Development and application of DNA analytical methods for the detection of GMOs in food

The principle of direct detection of recombinant DNA in food by the polymerase chain reaction (PCR) is discussed following the three main steps: DNA-extraction, amplification by PCR and verification of PCR products.

Suitable methods for genomic DNA isolation from homogenous, heterogeneous, low DNA containing matrices (e.g. lecithin), gelatinising material (e.g. starch), derivatives and finished products based on classical protocols and/or a combination with commercially available extraction kits are discussed. Various factors contribute to the degradation of DNA such as hydrolysis due to prolonged heat-treatment, nuclease activity and increased depurination and hydrolysis at low pH. The term “DNA quality” is defined as the degree of degradation of DNA (fragment size less than 400 bp in highly processed food) and by the presence or absence of potent inhibitors of the PCR and is, therefore, a key criterion. In general, no DNA is detectable in highly heat-treated food products, hydrolysed plant proteins (e.g. soya sauce), purified lecithin, starch derivatives (e.g. maltodextrins, glucose syrup) and defined chemical substances such as refined soya oil.

If the nucleotide sequence of a target gene or stretch of transgenic DNA is already known specific primers can be synthesised and the segment of rDNA amplified. Detection limits are in the range 20 pg–10 ng target DNA and 0.0001–1% mass fraction of GMO. Amplification products are then separated by agarose gel electrophoresis and the expected fragment size estimated by comparison with a DNA molecular weight marker.

Several methods are used to verify PCR results and they vary in reliability, precision and cost. They include specific cleavage of the amplification products by restriction endonucleases or the more time-consuming, but also more specific, transfer of separated PCR-products onto membranes (Southern Blot) followed by hybridisation with a DNA probe specific for the target sequence. Alternatively, PCR products may be verified by direct sequencing. Nested-PCR assays combines high specificity and sensitivity.

Methods for the screening of 35S-promoter, NOS-terminator and other marker genes used in a wide range of GMOs, the specific detection of approved products such as FlavrSavr™ tomatoes, Roundup Ready™ Soya, Bt-maize 176 and official validated methods for potatoes and genetically modified micro-organisms, that have a model character, are available. Methods to analyse new GMO products are being validated by interlaboratory tests and new techniques are in development (e.g. EC project: DMIF-GEN). However, these efforts may be hampered by the lack of availability of GMO reference material as well as specific sequence information which so far can only be obtained from the suppliers.     

Results of an interlaboratory assessment of a screening method of genetically modified organisms in soy beans and maize

The preliminary results on an interlaboratory trial on the detection of genetically modified organisms (GMO) are presented. The method applied is based on the detection of modified DNA using the polymerase chain reaction (PCR) for amplification. The amplified fragments analysed are derived from the 35S promotor and the NOS terminator used for modification and are present in 26 from the 28 GMOs currently already approved or under approval by the competent authorities. This method fits as a screening method indicating the presence of GMO in food. However, it does not allow an identification of the kind of GMO present in the samples. Samples of soybean and maize flour containing 0%, 0.1%, 0.5% and 2% GMO had been prepared for this study and are also already commercially available. In this paper the combined results from 27 laboratories are presented, indicating that on average the probability of false positive or false negative results is only about 1% for soybeans and below 5% for maize.     

Quantitative competitive PCR for the detection of genetically modified organisms in food

Present polymerase chain reaction (PCR) detection methods only allow the qualitative detection of GMO in food without quantitation of the GMO content. Clearly, the availability of quantitative detection methods for GMO analysis is an important prerequisite for the introduction of threshold limits for GMOs in food. PCR is well known to be quantitative if internal DNA standards are co-amplified together with the target DNA. This quantitative competitive (QC) PCR was first described in the early nineties and is widely used nowadays.

We have developed and evaluated QC–PCR systems for the quantitative detection of Roundup Ready^TM soybean (RRS) and Maximizer maize (MM) in food samples. Three DNA fragments differing from the GMO specific sequences by DNA insertions were constructed and used as internal standards in QC–PCR. These standards were calibrated by co-amplifying with mixtures containing defined amounts of RRS DNA and MM DNA, respectively. The calibrated QC–PCR systems were applied to several commercial food samples containing RRS and to three certified RRS flour mixtures (Fluka standards). Recently, quantitative methods for the detection of RRS were successfully tested in a collaborative study involving twelve European control laboratories. Thus, QC–PCR methods will allow to survey “de minimis thresholds” of GMOs in food.     

