Constitutive expression of a fusion gene comprising Trigonella foenum-graecum defensin (Tfgd2) and Raphanus sativus antifungal protein (RsAFP2) confers enhanced disease and insect resistance in transgenic tobacco

Abstract

Plant defensins are small, basic cysteine-rich peptides that can inhibit the growth of a broad range of fungi or bacteria at micro-molar concentrations. They have been introduced as transgenes into different species to enhance host resistance to pathogens. In this study, a fusion gene of two defensins, Trigonella foenum-graecum defensin 2 (Tfgd2) and Raphanus sativus antifungal protein 2 (RsAFP2) fused by a linker peptide of a polyprotein precursor from Impatiens balsamina was introduced into tobacco (Nicotiana tabacum var. Xanthi) via Agrobacterium-mediated leaf section transformation. Putative transgenic plants were confirmed by PCR analysis and integration of the fusion gene was confirmed by Southern blotting. RT-PCR analysis showed that the fusion gene was expressed in several confirmed transgenic plants. Western blotting analysis of crude protein extracts from leaves of the transgenic plants with anti-Tfgd2 and anti-RsAFP2 antibodies exhibited an 8 and 9 kDa bands corresponding to size of the fusion gene and confirmed the expression of fusion protein. When the leaves of transgenic plants were challenged with Rhizoctonia solani and Phytophthora parasitica var. nicotianae pathogens, they showed enhanced levels of disease resistance along with resistance to the generalist herbivore, Spodoptera litura larvae compared to control. Our results demonstrate that Tfgd2–RsAFP2 fusion protein is effective in protecting the transgenic plants against fungal and insect pathogens.