of alleles, choosing the imprinted single nucleotide polymorphism (SNP) locus rs220028 (A/G) as a model system. We typed the SNP by mutagenically separated PCR (MS-PCR). The frequencies of alleles were A = 0.5085, G = 0.4915; the unbiased heterozygosity was 0.5020. In order to discriminate between the maternal allele and paternal allele, post-digestion MS-PCR, a novel PCR based methylation analysis and SNP typing technique was developed and performed on 18 heterozygous children, and the methylated maternal allele was detected specifically. As a pilot study on the use of epigenetic markers in forensic genetics, our results demonstrated the feasibility of using parent-of-origin specific DNA methylation markers to determine the parental origin of alleles.  相似文献   

12.
Conventional PCR-based genotyping is useful for forensic testing but cannot be used to determine parental origins of alleles in DNA specimens. Here we describe a novel method of combined conventional genotyping and PIA typing (parentally imprinted allele typing) at a minisatellite region upstream from the H19 locus. The PIA typing uses two sets of primers and DNA digested with methylation-sensitive Hha I enzyme. The first amplification produces only the methylated fragment of paternal H19 allele, and the second detects polymorphism in the minisatellite. Hence, this distinguishes paternal and maternal alleles by difference in the DNA methylation. Furthermore, the polymorphism in this polymorphic locus was examined using 199 unrelated Japanese and 171 unrelated Germans, their polymorphism information content being 0.671 and 0.705, respectively. Feasibility of this typing is demonstrated for six families, and the usefulness is shown by application to paternity testing.  相似文献   

13.
The H19 gene is a paternally imprinted gene located on chromosome 11p15.5. In this study, the H19FR1 and H19FR2 haplotype polymorphisms including four and three SNPs, respectively, upstream of the H19 gene according to the GenBank sequence (accession no. AF125183) were investigated. Five haplotypes and nine genotypes were detected for H19FR1 in the Chinese Han population by means of PCR and subsequent denaturing gradient gel electrophoresis (DGGE). The power of discrimination (Dp), polymorphism information content (PIC) and probability of paternity exclusion (PE) were estimated to be 0.803, 0.58 and 0.322, respectively. For the H19FR2, two haplotypes and three genotyes were observed, and the Dp, PIC and PE were 0.626, 0.37 and 0.162, respectively. Sequencing results showed that only two of the four reported SNPs, a7342g and g7547a, were detected in H19FR1 in the Chinese Han population, and two new SNPs, g7351c and a7357g, were found. In the H19FR2 region, only one of the three reported SNPs, a8097g, was detected. Based on the methylation status of the genomic DNA, selective detection of the parental alleles for H19FRs was examined by using two types of enzymes, the methylation-sensitive restriction enzyme (msRE) HpaII or HhaI and McrBC. Genomic DNA digested by either HpaII or HhaI, revealed a single band derived from the paternal allele, as a result of cleavage of unmethylated recognition sites on the maternal allele. On the contrary, the use of McrBC, which can digest a methylated paternal sequence, resulted in exclusively amplifying the maternal allele. This parentally imprinted allele (PIA) typing method could be one of the useful techniques for discriminating the parental origin of alleles.  相似文献   

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