种属特异性PCR法鉴别罐头食品中猪、牛、羊、鸡、鸭源性成分

建立适用于肉类罐头等长时间高温加工食品中猪、牛、羊、鸡、鸭5种动物源成分种属特异性PCR鉴别方法。通过使用猪、牛、羊、鸡、鸭的种属特异性引物,对5种动物的总DNA模板进行PCR扩增,得到分别为212、147、202、131、201 bp的扩增产物,将测序结果在美国国家生物技术信息中心(US National Center for Biotechnology Information,NCBI)进行BLAST比对确认实验的准确性,并对市售罐头样品进行检测。该方法 5种动物引物种属特异性良好,对猪、牛、羊、鸭源性成分的检测灵敏度可达1%,对鸡源性成分的检测灵敏度为2.5%。在对市售肉类罐头样品的检测中,6.6%样品与标签标注结果不符。该方法操作简便,成本低,结果准确可靠,可广泛用于肉类罐头食品和长时间高温加工食品中猪、牛、羊、鸡、鸭5种动物源成分的鉴别,具有十分广泛的实际应用价值。     

PCR法检测鱼及其制品中的鱼源性成分

目的:建立一种快速、特异、灵敏的鱼源性成分聚合酶链式反应(polymerase chain reaction,PCR)检测方法。方法:根据鱼线粒体基因组12S r RNA中的保守序列设计鱼源性特异性引物,进行PCR扩增,建立鱼源性成分检测方法;对24种鱼及鸡、牛、羊、猪、鸭、虾6种常见的易混于鱼制品的动物源性成分进行特异性检测;将草鱼肉混入其他动物肉中,混合均匀后提取DNA进行PCR扩增,确定肉样水平的检测灵敏度;将草鱼DNA混入其他动物DNA中,以混合后的DNA为模板进行PCR扩增,确定DNA水平的检测灵敏度。结果:该方法能特异性的对鱼源性成分进行快速检测,检测灵敏度达0.5%。结论:该方法能对食品中是否含有鱼源性成分进行初筛,到达快速检测的目的,对防止食品掺假、维护消费者利益、规范市场秩序有重要意义。     

基于DNA测序方法检测生鲜肉中5种动物源性成分

目的建立生鲜肉中猪、牛、羊、鸡、鸭源性成分的DNA测序鉴别方法,并对采集自北京各地区生鲜肉品进行检测验证。方法合成动物线粒体上12S rRNA、cytochrome b、cytochrome c oxidase基因引物,建立猪、牛、羊、鸡、鸭源性成分的DNA测序鉴别方法,并对50份猪、牛、羊、鸡、鸭肉品进行检测。结果使用线粒体上12S rRNA、cytochrome b、cytochrome c oxidase基因引物对猪、牛、羊、鸡、鸭肉品进行扩增,分别获得456、400和710 bp大小的DNA片段。只有12S rRNA基因引物均可对此5种动物源性成分扩增且效果良好。扩增产物进行序列测定。根据序列构建的系统进化树发现,此方法可有效区分样品中猪、牛、羊、鸡、鸭源性成分。结论此方法快速、简便,可准确检测50种生鲜肉样品中的动物源性成分,作为肉类鉴别的新方法。     

硫酸软骨素中掺假动物成分的检测研究

研究建立硫酸软骨素中牛、羊、猪、鸡、鸭、鹅等动物源性成分的PCR检测方法,该方法特异、灵敏,检测限为0.1%.运用建立的方法对市场上的38个不同动物成分来源的硫酸软骨素样品进行检测,在27个硫酸软骨素样品中检出其它动物成分.该检测方法能够用于硫酸软骨素中牛、羊、猪、鸡、鸭和鹅源性成分的原料成分鉴别.     