Membrane based detection of genetically modified organisms in some representatives food

Recently, DNA-based techniques became very common for the detection of genetically modified organisms (GMOs) in food products. For rapid and easy detection of GMOs, polymerase chain reaction (PCR) screening methods, which amplify common transgenic elements, are applied in routine analysis. Incorporation of PCR and membrane method introduced in this study offer an alternative detection of GMOs. In this study, a total of 32 samples and three certified reference materials were tested for the existence of the 35S promoter of cauliflower mosaic virus (CaMV) and 5-enol-pyruvyl-shikimate-3-phosphate synthase (EPSPS) gene residues. Dot blot screening system introduced in this study can be routinely used as a semi-quantitative screening of GMOs.     

Event-specific qualitative and quantitative PCR detection of LY038 maize in mixed samples

With the development of genetically modified organisms (GMOs), labeling regulations have been introduced, which require appropriate detection methods. Event-specific qualitative and quantitative PCR detection methods have become the internationally agreed state-of-art. This paper describes the characterization and event-specific quantitative detection of LY038 maize insert with the application of reference molecule. The flanking regions were characterized by Inverse-PCR (I-PCR). Furthermore, the event-specific PCR primers and TaqMan probe were designed based on the discovered right flanking sequence. In the qualitative PCR assay, two PCR systems were established with the event-specific and specie-specific primers respectively, and the limit of detection (LOD) was 0.1% (approximates to 37 haploid genome copies). In the quantitative TaqMan real-time PCR assay, a reference molecule was constructed by recombinant PCR and standard curves were set up. By using the reference molecule, we obtained standard curves with good linearity and relatively high efficiency of PCR reaction. The results indicated the usability of the plasmid as standard material. From above results, we believed that the established event-specific qualitative and quantitative PCR systems for LY038 maize in this study were acceptable and suitable for LY038 maize detection in mixed samples.     

Fluorophore double stranded probe-multiplex quantitative PCR method for detecting transgenic component of promoter derived from Cauliflower Mosaic Virus and nos terminator derived from Agrobacterium tumefaciens simultaneously

The article is to establish multiplex PCR method for quantitative detecting transgenic component promoter derived from Cauliflower Mosaic Virus (CaMV 35S) and nos terminator derived from Agrobacterium tumefaciens (Tnos) in foods. According to the specific sequence of CaMV 35S and Tnos which have been used in genetically modified organisms (GMOs) frequently, and the sequence of soybean endogenous lectin gene, three pairs of primers and corresponding fluorophore double stranded probes (FDSP) were designed to allow for quantitative detecting of GMOs. FDSP designed with maximal specificity also showed the greatest detection sensitivity, and the ease in design, the simple single-dye labeling chemistry. FDSP-multiplex quantitative PCR (FDSP-MQPCR) methods were established for the detection of transgenic component CaMV 35S and Tnos simultaneously. Ten soybean flour samples were tested with FDSP-MQPCR method. The method gives five positive-samples with quantitative results in 5 h, and accuracy rate is above 97.0%. The described methods enabled a sensitive, specific, simple, and accurate detection of transgenic component and thus provide a useful tool for quantitative analysis of raw and processed food products. FDSP-MQPCR method has not only improved detection efficiency and result credibility, but also has guaranteed the better accuracy and repetitiveness.     

A general multiplex-PCR assay for the general detection of genetically modified soya and maize

The use of genetically modified organisms (GMOs) as food and in food products is becoming more and more widespread. The European Union has implemented a set of very strict procedures for the approval to grow, import and/or utilize GMOs as food or food ingredients. Thus, analytical methods for the detection of GMOs are necessary in order to verify compliance with labelling requirements. In the past few years, different PCR-based methods for the specific detection of the most economically important GMOs have been proposed. A molecular screening method based on multiplex-PCR that involves amplification of specific soya or maize sequences from plant DNA and the amplification of 35S promoter and NOS terminator for the detection of genetically modified soya and maize was developed. The m-PCR assay discriminated the GMO very quickly, reproducibly and in a cost saving and less time-consuming way. It is a flexible assay to conduce a preliminary GMO screening for detection of genetically modified soya and maize.     

