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.     

Identification of chicken,duck, pigeon and pig meat by species-specific markers of mitochondrial origin

In the present study, PCR based method for meat species identification of chicken, duck, pigeon and pig was achieved by developing species-specific markers. Using mitochondrial sequences species-specific primers were designed and the sizes of them were 256 bp, 292 bp, 401 bp and 835 bp for chicken, duck, pigeon and pig, respectively. The species-specific PCR products were sequenced to confirm the specificity of the product amplified. These markers were subsequently tested for cross amplification by checking them with beef, mutton, chevon, pork, rabbit, chicken, duck, turkey and pigeon meat. DNA markers developed in this study can help identify the species of fresh, cooked and autoclaved meat of chicken, duck and pigeon and fresh and cooked meat of pig. The process of identification is simple, economical and quick as compared to other methods such as RAPD, PCR-RFLP and sequencing method of species identification.     

Detection of meat species using TaqMan real-time PCR assays

Species-specific real-time PCR (TaqMan) assays were developed for detection of beef, pork, lamb, chicken and turkey. Assays were developed around small (amplicons <150 base pairs) regions of the mitochondrial cytochrome b (cytb) gene. Speciation was achieved using species-specific primers. For detection purposes, two TaqMan probes were developed; the first was specific to the mammalian species (beef, lamb and pork), the second to the poultry species (chicken and turkey). Normal end-point TaqMan PCR conditions were applied; however, PCR was limited to 30 cycles. Applying the assays to DNA extracts from raw meat admixtures, it was possible to detect each species when spiked in any other species at a 0.5% level. The absolute level of detection, for each species, was not determined; however, experimentally determined limits for beef, lamb and turkey were below 0.1%.     

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。     

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.     

Detection of chicken and turkey meat in meat mixtures by using real-time PCR assays

In this study, TaqMan-based real-time Polymerase Chain Reaction (PCR) techniques were developed for the detection of chicken and turkey meat in raw and heat-treated meat mixtures. Primers and TaqMan probe sets were designed to amplify 86 bp and 136 bp fragments for the chicken and turkey species, respectively, on the mitochondrial NADH dehydrogenase subunit 2 gene. In the results, it was possible to detect each species at the level of 0.1 pg template DNA with the TaqMan probe technique without any cross-reactivity with nontarget species (bovine, ovine, donkey, pork, and horse) while the detection level was 1 pg template DNA using conventional PCR. The TaqMan probe assays used in this study allowed the detection of as little as 0.001% level of both species in the experimental meat mixtures, prepared by mixing chicken and turkey meat with beef at different levels (0.001% to 10%). In conclusion, TaqMan probe assays developed in this research are promising tools in the specific identification and sensitive quantification of meat species even in the case of heat-treated meat products, and suitable for a rapid, automated, and routine analysis.     

基于COI序列的DNA微条形码技术鉴别熟肉制品中11种肉掺假的研究

建立并优化了基于COI序列的DNA微条形码技术(mini-barcoding)检测熟肉制品中11种常见肉类掺假的方法.样品经超声与真空冷冻干燥处理,提取DNA模板和PCR扩增后,目标扩增物经切胶纯化后进行克隆测序,并将测序结果提交GenBank数据库Blast比对.筛选出适合猪、牛、羊、鸡、鸭、鸽子、马、驴、鹅、兔、鼠...     

Differentiation of animal species in food by oligonucleotide microarray hybridization

Oligonucleotide microarray hybridization analysis of polymerase chain reaction (PCR) products from the mitochondrial cytochrome b gene DNA was applied to identify different animal species in meat and cheese food samples. A pair of universal primers binding to conserved regions of the vertebrate mitochondrial cytochrome b gene was used to amplify a 377 bp fragment with internal regions of high inter-species variability. PCR products of cattle, pig, chicken, turkey, sheep and goat were unequivocally identified by hybridization with species-specific probe sequences immobilized on an oligonucleotide microarray. In meat samples, 0.1% admixtures of beef or chicken meat were still detectable. By using this new PCR-based DNA chip hybridization for the analysis of 24 commercial food samples from routine control, the simultaneous species composition of mixtures with up to four different species could be determined in a single experiment. The results agreed well with those from the reference methods performed at the local food control authority, which are a combination of enzyme-linked immunosorbent assay (ELISA), species-specific PCR and PCR–RFLP (restriction fragment length polymorphism). Thus, the DNA chip hybridization analysis of cytochrome b PCR products offers a new way for rapid and sensitive species differentiation in food.     

