利用DNA鉴定方法破获一起假冒涮羊肉案

摘要：目的对疑似羊肉的一份食品检材进行种属鉴定。方法提取样本DNA，扩增线粒体DNA12SrRNA基因片段，进行DNA序列分析，测序结果在GenBank上进行BLAST搜索，与数据库中相关物种序列进行同源性分析。结果从送检样品中成功地提取到了基因组DNA，12SrRNA基因片段扩增产物的碱基序列与家鸭的同源性达到100％。结论送检的肌肉样本的种属为家鸭。关键词：DNA：12SrRNA：种属鉴定     

线粒体16SrRNA和Cytb基因复合扩增进行种属鉴定

目的 建立一种用于种属鉴定的线粒体DNA16SrRNA基因和细胞色素b基因荧光标记复合扩增检测体系。方法 利用引物设计软件Primer 5．0对mtDNA序列的16SrRNA基因和细胞色素b基因各设计一对引物,建立复合扩增体系,分别扩增人和牛、猪、狗、鸡、草鱼5种常见动物,用310遗传分析仪对产物进行分析。结果 人和5种动物DNA扩增产物均出现两个峰。Cytb通用引物的扩增产物为人与动物的共有峰,为358bp;16SrRNA基因的扩增产物为人与动物间存在位置差异的特异峰,位于231～256bp之间。结论 该复合扩增体系可以明确区分人和5种动物样本,可用于种属鉴定。     

线粒体16SrRNA和Cytb基因复合扩增进行种属鉴定

目的建立一种用于种属鉴定的线粒体DNA16SrRNA基因和细胞色素b基因荧光标记复合扩增检测体系。方法利用引物设计软件Primer5.0对mtDNA序列的16SrRNA基因和细胞色素b基因各设计一对引物,建立复合扩增体系,分别扩增人和牛、猪、狗、鸡、草鱼5种常见动物,用310遗传分析仪对产物进行分析。结果人和5种动物DNA扩增产物均出现两个峰,Cytb通用引物的扩增产物为人与动物的共有峰,为358bp;16SrRNA基因的扩增产物为人与动物间存在位置差异的特异峰,位于231～256bp之间。结论该复合扩增体系可以明确区分人和5种动物样本,可用于种属鉴定。     

扩增TP53内含子8用于生物检材的种属鉴定

目的扩增常见动物TP53内含子8片段,确定其在法医学生物检材种属鉴定中的应用价值。方法收集标本为包括人在内的15种常见动物的血痕或肌肉组织,提取DNA后定量,应用PCR扩增TP53内含子8,PAGE电泳,银染后观察结果。结果人和猕猴都扩增出一条长度为460bp的片段,鳝鱼、鲢鱼、青蛙、鸭、兔、猫、小白鼠、豚鼠、猪、牛、羊虽有扩增产物,但不在分型区内,鸡、狗未见扩增产物。结论扩增TP53内含子8进行种属鉴定,方法简单,灵敏度较高。     

线粒体DNA短片段复合扩增系统鉴别种属的研究

目的建立线粒体DNA短片段复合扩增体系用于种属鉴定的方法。方法提取人、牛、猪、羊、鸡的DNA,用所选的3对引物复合扩增细胞色素b基因（cyt b）片段、16srRNA基因片段和ND4基因片段,扩增产物经琼脂糖凝胶电泳检测。结果人DNA扩增产物在358bp、157bp和110bp处各出现一条带;动物DNA扩增产物均只有358bp一条带。结论线粒体DNA短片段复合扩增鉴别种属的方法可区分人源性生物检材和其它动物样本,可应用于法庭科学实践。     

COⅠ基因微条形码技术在毛发种属鉴定中的应用

目的利用COⅠ基因微条形码技术对哺乳动物毛发进行种属鉴定。方法设计一对哺乳动物COⅠ基因微条形码通用引物,利用共同区PCR技术对来自于哺乳纲5个目11个种属的实验动物毛发DNA进行扩增,并对扩增产物进行双向引物测序,将测序结果进行拼接后所得的基因序列输入BOLD数据库进行同源性比对。结果本研究设计的微条形码通用引物能够对所有种属实验动物毛发DNA进行扩增,扩增片段长度147 bp。数据库同源比对结果显示最匹配物种与实验动物种属相符,除狮同源匹配度为98.99%外,其他实验动物同源匹配度均为100%,且狮种内遗传距离1%,种间遗传距离大于种内遗传距离十倍,可以进行种属判定。结论建立的COⅠ基因微条形码技术能够快速准确地对哺乳动物毛发检材进行种属鉴定。     