A multiplex nested PCR assay for the simultaneous detection of genetically modified soybean,maize and rice in highly processed products

The use of genetically modified organisms (GMOs) as food products becomes more and more widespread. The European Union has implemented a set of very strict procedures for the approval to grow, import and/or utilize GMOs as food or food ingredients. Thus, analytical methods for detection of the GMOs are necessary in order to verify compliance with labeling requirements. There are few effective screening methods for highly processed GM (genetically modified) products. Four genes (CP4-EPSPS, Cry1A(b), BAR, and, PAT) are common exogenous genes used in commercialized transgenic soybean, maize, and rice. In the present study, a multiplex nested polymerase chain reaction (PCR) method was developed to simultaneously detect the four exogenous genes and one endogenous gene in two runs. We tested eleven representative highly processed products samples (soya lecithin, soya protein powder, chocolate beverage, infant rice cereal, soybean refine oil, soybean salad oil, maize oil, maize protein powder, maize starch, maize jam) using the developed method, and amplicons of endogenous gene and transgenic fragments were obtained from all the processed products except for soybean refined oil, soybean salad oil and maize oil, and the sensitivity was 0.005%. These results indicate that multiplex nested PCR is appropriate for qualitative detection of transgenic soybean, maize and rice in highly processed products except for refined oil.     

Applicability of a novel reference molecule suitable for event-specific detections of maize NK603 based on both 5′ and 3′ flanking sequences

Plasmid molecule based reference material (RM) has been shown to be a good alternative as the calibrator for genetically modified organisms (GMOs) identification and quantification, while most of the currently developed plasmid RM can only be used for one specific target detection. In this study, a flexible plasmid RM pNK containing three DNA fragments, i.e. 5′ and 3′ event-specific sequences of maize NK603 and endogenous gene zSSIIb, was developed. We have proved that pNK is suitable for using as a calibrator in both 5′ and 3′ event-specific detection of maize NK603, compared with that of genuine genomic DNA. The limit of detection (LOD) was 10 copies of pNK DNA in conventional PCR assays. The absolute LOD and limit of quantification (LOQ) in quantitative PCR assays were 5 and 25 copies. The standard curves targeting to zSSIIb, 5′ and 3′ event-specific sequences based on pNK DNA showed high reaction efficiency and good linearity. Also, low bias and variations were obtained in practical samples quantification using pNK as the calibrator. These results demonstrated that the developed pNK is flexible and suitable for identification and quantification of maize NK603, as a preferable substitute of RM from the plant raw material.     

Cloth-based hybridization array system for the identification of Escherichia coli O157:H7

A simple cloth-based hybridization array system (CHAS) utilizing polyester cloth as the solid phase for DNA hybridizations has been adapted as a tool for the identification of presumptive verotoxigenic Escherichia coli O157:H7 colonies isolated from foods by standard culture techniques. Key indicator genes for this organism, rfbO157, fliCH7, vt1 and vt2 (encoding the O and flagellar antigenic determinants and verotoxin genes, respectively) were amplified in a multiplex PCR incorporating digoxigenin-dUTP, followed by hybridization of the amplicons with an array of specific oligonucleotide probes immobilized on polyester cloth, and subsequent immunoenzymatic assay of the bound digoxigenin label. This system includes a simple internal amplification control (IAC) to gauge PCR inhibition based on the incorporation of a primer pair with complementary 3′ ends, resulting in the generation of a unique “primer-dimer” detectable by hybridization with a specific capture probe immobilized on polyester cloth. The CHAS provided sensitive and specific detection of the E. coli O157:H7gene markers, exhibiting the expected patterns of reactivity with a panel of various target and non-target organisms.     

Challenges for methods to detect genetically modified DNA in foods

Qualitative detection methods for genetically modified (GM) DNA sequences in foods have evolved fast during the past years. The sensitivity of these systems is extremely high, even for processed foodstuffs. However, in future, quantitative results about the fraction of GM material in a composite food will be needed and the fast increasing number of GM foods on the market demands the development of more advanced multi-detection systems. Other challenges and problems might arise from the decreasing relevance of methods which screen for sequences commonly found in GMOs, the inability to detect GM foods for which the modified sequence is unknown, the lengthy standardisation procedures and the need to up-date continuously databases comprising commercially available GM foods and the respective detection strategies.     

