Soybean is one of the most important sources of edible oil and protein in the world. However, it suffers from many kinds of fungal diseases, such as frogeye leaf spot (Cercospora sojina) and soybean Phytophora root rot (Phytophthora megasperma Drechs). Fungal disease is a major limiting factor in soybean production. The fungal disease can be effectively controlled by breeding plant cultivars with genetic transformation. Recently bean chitinase gene (chi), barley ribosome-inactivating protein gene (rip) and β-1,3-glucan have been successfully introduced to several plant species and achieved increasing resistance to several fungal diseases. In this study, plant expression vector containing bivalent fungi-resistance gene chi and rip was constructed and these two genes were transferred into four main soybean cultivars in Northeast China by Agrobacterium-mediated transformation. The identification of T0 regenerated plants was determined by PCR and Southern blot analysis, transgenic soybean co-integrated the two anti-fungal protein genes were obtained, the transformation frequency was 0.5%. Four T2 Bivalent transgenic soybean lines G0421, G0422, G0423 and G0424 were obtained and the resistance to P. megasperma and C. sojina of the four lines were characterized. Comparing to the non-transgenic type which was sensitive to P. megasperma, G0421, G0422, G0423 were resistant and G0424 was moderately resistant to P. megasperma. All the four lines were resistant to C. sojina while the non-transgenic type is moderately resistant to C. sojina. PCR amplification demonstrated that the T2 bivalent transgenic soybean lines contained the two transferred genes. RT-PCR analysis showed that both of the two transferred genes expressed in the transgenic soybean lines. These transgenic soybean lines with increasing resistance to P. megasperma and C.sojina will be useful in soybean resistance breeding.
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