Aihu Pan

Estimating number of transgene copies in transgenic rapeseed by real-time PCR assay with HMG I/Y as an endogenous reference gene

In transgenic plants, the number of transgene copies can greatly influence the level of expression and genetic stability of the target gene. Transgene copy numbers are estimated by Southern blot analysis, which is laborious and time-consuming, requires relatively large amounts of plant materials, and may involve hazardous radioisotopes. Here we report the development of a sensitive, convenient real-time PCR technique for estimating the number of transgene copies in transgenic rapeseed. This system uses TaqMan quantitative real-time PCR and comparison with a novel, confirmed single-copy endogenous reference gene, high-mobile-group protein I/Y (HMG I/Y), to determine the numbers of copies of exogenous β-glucuronidase (GUS) and neomycin phosphotransferase II (nptII) genes. TheGUS andnptII copy numbers in primary transformants (T0) were calculated by comparing threshold cycle (CT) values of theGUS andnptII genes with those of the internal standard,HMG I/Y. This method is more convenient and accurate than Southern blotting because the number of copies of the exogenous gene could be directly deduced by comparing itsCT value to that of the single-copy endogenous gene in each sample. Unlike other similar procedures of real-time PCR assay, this method does not require identical amplification efficiencies between the PCR systems for target gene and endogenous reference gene, which can avoid the bias that may result from slight variations in amplification efficiencies between PCR systems of the target and endogenous reference genes.

Production of FaeG, the Major Subunit of K88 Fimbriae, in Transgenic Tobacco Plants and Its Immunogenicity in Mice

ABSTRACT Transgenic tobacco plants stably expressing recombinant FaeG, which is the major subunit and adhesin of K88ad fimbriae, were obtained. Analysis of sera from immunized mice indicates that in mice, the immunogenicity induced by plant-derived FaeG protein is comparable to that generated with traditional approaches.

Development and inter-laboratory transfer of a decaplex polymerase chain reaction assay combined with capillary electrophoresis for the simultaneous detection of ten food allergens.

Food allergies cause health risks to susceptible consumers and regulations on labeling of food allergen contents have been implemented in many countries and regions. To achieve timely and accurate food allergen labeling, the development of fast and effective allergen detection methods is very important. Herein, a decaplex polymerase chain reaction (PCR) assay combined with capillary electrophoresis was developed to detect simultaneously 10 common food allergens from hazelnut, pistachio, oat, sesame, peanut, cashew, barley, wheat, soybean and pecan. The absolute limit of detection (LODa) of this system is between 2 and 20 copies of haploid genome, and the relative LOD (LODr) is as low as 0.005% (w/w) in simulated food mixtures. The developed assay was subsequently applied to 20 commercial food products and verified the allergen ingredients stated on the labels. Furthermore, results using this decaplex PCR assay was successfully replicated in three other laboratories, demonstrating the repeatability and applicability of this assay in routine analysis of the 10 food allergens.

Collaborative trial for the validation of event-specific PCR detection methods of genetically modified papaya Huanong No.1.

For transferring the event-specific PCR methods of genetically modified papaya Huanong No.1 to other laboratories, we validated the previous developed PCR assays of Huanong No.1 according to the international standard organization (ISO) guidelines. A total of 11 laboratories participated and returned their test results in this trial. In qualitative PCR assay, the high specificity and limit of detection as low as 0.1% was confirmed. For the quantitative PCR assay, the limit of quantification was as low as 25 copies. The quantitative biases among ten blind samples were within the range between 0.21% and 10.04%. Furthermore, the measurement uncertainty of the quantitative PCR results was calculated within the range between 0.28% and 2.92% for these ten samples. All results demonstrated that the Huanong No.1 qualitative and quantitative PCR assays were creditable and applicable for identification and quantification of GM papaya Huanong No.1 in further routine lab analysis.