Transboundary movement of genetically modified organisms in India: Current scenario and a decision support system

Genetically modified (GM) crops have benefited global agriculture by introduction of superior traits for better agronomic performance, ensuring nutritional security and mitigating climate change. In India, to meet the demand of burgeoning population and to withstand the changing climate, GM crops would play an important role. Since 1997, GM crops are being imported through Indian Council of Agricultural Research (ICAR)-National Bureau of Plant Genetic Resources (NBPGR), New Delhi, the designated nodal organization for quarantine processing and import of GMOs (referred to GM planting material in present context) for research purposes. In the present study, an attempt has been made to analyze the trend of import of GMOs. Till the end of 2015, 205 consignments of fifteen GM crops have been imported from 19 countries by public and private sector. Detailed analysis of diversity in traits of imported GM events and imported stacked traits in cotton and maize has been made. In the recent past, four consignments of GMOs have been exported for research purposes. Involvement of public/private sector in transboundary movement of GMOs was evaluated. Along with quarantine processing of imported/exported GMOs, molecular testing for specific transgenic elements as claimed by the importer/exporter is also carried out employing polymerase chain reaction (PCR) and real-time PCR based markers. Efficient detection strategies based on GMO matrix as a decision support system, loop-mediated isothermal amplification and multi-target real-time PCR-based systems have been developed. The data presented herein would provide a decision support system to check for authorized/unauthorized GMOs in food and supply chain.     

Multiplex ligation-dependent probe amplification (MLPA) for simultaneous detection of DNA from sunflower,poppy, flaxseed,sesame and soy allergenic ingredients in commercial food products

This work describes a multiplex ligation-dependent probe amplification (MLPA) technique for the simultaneous detection of five food allergens: sunflower, poppy, flaxseed, sesame and soy. Species-specific MLPA half-probes were designed to detect the DNA from the targeted species. Ligated probes were amplified by polymerase chain reaction (PCR) and amplicons were detected using capillary electrophoresis. The specificity of the MLPA system was assessed against DNA from more than 50 plant and animal species. The limit of detection (LOD) of the assay was determined to be 10 mg kg⁻¹in a model cookie experimentally spiked with different concentrations of the target species. The applicability of the MLPA was demonstrated through the analysis of 56 different commercial products (breads, pastries, cereals, chocolates, drinks, etc.), evidencing the presence of one or more undeclared allergenic ingredients in some of the tested samples. Real-time PCR assays were also performed to confirm and complement MLPA results. The MLPA technique has proved as a qualified screening tool for determining the presence of low amounts of sunflower, poppy, flaxseed, sesame and soy in processed foods.     

Quantitative identification of plant genera in food products using PCR and Pyrosequencing® technology

The ability to extract, amplify, identify and quantify fruit DNA from commercially available jams and yogurts was investigated. Efficient methods for extracting DNA from jams and yogurts were developed based on a modified CTAB protocol. DNA sequence alignment of plant chloroplast rbcL sequences allowed the development of a 104 bp PCR reaction capable of characterising plant genera present in fruit products using DNA amplification and direct sequencing to reveal single nucleotide polymorphisms (SNPs). The rbcL single nucleotide polymorphism approach was made quantitative by combining PCR analysis with Pyrosequencing^® technology. This enabled the detection of rhubarb yogurt in raspberry yogurt with a detection limit of 2% w/w based on the use of commercially available samples. The method represents a new quantitative approach for determining the identity of plant genera in products.     

PCR and DHPLC methods used to detect juice ingredient from 7 fruits

To provide accurate and fast method for labeling regulation on fruit juice, conventional PCR, real-time PCR and DHPLC techniques were explored in this study to detect ingredient from 7 fruit species. ITS1-5.8S-ITS2, TrnL-TrnF from chloroplast genome and thaumatin-like protein gene from nucleus genome were targeted. Sensitivity of 6 primer (probe) pairs was determined to be 1-10 pg DNA. Orange and mandarin were universally amplified by the same primer pair and the 8 bp divergence of PCR products could be differentiated by DHPLC analysis. 30 Fruit samples collected from local market were tested and no mislabeling was discovered.     

Real-time PCR-based detection and quantification of genetically modified maize in processed feeds commercialised in Malaysia

The present study which dealt mainly with processed feeds and some maize samples sold commercially in Malaysia evaluated the implementation of a real-time PCR cycling system for singleplex screening of eight target sequences (lectin, hmg, adh1, p35S, NK603, GA21, MON810 and MON863) and quantification of four genetically modified (GM) maize events (NK603, GA21, MON810 and MON863). The effects of using proprietary glass magnetic particles to bind DNA to their surface were also investigated in terms of DNA quantity, purity, integrity, quality and its overall effect on DNA amplification. GM material was present in 26.2% feeds and 65% maize samples. All GM samples contained MON810 followed by NK603 (47.5%), GA21 (25%) and MON863 (2.5%). Single-event and multiple-events were identified in the GM samples with 50% of the GM samples containing multiple-events. The present study which represents a fast and reliable methodology would provide an overview of the presence and levels of GMOs in feeds and maize in Malaysia.     