线粒体16srRNA和ND4基因在种属鉴定中的应用研究

目的构建一种用于种属鉴定的线粒体DNA(m tDNA)16 srRNA和ND4基因荧光标记复合扩增检测体系。方法利用引物设计软件(Prim er 5)对两个m tDNA序列ND4基因和16 srRNA基因设计两对引物,每对引物中的一条在5’端标记荧光素(6-FAM)。按传统复合扩增技术建立复合扩增体系,用AB I PR ISM 310基因分析仪对产物进行分析。结果人类DNA扩增产物出现两个峰,片段大小分别为110bp的人类特异片段和149bp的人与动物共有片段,而动物DNA扩增产物出现一个峰,片段大小为149bp。对30个实验室存放5~15年的陈旧人血痕也能明确判断其种属来源。结论该体系可以明确区分人源性生物检材与其它常见动物样本,对实验室长期存放的陈旧检材也具有较好的检测能力。     

复合扩增mtDNA-HVI和Cyt b片段鉴定混合血痕种属

目的探讨mtDNA-HVI和Cyt b片段复合扩增法鉴定人与动物混合血痕种属的应用价值。方法用chelex-100法从人、牛、猪、狗、兔、鱼、鸡和鼠血痕中提取DNA,复合扩增mtDNA-HVI片段和Cyt b片段,琼脂糖凝胶电泳检测。结果人类在mtDNA-HVI区和Cyt b区分别出现279bp和358bp各一条带,且279bp条带亮于358bp;动物均只有358bp一条带。人与7种动物血痕的检测灵敏度均为3.13ng。检测人与动物混合DNA,灵敏度仍为3.13ng,但358bp条带亮于279bp条带。结论当358bp带明显强于279bp带时,提示检材为人与动物的混合。     

线粒体DNA cytb和HVI的分析用于种属鉴定

目的以线粒体DNA为目标序列,探讨生物检材的种属来源问题。方法复合扩增线粒体DNA细胞色素b基因(Cb)片段和D-环HVI上人源特异性DNA片段,2%琼脂糖凝胶电泳检测复合扩增产物谱带;用常规测序技术获得种属来源不明的检材Cytb基因序列,登陆美国国家生物信息中心网站主页(http://www.ncbi.nlm.nih.gov),将Cytb序列的测序结果用BLAST2.2.9[2004.5.1]进行匹配查询,查询数据库中存在的与其相匹配的物种条目。结果检材经复合扩增后电泳检测可区分人源性检材和非人源性检材;用生物信息法可确定检材种属来源结论检测线粒体DNA细胞色素b基因和D-环HVI的有关序列可在DNA分子水平上鉴别人源性检材和非人源性检材,结合测序的分子生物信息学方法,可对检材进行种属鉴定。     

利用唾液斑DNA上12S rRNA基因片段进行动物种属鉴定

目的通过检测唾液斑DNA确定案件所涉及动物的种属。方法通过提取动物唾液斑DNA,扩增其线粒体DNA上的12S rRNA基因片段,并进行DNA测序,测序结果在GenBank上进行BLAST搜索,再利用DNA MAN软件进行同源性分析。结果从唾液斑中成功地提取到了基因组总DNA,并成功扩增出了用于动物种属鉴定的12SrRNA基因片段。结论所报道的方法能用于动物种属鉴定。     

Identification of mammal species using species-specific DNA pyrosequencing

In forensic casework it is highly relevant to be able to deduce the species origin of an unknown biological sample. For such a purpose we have designed and developed an assay for species identification based on DNA sequencing of two short mitochondrial DNA amplicons. In short, partial 12S rRNA and partial 16S rRNA fragments (approximately 100bp) are amplified by PCR followed by direct sequencing using pyrosequencing technique. Due to properties of the chosen targets, the same PCR conditions and primers were used irrespective of the true species of an unknown sample. A total of 28 different mammals present in the European fauna were sequenced both for the partial 12S rRNA and the partial 16S rRNA sequences for accuracy verification. Together the two sequences showed to have a high divergence factor, discriminating almost all mammals. Furthermore, the human reference nucleotide sequences were always at least nine nucleotides different compared to the other sequenced species both at the partial 12S rRNA and the partial 16S rRNA sequences.     

