Advance of Multiplex PCR in Rapid Detecting Transgenic Soybean Oil

Transgenic food safety is a high-profile public 
health issue in worldwide, especially transgenic soybean (Glycine max L.) oil. To rapidly and effectively detect transgenic components of soybean oil, in the 
present study, we isolated DNA from transgenic soybean oil by modified method, 
and employed the multiplex PCR method to identify targeted genes, including 
CaMV35S promoter, Nos terminator, NPTII, CP4-EPSPS and endogenous gene Lectin. The research aims to build a 
method which is accurate, rapid and reliable for detection of genetically 
modified soybeans oil. The targeted gene including DNA was successfully 
established by the improved method, and then amplified by PCR. Five genes are 
simultaneously specifically detected. Commercial soybean, genetically modified 
soy bean and oil were detected with the 
Multiplex PCR. The improved method of DNA extraction was rapid and accurate to 
extract high quality total DNA which was amplified by PCR. The method could 
eliminate the PCR inhibitor. A way of detecting the genetically modified 
soybean and Oil was set up in this study.


Introduction
Food safety is a major global public health problem. Transgenic food is also called genetically modified food (Genetically Modified Food, GMF), and refers to the use of genetic engineering techniques to change the structure of animals, plants and microo rganisms in food production and food additives, including transgenic animals, transgenic plants, micro-products; transgenic plants, genetically modified microorganisms directly or processed goods for raw materials to produce the food and food additives [1] [2].
With the development of transgenic technology, genetically modified foods also caused a series of food safety aspects event (incidents): lectin (Lectin) gene to Potato in Scotland; transgenic Bt crops can be harmful to Monarch butterflies. With the development of transgenic technology, genetically modified foods also caused a series of food safety aspects event (incidents): lectin (Lectin) gene to Potato in Scotland; transgenic Bt crops can be harmful to Monarch butterflies. Especially in recent years, with the rapid development of biological technology, genetically modified foods have accounted for a growing proportion of the whole food market since its generation, but the security of genetically modified foods is still a controversial issue.
Multiplex PCR technology is based upon the tradition PCR technology. It is usually used in medicine but rarely used in detection of genetically modified foods. The test of employing Multiplex PCR technology is conducted in a number of targeted gene testing at the same time. Compared with the general one, the credibility of its results is higher. Therefore, for the qualitative transgenic soybeans, multiple PCR test is an ideal detection method. It can not only reduce the testing time and costs, but also improve the efficiency of detection, which would effectively avoid the phenomenon of losing detection [3] [4] [5] [6].
Multiplex PCR is successfully established by targeted genes which include CaMV35S promoter, Nos terminator, NPTII, CP4-EPSPS and endogenous gene Lectin. DNA was isolated by the improved method and then was amplified by PCR. Five genes were detected simultaneously. And, commercial soybean, genetically modified soybean and oil were detected with the Multiplex PCR.
DNA extraction is a crucial step in the process of PCR detection [7]. DNA extraction can determine the level of purity directly, which would influence its results of the PCR detection. High-quality DNA template from transgenic food is the important part of the DNA testing. DNA temple's extraction and purification can not only to meet the requirements of simple, safe and large-scale operation, but also keep the purity of DNA and high rate of requests. At present, there are two main methods, namely, sodium dodecyl sulfate (SDS) and Cetyltrimethyl of the olfactory (CTAB), which can be implemented to extract DNA from transgenic food products. In order to achieve success of the PCR detection, obtaining high-quality template is the primary key factor. There are many ways, which have been used for the extraction of DNA from genetically modified foods [8]. For instance, Zirnlermann has attempted 9 ways, such as the Wizard kit method, CTAB method, ROSE method, ROSEX method, alkaline method, SDS/proteinase K method. However, most of them have some major weaknesses, such as overloaded processes, expensive equipments, and unsuitable for carrying on PCR amplification. As the content of protein and fat in the soybeans and oil is very high, it is difficult to extract the DNA template [9] [10]. At present, the most difficulty of using PCR to detect the genetically modified material of GM food is the detection of deep processed GM food, as DNA is largely damaged by the raw transfer materials during the process.

DNA Extraction Method from Edible Oil
1) 100 mL in the beaker added 15 mL transgenic edible oil and 500 µL TE buffer, using magnetic stirrer mix round 10 min slowly, at room temperature centrifugal 14,000 rpm, 5 min, removed the upper fats.
2) In the above system, adding the same volume of CTAB Lysis solution and 2 µL RNase solution, surge 3 s -5 s, 65˚C water bath 30 min.