Detection of Listeria monocytogenes using a commercial PCR kit and different DNA extraction methods

The aim of our work was to evaluate a new commercial test kit for the detection of Listeria monocytogenes by PCR, using different DNA extraction methods. Food samples (pork sausage and “mozzarella” cheese) were spiked with known concentrations of L. monocytogenes and culture-enriched for 24 h. DNA extracted using three commercial kits and two standard methods, was amplified in species-specific PCR employing a L. monocytogenes PCR Detection Kit (Diatheva). The PCR-based method proved to be a reliable means of detecting the pathogen in food samples independently from the extraction procedure used, even for a contamination cell number of 1 cfu/g before culture enrichment. The molecular assay, showing perfect agreement with standard microbiological tests and a considerably shortened analysis time, provides a sensitive and rapid alternative for applications in the testing of foods for microbiological contamination, and highlights the potential of PCR technology in routine food control.     

A novel common primer multiplex PCR (CP-M-PCR) method for the simultaneous detection of meat species

A novel common primer multiplex PCR (CP-M-PCR) was applied to detect four kinds of meats (chicken, cattle, pig and horse) as raw materials. A common adapter was designed in the 5′-end of species-specific reverse primers which matched with the species-specific DNA sequences for each species and also used as the common primer (CP). CP-M-PCR primers were designed to uncover different length fragments of 239, 292, 412, and 451 bp from chicken, cattle, pig and horse meats, respectively. The bands of specific DNA fragments amplified by CP-M-PCR method still appeared until the concentration of species-specific primers diluted to 0.015 pmol and primer sensitivity was increased by 100 times compared with conventional multiplex PCR without CP. CP-M-PCR detection limit of the DNA samples was 0.1 ng (36.4 copies) for single kind of meat as well as four kinds of meats. CP-M-PCR method simplified the PCR reaction system and conquered the disparate amplified efficiency from different primers. The CP-M-PCR method could be widely applied in practical detection for simultaneous identification of other meat species and their products.     

Development of an event-specific assay for the qualitative and quantitative detection of the genetically modified flax CDC Triffid (FP967)

The genetically modified flax, event FP967, with tolerance to sulfonylurea herbicides, is one of the commercial genetically modified events approved in Canada and USA.This event is not authorized in Switzerland and EU, therefore, a method to specifically detect the CDC Triffid line, was required. We revealed the 3′ integration junction sequence between host plant DNA and the integrated gene construct FP967 by means of Restriction Site PCR and both a qualitative and a quantitative PCR detection assays were developed. The qualitative PCR revealed a limit of detection of 0.01% of GM flax in 100 ng of genomic DNA. The quantitative PCR assay showed a limit of detection of about 9 haploid genome copies. The specificity and sensitivity of the assay indicate that the developed event-specific PCR methods can be used for identification and quantification of FP967 flax.     

Auto-microfluidic thin-film chip for genetically modified maize detection

As a thin-film chip method, reverse dot blot hybridization (RDBH) has been employed to detect hazardous substances, but an automatic RDBH instrument with low workload, high accuracy and stability is still urgently needed. This paper presents our newly-developed auto-microfluidic thin-film chip (AMTC) method for multiplex screening of genetically modified (GM) maize. With specific DNA probes for genetically modified (GM) maize being immobilized on a square nylon thin-film, it was placed into a micro-reaction cell of the AMTC device. Then biotin-labeled PCR products with target DNA fragments for template amplification were added to the micro-reaction cell using a microfluidic system. When the PCR products passed the square nylon thin-film, the target DNA fragments were captured by the complementary action of DNA, where the signal was visualized with streptavidin link-coupled alkaline phosphatase color development kit. The sensitivity of GM maize detection reached 0.1% quality percentage and its stability and consistency could satisfy the requirements for practical applications. Performance advantages of the ATMC are manifold, being embodied in aspects such as easy and straightforward operation, low costs and less workload.