Quantitative Detection of Poultry in Cooked Meat Products

ABSTRACT: There is a growing awareness of perceived harm from meat species adulteration, both intentional and accidental. The present study developed a monoclonal antibody (Mab)-based enzyme-linked immunosorbent assay (ELISA) for the quantitative detection of chicken and turkey meat adulterated in cooked (100 °C, 15 min) mammalian meat. The specificity of Mab 5D2 to different species (pork, beef, lamb, deer, horse, duck, chicken, and turkey) and tissues (serum, gizzard, heart, and liver) was studied by noncompetitive ELISA. The detection of cooked chicken in beef, and turkey in pork was accomplished by competitive and noncompetitive ELISAs. Both ELISAs were optimized to quantify cooked poultry in red meats. The new Mab-based ELISAs enabled the detection of cooked poultry in red meats at levels as low as 1% (v/v) or better. The correlation ( r > 0.994) between chicken or turkey concentrations and ELISA signals permitted the quantification of poultry adulterants in cooked non-poultry meats.     

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.     

Rapid detection of chicken and turkey in heated meat products using the polymerase chain reaction followed by amplicon visualisation with vistra green

A rapid and highly specific assay suitable for the routine detection of turkey and chicken in processed meat products has been developed. Based on PCR amplification of species-specific amplicons with rapid visualisation using vistra green, the assay may be completed within 5 h of receipt of sample. DNA was isolated from meat samples by the use of Wizard DNA isolation technology and followed by DNA amplification in the polymerase chain reaction using species specific primers, chicken forward (CF), chicken reverse (CR), turkey forward (TF) and turkey reverse (TR): the production of an amplicon was detected after the end of the PCR in less than 5 min using vistra green and a fluorescence plate reader. The presence of fluorescence denoted the presence of the target species in the sample.     

Species-specific multiplex real-time PCR assay for identification of deer and common domestic animals

A multiplex real-time PCR method for discriminating deer and common domestic species, including cattle, goat, horse, donkey, pig, and chicken was developed. Species-specific primer pairs were designed and used to produce different size DNA fragments with diverse melting temperature (T _m ) values. The specificity and sensitivity of these primer pairs were separately confirmed using simplex real-time PCR analysis. Multiplex real-time PCR analysis was performed using combined primers, yielding distinct melting curve profiles for each species. The sensitivity limit of the multiplex PCR method was evaluated. Trace DNA of other species in deer DNA could be identified. Common deer products, including blood, meat, and antler were tested using this multiplex PCR method and different species of deer and domestic animals were identified. The rapid multiplex real-time PCR assay described herein is a specific, sensitive, and reliable method for high-throughput authentication of deer and domestic animal products.     

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.     

实时定量PCR法对牛肉中鸡源性成份的量化检测

目的实现样品中牛源性成份和鸡源性成份的量化分析。方法通过在基因组单拷贝基因上设计引物,绘制模板DNA扩增标准曲线以及确定牛肉、鸡肉质量与DNA浓度的比值常数,利用实时荧光定量PCR技术对四种不同掺混比例的牛鸡瘦肉混合样本中牛源性成份和鸡源性成份所占的质量百分比含量进行分析。结果通过荧光实时定量PCR反应的Ct值、模板DNA扩增标准曲线和质量与DNA的比值常数可以计算出样品中所含牛源性成份和鸡源性成份的质量百分比含量,检测值与理论值之间的绝对误差可控制在5%以内,量化研究结果基本准确。结论对于组织成份单一的样品,可以通过在基因组单拷贝基因上设计特异性的引物,利用PCR技术实现在质量水平上对食品中动物源性成份的量化分析,该技术方法的建立可以为肉类掺假监管工作提供有力的技术支撑。     

