The revolution of agriculture through biotechnology have produced large-scale of genetically
modified crops which brought up a controversy on the safety usage of genetically modified
organisms (GMOs). It has been implemented globally that all GMO products and its derived
ingredients should have regulations on the usage and labelling. Thus, it is necessary to develop
methods that allow rapid screening of GMO products to comply with the regulations. This
study employed a reliable and flexible multiplex polymerase chain reaction (PCR) method for
the rapid detection of transgenic elements in genetically modified soy and maize along with
the soybean LECTIN gene and maize ZEIN gene respectively. The selected four common
transgenic elements were 35S promoter (35S); Agrobacterium tumefaciens nopaline synthase
terminator (NOS); 5-enolypyruvylshikimate-3-phosphate synthase (epsps) gene; and Cry1Ab
delta-endotoxin (cry1Ab) gene. Optimization of the multiplex PCR methods were carried out
by using 1% Roundup ReadyTM Soybean (RRS) as the certified reference material for soybean
that produced fourplex PCR method detecting 35S promoter, NOS terminator, epsps gene and
soybean LECTIN gene and by using 1% MON810 as the certified reference material for maize
that produced triplex PCR method detecting 35S promoter, cry1Ab gene and maize ZEIN gene
prior to screening of the GMO traits in various food products and animal feeds. 1/9 (11.1%) of
the animal feed contained maize and 1/15 (6.7%) of the soybean food products showed positive
results for the detection of GMO transgenic gene. None of the maize food products showed
positive results for GMO transgenic gene. In total, approximately 4% of the food products
and animal feed were positive as GMO. This indicated GMOs have not widely entered the
food chain. However, it is necessary to have an appropriate screening method due to GMOs’
unknown potential risk to humans and to animals. This rapid screening method will provide
leverage in terms of being economically wise, time saving and reliable.