一种基于实时荧光聚合酶链式反应的肉及肉制品中猪源性成分含量测定

为了建立一种基于实时荧光聚合酶链式反应的肉及肉制品猪源性成分含量测定方法,分别以猪线粒体DNA的NADH4基因和16S rRNA基因为靶位点设计猪特异性引物、探针和通用引物、探针,建立猪源性成分含量测定方法,通过特异性、灵敏性、线性、准确度及市售肉制品检测,对该方法体系进行检验和评价.结果表明:建立的猪源性成分含量实时荧光聚合酶链式反应测定方法体系具有良好的特异性及灵敏性,最低可检测到0.4pg/μL纯猪肉DNA;无论是猪特异性体系还是通用体系都呈现良好的线性关系(R2均达到0.999以上)和较宽的线性范围;通过含猪源性成分的模拟混合肉样检测,样品猪源性成分含量的回收率平均值为122.27％,说明该方法具有较高的准确度;通过市售肉制品检测表明该方法可以用来检测实际样品(包括生鲜样品和熟肉样品)中猪源性成分含量.     

Ready-to-use single tube quadruplex PCR for differential identification of mutton,chicken, pork and beef in processed meat samples

ABSTRACT

A reliable and sensitive identification method is required to tackle food adulteration mainly in meat production. We developed a dry reagent based ready-to-use single tube quadruplex PCR assay for accurate identification of chicken, mutton, beef and pork. The assay was found to be specific and reproducible. Thermo-stability studies of lyophilized PCR master mix were conducted at different temperature and time intervals, which revealed significant stability for 75 days at 4°C and for 60 days at 25°C. The developed assay was shown to be sensitive down to 16 pg DNA per reaction and the detection limit was found to be 0.01% (w/w) of each species. Furthermore, this method has been applied to the analysis of 68 commercial meat products and the results indicated that nine samples contained non-declared meat components. This dry reagent-based quadruplex PCR assay can be utilized to monitor various processed food products and also to maintain quality control in food industries mainly in the resource-limited settings.     

Species identification in meat products using real-time PCR

One of the most convenient methods for the identification of animal species in processed meat products is the examination of DNA sequences. Real-time polymerase chain reaction (qPCR) techniques are particularly suitable because even small fragments of DNA formed during heat processing of the meat can be amplified and identified. A real-time PCR method has been developed and evaluated for the identification of processed meat products. In test mixtures containing beef, pork, horse, mutton, chicken and turkey, it was possible to identify these species down to a level of 0.05%. By adjusting the number of cycles, it was possible to detect levels as low as 0.01% of these species. Cross-reactivity between these species was not found, except for pure horsemeat (250 ng DNA) in the assay for turkey meat. Cross-reactivity of deer, roe, ostrich, kangaroo, goat, domestic duck, mallard, goose, pigeon, guinea fowl, quail and pheasant was also investigated and it was found that amounts as high as 250 ng DNA of these species in the reaction vial did not result in (false) positive signals except for amounts higher than 125 ng deer DNA and higher than 50 ng pigeon DNA in the determination of chicken and beef, respectively. More than 150 meat samples were examined using DNA hybridization and real-time PCR. A comparison of the results showed a better performance of the real-time procedure compared to DNA hybridization.     

Species identification in meat products using real-time PCR

One of the most convenient methods for the identification of animal species in processed meat products is the examination of DNA sequences. Real-time polymerase chain reaction (qPCR) techniques are particularly suitable because even small fragments of DNA formed during heat processing of the meat can be amplified and identified. A real-time PCR method has been developed and evaluated for the identification of processed meat products. In test mixtures containing beef, pork, horse, mutton, chicken and turkey, it was possible to identify these species down to a level of 0.05%. By adjusting the number of cycles, it was possible to detect levels as low as 0.01% of these species. Cross-reactivity between these species was not found, except for pure horsemeat (250 ng DNA) in the assay for turkey meat. Cross-reactivity of deer, roe, ostrich, kangaroo, goat, domestic duck, mallard, goose, pigeon, guinea fowl, quail and pheasant was also investigated and it was found that amounts as high as 250 ng DNA of these species in the reaction vial did not result in (false) positive signals except for amounts higher than 125 ng deer DNA and higher than 50 ng pigeon DNA in the determination of chicken and beef, respectively. More than 150 meat samples were examined using DNA hybridization and real-time PCR. A comparison of the results showed a better performance of the real-time procedure compared to DNA hybridization.     