膜芯片技术对牛、羊、牦牛、驴肉源食品的掺伪鉴别

采用膜芯片技术,通过对牛、羊、驴、牦牛、鸡、鸭、兔、貂、狐、鼠、猪11 种目标物种的检测,实现对牛、羊、驴、牦牛物种的掺伪鉴别。结果表明：该方法具有良好的特异性和适用性,检测灵敏度和掺伪灵敏度均可达到0.1%,能快速、准确地同时鉴别牛、羊、驴、牦牛、鸡、鸭、兔、貂、狐、鼠、猪11 种动物源性成分,可满足肉类食品样品中对牛、羊、牦牛、驴等掺伪鉴别的检验需求。     

饲料中六种动物源性成分多重PCR快速检测方法

采用试剂盒对含有牛、羊、猪等6种动物源性成分饲料中的DNA进行提取,根据动物线粒体DNA序列设计引物.以18 s rRNA作为内源基因对照,对DNA提取产物进行6种动物源性成分多重PCR扩增,同时对6种动物源性成分进行特异性鉴定.结果分别扩增出6种动物的特异性条带,证明该多重PER方法具有较高的特异性和灵敏度.     

Taqman探针荧光聚合酶链式反应实时同步鉴定动物源性食品中猪肉、鸡肉源性成分

目的:建立一种能实时同步检测动物源性食品中猪肉源性和鸡肉源性成分的Taqman探针双重荧光聚合酶链式反应(polymerase chain reaction,PCR)方法,应用于动物源性食品的成分掺假快速检验。方法:分别依据猪和鸡的种间保守基因(Cytb)序列设计、合成特异性引物及不同荧光标记(FAM、HEX)的Taqman探针,建立可同步检测动物源性食品中的猪源性和鸡源性成分的Taqman探针双重荧光PCR方法。结果:所建立的Taqman探针双重荧光PCR检测方法特异性强,仅对猪、鸡成分有扩增;灵敏度高,最低检测到猪源、鸡源DNA的含量分别为0.02、0.10 ng;抗干扰性强,当DNA混样中猪源、鸡源性成分含量在2%以上水平时,所建立的混合检测体系均能对DNA混样给出正确判断。结论:所建立的混合检测体系具有高特异性、高灵敏度,能够适用于动物源性食品中猪肉、鸡肉成分的同时快速检测。     

食用植物油中动物源性成分PCR检测方法的建立

本文建立了应用PCR技术快速鉴别食用植物油中动物源性成分的方法。以食用植物油中掺入的动物源性基因为靶标,自行设计16S rRNA基因通用引物,同时选用动物物种特异性引物进行PCR扩增,分别得到相应的目的片段。通过三对16S rRNA基因通用引物,建立了从食用植物油中快速检测是否含有动物源性成分的方法;利用所选的动物物种特异性引物,进一步建立了从食用植物油中鉴定猪、牛、羊、鸡、鱼5种动物源性成分的方法,此方法能检测出含有0.1%(m/m)动物源性成分的植物油。     

荧光PCR法检测畜禽肉中的鸡源性成分

为了建立畜禽肉中鸡源性成分荧光定量PCR检测方法,以鸡、鸭、鹅、猪、牛、羊、兔、鸽和鹌鹑等9种动物线粒体DNA 16S rRNA基因序列为靶位点,通过比对分析设计筛选出鸡特异性引物,以9种动物肌肉DNA为模板进行特异性扩增,确立荧光定量PCR扩增条件;同时将鸡DNA模板浓度进行10倍梯度稀释,一直稀释至108倍,检测所建立的荧光PCR方法的灵敏度;并用此方法对市场上样品进行随机抽检。结果显示:所设计的鸡引物仅对鸡肉DNA模板有典型扩增曲线,Ct值为22.11,对其它动物DNA模板无扩增,特异性较强;当鸡DNA模板稀释倍数达到104倍,即DNA浓度为17.5 pg/μL时,仍有典型扩增曲线,Ct值为30.37,方法灵敏度较高;市场流通环节样品抽检结果显示所抽测样品均合格。可见,建立的基于荧光定量PCR和线粒体DNA 16S rRNA基因的畜禽肉中鸡源性成分检测方法,快速而准确,实用性强。     

