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1.
Sci Rep ; 8(1): 8820, 2018 06 11.
Article in English | MEDLINE | ID: mdl-29891840

ABSTRACT

Pigeon pea is an important legume infested by a plethora of insect pests amongst which gram pod borer Helicoverpa armigera is very prominent. Imparting resistance to this insect herbivore is of global importance in attaining food security. Expression of insecticidal crystal proteins (ICP) in diverse crops has led to increased resistance to several pests. We report in this paper, expression of Cry2Aa in transgenic pigeon pea and its effectiveness towards H. armigera by employing Agrobacterium-mediated in planta transformation approach. Approximately 0.8% of T1 generation plants were identified as putative transformants based on screening in the presence of 70 ppm kanamycin as the selection agent. Promising events were further recognized in advanced generations based on integration, expression and bioefficacy of the transgenes. Seven T3 lines (11.8% of the selected T1 events) were categorized as superior as these events demonstrated 80-100% mortality of the challenged larvae and improved ability to prevent damage caused by the larvae. The selected transgenic plants accumulated Cry2Aa in the range of 25-80 µg/g FW. The transgenic events developed in the study can be used in pigeon pea improvement programmes for pod borer resistance.


Subject(s)
Bacterial Proteins/biosynthesis , Cajanus/parasitology , Endotoxins/biosynthesis , Gene Expression , Hemolysin Proteins/biosynthesis , Lepidoptera/drug effects , Pest Control, Biological/methods , Plants, Genetically Modified/parasitology , Recombinant Proteins/biosynthesis , Agrobacterium/genetics , Animals , Bacillus thuringiensis Toxins , Bacterial Proteins/genetics , Endotoxins/genetics , Genetic Vectors , Hemolysin Proteins/genetics , Lepidoptera/physiology , Recombinant Proteins/genetics , Transformation, Genetic
2.
Plant Cell Rep ; 35(5): 1189-203, 2016 May.
Article in English | MEDLINE | ID: mdl-26956134

ABSTRACT

KEY MESSAGE: Coexpression of two antifungal genes ( NPR1 and defensin ) in transgenic peanut results in the development of resistance to two major fungal pathogens, Aspergillus flavus and Cercospora arachidicola. Fungal diseases have been one of the principal causes of crop losses with no exception to peanut (Arachis hypogeae L.), a major oilseed crop in Asia and Africa. To address this problem, breeding for fungal disease resistance has been successful to some extent against specific pathogens. However, combating more than one fungal pathogen via breeding is a major limitation in peanut. In the present study, we demonstrated the potential use of co-overexpression of two genes, NPR1 and defensin isolated from Brassica juncea and Trigonella foenum-graecum respectively; that offered resistance towards Aspergillus flavus in peanut. The transgenic plants not only resisted the mycelial growth but also did not accumulate aflatoxin in the seeds. Resistance was also demonstrated against another pathogen, Cercospora arachidicola at varied levels; the transgenic plants showed both reduction in the number of spots and delay in the onset of disease. PCR, Southern and Western blot analysis confirmed stable integration and expression of the transgenes in the transgenic plants. The combinatorial use of the two pathogen resistance genes presents a novel approach to mitigate two important fungal pathogens of peanut.


Subject(s)
Arachis/immunology , Disease Resistance/genetics , Mustard Plant/genetics , Plant Diseases/immunology , Plant Proteins/metabolism , Trigonella/genetics , Arachis/genetics , Arachis/microbiology , Ascomycota/physiology , Aspergillus flavus/physiology , Defensins/genetics , Defensins/metabolism , Gene Expression , Plant Diseases/microbiology , Plant Proteins/genetics , Plants, Genetically Modified , Seedlings/genetics , Seedlings/immunology , Seedlings/microbiology , Seeds/genetics , Seeds/immunology , Seeds/microbiology , Transformation, Genetic , Transgenes
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