Design of the PCR System
By using array design, Oligo, Primer 5 software, design for a Multiplex PCR detection of transgenic soybeans reaction primers. The polymerase chain reaction (PCR) was performed in 60 µL of reaction mixture, composed of 3.5 µL of the DNA template was added to 4 µL dNTPs, 6 µL MgCl, 5 µL 10 × PCR buffer, 0.5 U (U/ul) of Taq polymerase and 1.7 -2.0 µL of each primer (Table 1). Reactions were carried out in a Master Cycler (Eppendorf). A first step of 5 min at 94˚C was followed by 35 cycles of 40 S at 94˚C, 30 S at 57˚C, and 30 S at 72˚C with a final extension of 6 min at 72˚C. Amplified PCR products were detected after electrophoresis in 2% agarose gels stained with ethidium bromide. The PCR reaction was loaded on a 2% agarose gel and the visualized bands were cut and extracted from the gel (TaKaRa Agarose Gel DNA Purification Kit Ver.2.0, TaKaRa). The purified fragments were cloned into the pMD18-T Vector (TaKaRa) and sequenced.

DNA Extraction Method from Soybean
First, we used mechanical smashed soybean seed. As soybean seed is very hard, so we used a machine to polish the soybean seed into powder, and extracted the DNA then. In order to reduce the extraction time, in this study CTAB method was used. As a result, its yield and purity met the requirements of PCR reaction ( Figure 1). This shows that the quality of DNA extracted was under the premise of rapid completion of a large number of DNA samples from work.  The improved CTAB the extraction of the soybean genome electrophoresis, with only one outcome, with more clarity, high purity, using the improved method of CTAB soybean genome extract more satisfactory results, can be used for PCR amplification.

DNA Extraction Method from Edible Oil
The improved CTAB the extraction of the edible oil electrophoresis (Figure 2), with only one outcome, with more clarity, high purity, using the improved method of CTAB edible oil extract more satisfactory results, can be used for PCR amplification.
Only transgenic soybean DNA fragments amplified the CaMV35S promoter gene (Figure 3), non-transgenic soybean DNA fragments not amplified bands.
Only transgenic soybean DNA fragments amplified the NOS terminator gene

DNA Extraction Method from Edible Oil
After the edible oil is refined and undergone other processing steps, the remnant of nucleic acid was severely damaged into pieces and the content is very low [11] [12] [13]. Therefore, before the start of extraction, DNA can be dissolved in     In the solution of edible oil, it should add a certain volume of a washing solution TE. This step is essential for a successful DNA extraction. The Washing operation practices make a certain impact in the rate of the DNA. The best choice of Carrier DNA is plant, animal, microbial DNA that is far away from the standard DNA. The institute selected non-transgenic soybeans as the Carrier. It has been proved that designed primer does not interfere with each other in the process of establishing system. It does not affect the detection of DNA, and is used as the negative control of PCR reaction.

The Design of Primer on Multiple PCR Reaction System
Primers determine the specificity of PCR products, especially the multiplex PCR reaction system. The choice of each pair of primers is not only related to the amplified results of the DNA fragments, but also involves in the amplification and detection result of the detection of other DNA fragments. The temperature differences cannot be large among the different primers in multiple PCR reaction system. And, the number of complementarily among the primers pairs cannot be too much. Otherwise, primer will be formed primer dimer, and PCR reaction will not carry out, or less than satisfactory response to the results. Therefore, choosing an appropriate primer is the key element of the multiple PCR. According to the different of purpose characters, the types of aim gene are many as well. It has identified four types of foreign gene of usual genetically modified soybeans as the gene detection purpose. Camv35s, NOS, nptII, cp4-epspe and lectin (soybean agglutinin) were used as internal standards to design sequence, and the primer reaction of transgenic soybean system was detected by multiplex PCR. In the process of designing the primer, it would consider the effect between primers and primers, the effect between primers and the DNA template, and give full consideration to the length of the amplified fragment. If the size of fragment is too close, the electrophoresis is hard to detach, and bring difficulties to identify. If the gap between the amplified fragments is large, the establishment of reaction system could be difficult. The test proved that using several pairs of primers by the institute is good for the specificity of knowing transgenic soybeans. The sequencing results of these primers amplified by PCR product and the reported in the literature are as follows: 95%, 99%, 99%, 100%, 100%, which confirmed the amplified PCR product is the targeted product. Although PCR method is convenient, accurate, rapid and high sensitivity, in the detection of genetically modified food, there are still some questions. Firstly, the genetically modified ingredients of genetically modified food are relatively low. Secondly, there will create false negative, if it cannot effectively rule out the factors of inhibiting the PCR reaction. Thirdly, due to high sensitivity, multiple PCR reaction needs more stringent requirement. In a word, it would be needed to establish a rapid and effective method of extraction of DNA from the genetically modified food. As DNA in the transgenic food reprocessing project is a more serious damage, the extracted DNA from processed foods has always been the bottleneck of the transgenic food detection technology. The only way is to find the effective solution of extracting DNA. Then, the detection of transgenic food can be developed rapidly. This method also can be applied to DNA extraction from other Plant oil.