Species identification in meat products using real-time PCR.

One of the most convenient methods for the identification of animal species in processed meat products is the examination of DNA sequences. Real-time polymerase chain reaction (qPCR) techniques are particularly suitable because even small fragments of DNA formed during heat processing of the meat can be amplified and identified. A real-time PCR method has been developed and evaluated for the identification of processed meat products. In test mixtures containing beef, pork, horse, mutton, chicken and turkey, it was possible to identify these species down to a level of 0.05%. By adjusting the number of cycles, it was possible to detect levels as low as 0.01% of these species. Cross-reactivity between these species was not found, except for pure horsemeat (250 ng DNA) in the assay for turkey meat. Cross-reactivity of deer, roe, ostrich, kangaroo, goat, domestic duck, mallard, goose, pigeon, guinea fowl, quail and pheasant was also investigated and it was found that amounts as high as 250 ng DNA of these species in the reaction vial did not result in (false) positive signals except for amounts higher than 125 ng deer DNA and higher than 50 ng pigeon DNA in the determination of chicken and beef, respectively. More than 150 meat samples were examined using DNA hybridization and real-time PCR. A comparison of the results showed a better performance of the real-time procedure compared to DNA hybridization.     

Application of the novel Droplet digital PCR technology for identification of meat species

The authenticity and traceability of meat products are issues of primary importance to ensure food safety. Unfortunately, food adulteration (e.g. the addition of inexpensive cuts to minced meat products) and mislabelling (e.g. the inclusion of meat from species other than those declared) happens frequently worldwide. The aim of this study was to apply a droplet digital PCR assay for the detection and quantification (copies μL⁻¹) of the beef, pork, horse, sheep, chicken and turkey in meat products. The analysis conducted on commercial meat showed the presence of traces of DNA from other animal species than those declared. We show that the method is highly sensitive, specific and accurate (accuracy = 100%). This method could be adopted by competent food safety authorities to verify compliance with the labelling of meat products and to ensure quality and safety throughout the meat supply chain, from primary production to consumption.     

Quantitative detection of poultry meat adulteration with pork by a duplex PCR assay

A species-specific duplex polymerase chain reaction (PCR) assay was developed for the simultaneous detection of pork and poultry meat species using the mitochondrial cytb and 12S rRNA as target genes for pork and poultry, respectively. By the amplification of binary reference meat mixtures, a linear normalised calibration curve was obtained using the fluorescence intensities of PCR products for pork (149 bp) and poultry (183 bp) species. The proposed method allowed the quantification of pork meat addition to poultry meat in the range of 1–75%, with a sensitivity of 0.1%. The in-house validation using samples with known amounts of pork meat (1.0%, 2.5%, 7.5%, 20.0% and 40%) evidenced a high reproducibility of the methodology (coefficient of variation from 4.1% to 7.6%). The successful application of the duplex PCR was also demonstrated by the high correlation (R² = 0.99) obtained from regression analysis between the predicted and the actual values of pork meat addition in blind meat mixtures. The suggested methodology presents a low cost, fast, easy and reliable alternative to estimate the level of poultry meat adulteration by the addition of pork meat.     

Polymerase chain reaction assay for identification of chicken in meat and meat products

The aim of this study was to develop polymerase chain reaction (PCR) assay for specific detection of chicken meat using designed primer pair based on mitochondrial D-loop gene for amplification of 442 bp DNA fragments from fresh, processed and autoclaved meat and meat products. The PCR result was further verified by restriction digestion with HaeIII and Sau3AI enzymes for specific cutting site in amplified DNA fragments. The specificity of assay was cross tested with DNA of cattle, buffalo, sheep, goat, pig, duck, guinea fowl, turkey and quail, where amplification was observed only in chicken without cross reactivity with red meat species. However positive reaction was also observed in quail and turkey. In this study, no adverse effects of cooking and autoclaving were found on amplification of chicken DNA fragments. Thus, the detection limits was found to be less than 1% in admixed meat and meat products. The developed assay was found specific and sensitive for rapid identification of admixed chicken meat and meat products processed under different manufacturing conditions.     