基于TaqMan实时荧光PCR检测鲜肉及加工肉制品中的驴源性成分

根据出入境检验检疫行业标准SN/T 3730.4—2013《食品及饲料中常见畜类品种的鉴定方法 第4部分：驴 成分检测 实时荧光PCR法》合成引物和探针,利用TaqMan实时荧光聚合酶链式反应（polymerase chain reaction, PCR）技术检测鲜肉及加工肉制品中的驴源性成分。首先对13 种不同动物鲜肉组织的DNA进行驴源性成分特异 性检测,然后对驴源性DNA模板原液进行梯度稀释,检测方法灵敏度,最后在加工肉制品中检测方法的适用性。 结果表明：本研究建立的方法特异性强,除驴肉外,牛、羊、猪、马、骆驼、鹿、狗、兔、鸡、鸭、鸽子、鹌鹑 12 种动物鲜肉组织均无特异性扩增;方法的灵敏度较高,驴组分DNA的检出限可达100 fg/μL,灵敏度可达0.01%; 方法的适用性较广,可以用于加工肉制品中驴源性成分的检测。     

Polymerase chain reaction assay for detection of sheep and goat meats

Polymerase Chain Reaction (PCR) was applied to a qualitative differentiation between sheep, goat and bovine meats. Oligonucleotide primers were designed for the amplification of sheep satellite I DNA sequence. The PCR amplified 374 bp fragments from sheep and goat DNA, but no fragment from bovine, water buffalo, sika deer, pig, horse, rabbit and chicken DNA. Sheep DNA (10 pg) was detected by 4% agarose gel electrophoresis following PCR amplification. Althoug cooking of the sample meats reduced the PCR products, sheep DNA was detected in the meat heated at 120°C. In order to differentiate between sheep and goat meats, nucleotide sequences of the PCR products were determined directly by cycle sequencing. The sequence of PCR products showed 92% of homology between sheep and goat. They were differentiated by ApaI digestion of the PCR products because sheep had one ApaI site and goat had no site in the PCR products.     

保健品中牛羊源性成分的PCR检测

本文根据牛、羊线粒体mtDNA中的保守序列，设计了针对牛羊源性成分检测的特异性扩增引物，通过聚合酶链反应技术(Polymerase Chain Reaction，PCR)建立了保健品中牛羊源性成分的快速检测方法。通过内切酶DpnⅡ和SspⅠ可分别对牛羊成分的扩增结果进行进一步验证，该方法对牛源性成分的检测低限为0．05％，对山羊和绵羊源性成分的检测低限分别为0．005％和和0．5％，可作为保健品中牛羊源性成分检测有效方法，也可作为保健品及动物源性产品中成分真伪鉴别的准确、可靠方法。     

A quick and simple method for the identification of meat species and meat products by PCR assay

The polymerase chain reaction (PCR) was applied to identify six meats (cattle, pig, chicken, sheep, goat and horse) as raw materials for products. By mixing seven primers in appropriate ratios, species-specific DNA fragments could be identified by only one multiplex PCR. A forward primer was designed on a conserved DNA sequence in the mitochondrial cytochrome b gene, and reverse primers on species-specific DNA sequences for each species. PCR primers were designed to give different length fragments from the six meats. The products showed species-specific DNA fragments of 157, 227, 274, 331, 398 and 439 bp from goat, chicken, cattle, sheep, pig and horse meats, respectively. Identification is possible by electrophoresis of PCR products. Cattle, pig, chicken, sheep and goat fragments were amplified from cooked meat heated at 100 or 120°C for 30 min, but horse DNA fragments could not be detected from the 120°C sample. Detection limits of the DNA samples were 0.25 ng for all meats.     