Ribosomal ribonucleic acid (rRNA) gene typing for species identification.

Deoxyribonucleic acid (DNA) typing of ribosomal ribonucleic acid (rRNA) genes was performed with a polymerase chain reaction (PCR) assay for species identification. A variable region of the 28S ribosomal RNA gene was amplified with primers complementary to flanking sequences phylogenetically well conserved. The products of twelve animal DNAs (human, Japanese monkey, dog, cattle, pig, cat, rabbit, mouse, rat, chicken, frog, and fish) were separated by polyacrylamide gel electrophoresis, each revealing a few bands ranging from 150 to 100 base pairs. The band patterns obtained from each DNA sample differed in number and size, which indicates the applicability of the method to species identification. Samples containing either as little as 1 pg of DNA or degraded DNA of 0.2 to 0.5 kb in length were able to give detectable bands. Postmortem human tissue DNAs were tested as an example. They showed a pattern identical to the human control one, which was distinct from those of the other animals examined.     

Human genomic DNA quantitation system, H-Quant: development and validation for use in forensic casework

The human DNA quantification (H-Quant) system, developed for use in human identification, enables quantitation of human genomic DNA in biological samples. The assay is based on real-time amplification of AluYb8 insertions in hominoid primates. The relatively high copy number of subfamily-specific Alu repeats in the human genome enables quantification of very small amounts of human DNA. The oligonucleotide primers present in H-Quant are specific for human DNA and closely related great apes. During the real-time PCR, the SYBR Green I dye binds to the DNA that is synthesized by the human-specific AluYb8 oligonucleotide primers. The fluorescence of the bound SYBR Green I dye is measured at the end of each PCR cycle. The cycle at which the fluorescence crosses the chosen threshold correlates to the quantity of amplifiable DNA in that sample. The minimal sensitivity of the H-Quant system is 7.6 pg/microL of human DNA. The amplicon generated in the H-Quant assay is 216 bp, which is within the same range of the common amplifiable short tandem repeat (STR) amplicons. This size amplicon enables quantitation of amplifiable DNA as opposed to a quantitation of degraded or nonamplifiable DNA of smaller sizes. Development and validation studies were performed on the 7500 real-time PCR system following the Quality Assurance Standards for Forensic DNA Testing Laboratories.     

应用mtDNA16S rRNA基因测序鉴定肉产品种属

目的 应用mtDNA 16S rRNA基因测序方法进行肉产品种属鉴定.方法 15份有关部门送检的未知动物肌肉样本,3份市购猪、牛和羊的肌肉为对照样本.常规酚-氯仿法提取模板DNA,分别用通用引物和特异性引物扩增mtDNA的16S rRNA基因片段,产物用1.5％琼脂糖电泳检测,扩增的基因片段由上海生物工程公司进行序列测...     

The application of miniplex primer sets in the analysis of degraded DNA from human skeletal remains

A new set of multiplexed PCR primers has been applied to the analysis of human skeletal remains to determine their efficacy in analyzing degraded DNA. These primer sets, known as Miniplexes, produce shorter amplicons (50-280 base pairs (bp)) than standard short tandem repeat (STR) kits, but still utilize the 13 CODIS STR loci, providing results that are searchable on national DNA databases. In this study, a set of 31 different human remains were exposed to a variety of environmental conditions, extracted, and amplified with commercial and Miniplex DNA typing kits. The amplification efficiency of the Miniplex sets was then compared with the Promega PowerPlex 16 system. Sixty-four percent of the samples generated full profiles when amplified with the Miniplexes, while only 16% of the samples generated full profiles with the Powerplex 16 kit. Complete profiles were obtained for 11 of the 12 Miniplex loci with amplicon sizes less than 200 bp. These data suggest smaller PCR amplicons may provide a useful alternative to mitochondrial DNA for anthropological and forensic analysis of degraded DNA from human skeletal remains.