Identification of meat species by TaqMan-based real-time PCR assay

In this study, a convenient, sensitive and specific real-time PCR assay was described for the species identification and their quantification in raw and cooked meat products. Specific primers and TaqMan probes were designed on the mitochondrial ND2, ND5 and ATP 6-8 genes for donkey, pork and horse, respectively, and the performance of the method was tested. In the results, no cross-reaction was observed between the donkey and pork species specific primer-probe systems and non-target species (bovine, ovine, chicken and turkey). Only one cross reaction was observed between the horse species specific primer-probe set and 100 ng pork DNA at the ct 33.01 level (corresponding to 0.01 ng horse DNA). The real-time quantitative assay used in this study allowed the detection of as little as 0.0001 ng template DNA from pure meat for each species investigated and experimental meat mixtures. In conclusion, it can be suggested that the TaqMan probe assay used in this research might be a rapid and sensitive method for the routine meat species identifications studies in raw or cooked meat products.     

Meat species identification and Halal authentication using PCR analysis of raw and cooked traditional Turkish foods

The method performance characteristics of commercially available PCR kits for animal species identification were established. Comminuted meat products containing different levels of pork were prepared from authentic beef, chicken, and turkey. These meat products were analysed in the raw state and after cooking for 20 min at 200 °C. For both raw and cooked meats, the PCR kit could correctly identify the animal species and could reliably detect the addition of pork at a level below 0.1%. A survey of 42 Turkish processed meat products such as soudjouk, salami, sausage, meatball, cured spiced beef and doner kebap was conducted. Thirty-six samples were negative for the presence of pork (< 0.1%) and four were found to be correctly labelled as containing pork. However, one sausage sample was labelled as containing 5% beef, but beef DNA was not detected and a meatball sample labelled as 100% beef was found to contain chicken. Another turkey meatball sample was predominantly chicken.     

Semiquantitative detection of male pork tissue in meat and meat products by PCR

Consumer awareness has increased concerning castration of piglets without analgesia or anaesthesia. On the other hand the occurrence of boar taint is not tolerated by consumers. Currently no reliable methods exist for the on-line detection of boar taint in the slaughterhouse or for genetic sexing of pigs. Therefore, as an alternative the detection of male pork meat was sought. Based on detection of a length polymorphism of the sex chromosomal amelogenin gene a reliable, specific and highly sensitive PCR method for qualitative and semi-quantitative determination of male pork tissue in meat and meat products was determined. A set of 25 male and 25 female meat samples could be correctly identified and mixtures with as little as 0.1% male meat content could be detected. Therefore the method can be used for production and control of specific meat products containing low amounts of male pork meat and thus avoiding boar taint.     

Duplex PCR approach for the detection and quantification of donkey,horse and mule in raw and heat‐processed meat products

Donkey‐related products have been paid more attention for their high nutritional value to human beings. Due to donkey resource scarcity, coupled with gradually increasing market demand, adulterated donkey meat products with other low‐cost animal meat, especially with the similar species horse and mule, are often found in market. Therefore, detection of species fraud in donkey meat products is important for consumer protection and food industries. In this study, a simple and highly specific duplex PCR method, based on the simultaneous amplification of fragments of the mitochondrial ATP synthase subunit 8/6 and ND2, was developed and optimised for the identification of horse, donkey and mule species in raw and heat‐processed meat products. To the best of our knowledge, it was the first time for this strategy applied to these three genetically related animal meat products differentiation to date. The duplex PCR generated a 153‐bp and 83‐bp amplification products for horse and donkey, respectively. While for mule, both of the two length amplification products are appeared on the agarose gel. Target meat species could be detected at a level of 1%, and the results indicated that the duplex PCR assay could be used in the authentification of donkey‐related products with high specificity, cost‐effectiveness and simplicity.     

Identification of hare meat by a species-specific marker of mitochondrial origin

Meat species identification in food has gained increasing interest in recent years due to public health, economic and legal concerns. Following the consumer trend towards high quality products, game meat has earned much attention. The aim of the present work was to develop a DNA-based technique able to identify hare meat. Mitochondrial cytochrome b gene was used to design species-specific primers for hare detection. The new primers proved to be highly specific to Lepus species, allowing the detection of 0.01% of hare meat in pork meat by polymerase chain reaction (PCR). A real-time PCR assay with the new intercalating EvaGreen dye was further proposed as a specific and fast tool for hare identification with increased sensitivity (1 pg) compared to end-point PCR (10 pg). It can be concluded that the proposed new primers can be used by both species-specific end-point PCR or real-time PCR to accurately authenticate hare meat.     