Polymerase chain reaction-based analysis to detect terrestrial animal protein in fish meal

The recent European bovine spongiform encephalopathy crisis has focused attention on the importance of adopting stringent control measures to avoid the risk of the diffusion of mad cow disease through meat meal-based animal feedstuffs. Potential adulteration of such feedstuffs with bone particles from terrestrial animals is determined by microscopic examination by law before the release of these feedstuffs for free circulation in the European Community. This study describes a DNA monitoring method to examine fish meal for contamination with mammalian and poultry products. A polymerase chain reaction (PCR) method based on the nucleotide sequence variation in the 12S ribosomal RNA gene of mitochondrial DNA was developed and evaluated. Three species-specific primer pairs were designed for the identification of ruminant, pig, and poultry DNA. The specificity of the primers used in the PCR was tested by comparison with DNA samples for several vertebrate species and confirmed. The PCR specifically detected mammalian and poultry adulteration in fish meals containing 0.125% beef, 0.125% sheep, 0.125% pig, 0.125% chicken, and 0.5% goat. A multiplex PCR assay for ruminant and pig adulteration was optimized and had a detection limit of 0.25%.     

食品中动物源性成分的多重PCR快速检测

目的利用多重PCR技术对市售的多种食品进行检测,确定动物源性成分的种类,进行掺假及真伪鉴别。方法对鸡、猪、牛、兔、绵羊、山羊、马、鹿8种动物源性产品进行DNA提取,根据不同动物线粒体DNA设计特异性引物,根据脊椎动物细胞色素b基因mt DNA序列设计通用引物作为内源参照,对8种动物源性产品的DNA进行多重PCR扩增,同时对多种成分进行鉴定。结果琼脂糖凝胶电泳表明,此方法能同时扩增出8种动物的特异性条带,检测灵敏度达到0.01%。结论所建立的鉴定多种动物源性成分的新方法,操作简便、快速准确,可为各检验机构对食品进行检测提供方法指导。     

利用线粒体DNA Cyt b基因PCR-RFLP分析方法鉴别羊肉和鸭肉

建立了一种利用线粒体DNA(mtDNA) Cyt b基因PCR-RFLP分析来鉴别羊肉和鸭肉的方法。采用一对通用引物扩增绵羊、山羊和鸭的mtDNACytb基因,并对扩增产物用DNA限制性内切酶Bsu36I和SpeI进行酶切,电泳分析酶切产物的变化。结果表明通用引物可扩增羊和鸭472bp的PCR产物,经两种内切酶酶切后,绵羊、山羊和鸭的PCR产物分别被切为大小不同的片段,其中绵羊和山羊被SpeI切为213bp和259bp,而鸭则被Bsu36I切为95bp和377bp。利用PCR-RFLP分析mtDNA Cyt b基因的方法操作简单,是一种快速鉴别羊肉和鸭肉的可靠方法。     

Determination of mitochondrial cytochrome B gene sequence for red deer (Cervus elaphus) and the differentiation of closely related deer meats

The cytochrome b gene sequence for red deer was determined using the Dye Terminator Cycle Sequencing method and used for identification of deer meat in meat and meat products. Red deer showed a similarity of 94.1, 84.0, 81.1, 85.5 and 85.6% to sika deer (Cervus nippon), bovine, pigs, sheep and goats, respectively. To differentiate the deer meat, oligonucleotide primers RD-1(5′-TCATCGCAGCACTCGCTATAGTACACT-3′), RD-2(5′-ATCTCCAAGTAGGTCTGGTGCGAATAA-3′) were designed for the region of the cytochrome b gene of red deer. The PCR amplified 194 bp fragments from red and sika deer, but no fragments from bovine, pig, chicken, sheep, goat, horse and rabbit DNA. Although cooking the meats reduced the PCR products, red deer could still be detected in meat heated at 120 °C. To discriminate between red and sika deer, these PCR products were digested by a restriction enzyme (EcoRI,BamHI,ScaI) and analyzed by 4% agorose gel electrophoresis. As a result, the red deer fragment was digested by EcoRI to 67/127 bp fragments but not by BamHI and ScaI. The sika deer fragment was digested to 48/146 bp and 49/145 bp fragments with the two other enzymes, and thus it is possible to differentiate between the two kinds of deer from the digestion pattern of restriction enzymes.     