Rapid species identification in meat by using satellite DNA probes

A fast procedure for species identification in heated meat is described. Deoxyribonucleic acid (DNA) was isolated from meat samples by an alkaline extraction method and hybridized to a conjugate of a specific oligonucleotide and alkaline phosphatase. The oligonucleotide probes are based on satellite DNA, tandem-repeated sequences, which are highly specific for species. Probes are developed for the identification of meat from cattle, sheep/goat, horse, deer, pig, chicken and turkey. Differentiation between closely related species like chicken and turkey is possible. Admixtures of 1–5% of meat of one species in another could be detected. The complete assay of up to 50 samples takes 4 h. Heated meat samples could be analysed.     

Quantification of beef,pork, chicken and turkey proportions in sausages: use of matrix-adapted standards and comparison of single versus multiplex PCR in an interlaboratory trial

Quantitative PCR methods for the determination of beef, pork, chicken and turkey proportions in sausage were tested in an interlaboratory trial. Twelve different laboratories analysed six meat products each made of different compositions of beef, pork, chicken and turkey. Two kinds of calibrators were used: sausages of known proportions of meat and DNA from muscle tissue. Results generated using calibration sausages were more accurate than those resulting from the use of muscle tissue DNA. Regardless of the method used (either multiplex or single PCR), when using calibration sausages, it was always possible to quantify the proportions of meats in the unknown samples (in the range of 0.5–80%) with high precision and accuracy.     

Multiplex real-time PCR for the detection and quantification of DNA from beef, pork, chicken and turkey

Many meat products are composed of two or more meat species. To determine the proportion of these meat fractions, a quantitative multiplex PCR was developed for the quantification of beef, pork, chicken and turkey. This system proved its applicability, precision and accuracy in examining different meat products from the market. Thus it allows the efficient control of composed meat products in official food control and production control laboratories.     

肉制品中牛源性成分多重实时荧光PCR检测 方法的建立及初步应用

目的建立肉制品中牛源性成分的荧光PCR检测方法。方法根据牛特异性线粒体DNA片段,设计合成两对引物,以生、熟牛肉及超市牛肉加工品为材料,建立肉制品中牛源性成分的多重实时荧光PCR检测方法,并用该法与国标法同时对市售的25份肉制品同时进行检测,通过对其他种类的肉源DNA进行扩增验证方法的特异性;对含有不同比例牛肉成分的DNA样本进行检测确定检出限。结果该方法可成功检测出肉制品中的牛源性成分。在25份肉制品检测中,与国标法检测结果一致。该法的特异性为100%,灵敏度检测线为1%。结论本研究成功建立牛源性肉制品的检测方法,该方法快速简便,且具有较高的特异性和灵敏度,可用于市售肉制品中牛源性成分的鉴定。     

Species identification in food products using the bioMerieux FoodExpert-ID<Superscript>®</Superscript> system

Animal feeds and meat mixtures were analysed using the bioMerieux FoodExpert-ID^® system. The system utilises a reverse dot technique on a DNA microarray to allow the identification of over 30 species of fish, birds and mammals. DNA is amplified by PCR (polymerase chain reaction) then hybridised to the microarray chip. Using this technique, turkey and chicken were correctly identified in 100% of feed samples that contained these species above a level of 0.1%. Pig, lamb and cow could not be reliably detected below a level of 1% in feed samples. For meat mixtures, a level of 0.2% pork or chicken could be correctly identified when mixed with 50% beef or pork, respectively. When a baked or canned meat mixture was investigated, a level of 5% pork, beef or chicken could be correctly identified, following either process. The bioMerieux FoodExpert-ID^® system can therefore be used as a general screen to identify likely species present in a sample, the level of which can be confirmed using other methods.