用Cytb基因序列分析鉴定肉制品掺假

目的采用Cytb基因进行肉制品真伪鉴定的尝试性探索。方法随机采集21份肉制品样品,首先采用CTAB法方法提取样品DNA,基于Cytb基因的通用引物对21份样品DNA进行PCR扩增,把扩增产物进行测序,然后采用DNAMAN软件进行序列的比对分析。结果 CTAB方法适合肉制品的DNA提取。10份牛肉样品中9份与标注吻合,1份检测出是猪肉;2份羊肉样品中1份与标注吻合,1份检测是猪肉;2份猪肉样品中1份与标注吻合,1份检测是鸡肉;1份鸡肉样品与标注吻合;6份牦牛肉样品中2份与标注吻合,4份检测是水牛肉。结论用Cytb基因序列分析比对方法适合肉制品的真伪鉴定,市场上肉制品存在掺假问题。     

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。     

市售生肉的肉品品质检验

从肉品食用的意义出发,阐述了肉品品质高低的重要性,调查了太原市五龙口农贸市场上的生猪肉品,进行了物理学识别来判定其肉品品质,结合了硫酸铜球蛋白沉淀法、过氧化物酶测定实验及微生物毒素呈色反应来最终判定其品质,最后对结果进行了讨论。     

PCR方法快速鉴别食品中肉的种类

本文针对食品中肉成分种类鉴别开发了一种快速灵敏的PCR检测方法,可检测食品中是否存在猪肉、牛肉、羊肉以及鸡肉等成分。采用微波助提法提取样品中DNA,简化了前处理步骤,可在短时间内完成从多种不同类型肉与肉制品中提取肉成分DNA。为了评价方法的可靠性与灵敏度,猪肉以及掺入了不同比例浓度猪肉成分的食品样品采用本方法进行了核酸提取与PCR分析。检测结果表明,方法可检测出低至含有0.5%浓度的猪肉成分的混合样品。随机抽取50份不同类型的市面食品样品,检测出5份食品含有猪肉成分,7份食品中含有牛肉成分,5份食品中含有羊肉成分。该样品前处理方法、DNA提取方法以及PCR检测方法可广泛应用于食品中肉成分种类的检测鉴别。     

驴肉及其制品真伪鉴别技术研究进展

驴肉及其制品因具有极高的营养价值和独特的味道而深受人们喜爱。因其价格居高不下,市场上存在商贩掺假销售问题,极大侵犯了消费者的合法权益甚至危害身体健康,且扰乱了市场诚信。目前,中国尚未建立驴肉产品质量监督检测标准。因此,迫切需要建立一种简单、快速、准确的驴肉产品检测方法。近几年来,聚合酶链反应(polymerase chain reaction,PCR)及其衍生技术成为鉴别驴制品真伪的研究热点,新兴的DNA条形码和数字PCR技术也具有较大的应用潜力。本文综述了驴肉及其制品的形态、代谢物、蛋白质、核酸检测方法的研究进展,这些方法主要包括光谱法、色谱法、酶联免疫吸附法、PCR及其衍生技术等。     

Identification of novel peptides for horse meat speciation in highly processed foodstuffs

There is a need for robust analytical methods to support enforcement of food labelling legislation. Proteomics is emerging as a complementary methodology to existing tools such as DNA and antibody-based techniques. Here we describe the development of a proteomics strategy for the determination of meat species in highly processed foods. A database of specific peptides for nine relevant animal species was used to enable semi-targeted species determination. This principle was tested for horse meat speciation, and a range of horse-specific peptides were identified as heat stable marker peptides for the detection of low levels of horse meat in mixtures with other species.     

Identification of pork genome in commercial meat extracts for Halal authentication by SYBR green I real‐time PCR

The identification of pork DNA in meat extracts is very important for Halal authentication and Muslim consumers demand protection from falsely labelled meat products. A pig‐specific SYBR green I real‐time PCR assay has been developed to address this issue. Using specific primers for pig mitochondrial DNA, successful amplification has been obtained by DNA extracted from control meat samples. With SYBR green I real‐time PCR, the specificity of the amplification was showed by Tm value. Detection limit of the real‐time PCR was down to 0.1 ng of porcine DNA. An appropriate linearity was obtained by construction of a standard curve based on Ct value and different concentrations of porcine DNA. By conventional PCR, no amplification was shown by porcine DNA less than 0.1 ng. The established method was conducted on commercially available meat extracts for detection and quantification of porcine DNA. The results showed the SYBR green I real‐time PCR could be considered a robust method for Halal authentication of meat extracts.