Sequence analysis of mitochondrial 12S rRNA gene can identify meat species

In this study, sequence analysis of mitochondrial 12S rRNA has been applied for meat species identification. The procedure involves polymerase chain reaction (PCR) amplification of a fragment of mitochondrial (mt) 12S rRNA gene and sequencing of amplicons. Amplified product of mt 12S rRNA gene was 456 bp in size. Species sequenced include cattle (Bos indicus), buffalo (Bubalus bubalis), sheep (Ovis aries), goat (Capra hircus) and mithun (Bos frontalis). Sequences were compared with the reported sequences of low land anoa (Bubalus depressicornis), yak (Bos grunniens) and pig (Sus scrofa). There was no effect of routinely used additives or cooking temperature (72, 90, 120 and 180?°C) on the efficacy of PCR amplification. The closely related species like cattle and buffalo, sheep and goat could also be differentiated decisively by sequence analysis. Sequencing and analysis of mt 12S rRNA gene was, hence, found to be an ideal, authentic and unambiguous qualitative method for meat species identification.     

牛β-乳球蛋白胶体金免疫层析试纸条的研制及检测应用

研制了一种可快速检测羊乳及制品中牛源β-乳球蛋白(β-lactoglobulin,β-lg)的胶体金免疫层析试纸条。通过杂交瘤技术制备牛β-lg特异性单克隆抗体(monoclonal antibody,mAb),利用柠檬酸钠还原氯金酸,形成30 nm胶体金颗粒,并用于标记牛β-lgmAb。采用竞争法研制免疫层析试纸条,将胶体金标记的牛β-lgmAb包被于金标垫,牛β-lg和羊抗鼠IgG标记于硝酸纤维素膜分别作为检测线(T线)和质控线(C线),牛β-lg和二抗的最佳包被浓度均为1.0 mg/mL。制得的单克隆抗体纯度都在90%以上,效价均在10000以上且特异性较好。该试纸条对牛β-lg的检测限(limit of detection,LOD)值为3.13μg/mL,对牛源α-CN,牛源β-CN,牛源κ-CN,牛源α-LA,BSA均未产生交叉反应,对脱脂羊乳粉中掺杂脱脂牛奶粉的LOD值为5%,并用该方法对市售羊奶及配方羊奶粉进行分析,检测结果与商品化的ELISA试剂盒一致。该方法前处理快速简单,可在5 min内对牛β-lg进行检测,可用于羊乳制品的现场快速检测。     

基于单拷贝核基因的数字PCR定量检测肉制品中羊源性成分

GeneBank搜索牛、绵羊、山羊、猪、马、驴、鸡、鸭、鹅、火鸡、狗、猫、鼠、兔、貂等15种动物的单拷贝核基因组序列信息,应用生物信息学分析筛选15种动物共有的种间保守区域,设计一对可同时扩增15种动物源性DNA的内参基因引物和探针;同时分析筛选绵羊和山羊共有且和其余动物种内特异性区域,设计一对只能扩增羊源性DNA的特异性基因引物和探针。基于微滴数字PCR技术,引入内参基因校正羊种属特异性基因测定方法,建立科学准确的肉制品中羊源性成分量化判定方法。结果表明,所建立方法具有良好的特异性和通用性,内参基因和羊种属特异性基因的最低检出限分别为32和26 copies/μL,模拟添加样品的正确度偏差均值为8.66%,符合数字PCR方法制定指南要求不得大于25%,说明量化判定方法结果具有较高的准确性。