RESUMEN
Aphids are one of the most devastating pests, affecting the potential yield and quality ofBrassica juncea. In the current study, we have attempted to pyramid two transgenic lines containing chickpea lectin (CHPL, P1) and urdbean protease inhibitor (UPI, P2) in each under the phloem specific rolC promoter, through conventional breeding approach. In the derived F2 population, both lectin and protease inhibitor genes were segregating in a 9:3:3:1 ratio (p-value: 0.81), indicative of a single copy of the transgenes in the parents. Furthermore, the parental, as well as pyramided progenies were evaluated for their potential resistance to aphids in terms of mortality and natality. The lines containing both the transgenes were found to be superior over single gene transgenics as a higher mortality rate (96%) was found in F2on the 9th day as compared to single gene transgenics (86% and 80% in P1 and P2 respectively). A significant decrease in the number of nymphs was observed in P1 and P2 but most in F2 plants as almost 43, 32.08, and 107.5 times decrease in the number of nymphs was found in P1, P2, and F2 individuals over control. Expression profiling was done to see if there was any impact of gene pyramiding on the expression pattern of both transgenes before and after aphid treatment, and no significant changes were observed, indicating constitutive expression of transgenes in pyramided lines also. In conclusion, pyramided lines were found to be promising and were superior for aphid resistance.
RESUMEN
Aphids are one of the most devastating pests, affecting the potential yield and quality ofBrassica juncea. In the current study, we have attempted to pyramid two transgenic lines containing chickpea lectin (CHPL, P1) and urdbean protease inhibitor (UPI, P2) in each under the phloem specific rolC promoter, through conventional breeding approach. In the derived F2 population, both lectin and protease inhibitor genes were segregating in a 9:3:3:1 ratio (p-value: 0.81), indicative of a single copy of the transgenes in the parents. Furthermore, the parental, as well as pyramided progenies were evaluated for their potential resistance to aphids in terms of mortality and natality. The lines containing both the transgenes were found to be superior over single gene transgenics as a higher mortality rate (96%) was found in F2on the 9th day as compared to single gene transgenics (86% and 80% in P1 and P2 respectively). A significant decrease in the number of nymphs was observed in P1 and P2 but most in F2 plants as almost 43, 32.08, and 107.5 times decrease in the number of nymphs was found in P1, P2, and F2 individuals over control. Expression profiling was done to see if there was any impact of gene pyramiding on the expression pattern of both transgenes before and after aphid treatment, and no significant changes were observed, indicating constitutive expression of transgenes in pyramided lines also. In conclusion, pyramided lines were found to be promising and were superior for aphid resistance.
RESUMEN
Both, the tobacco caterpillar Spodoptera litura (Fabricius) and the cotton bollworm Helicoverpa armigera (Hübner), are serious polyphagous pests causing considerable loss to crops. Indiscriminate use of chemical pesticides for controlling them has rather resulted in their resistance development. Microbial pesticides, Bacillus thuringiensis in particular, play an important role in pest management. Here, we isolated Bacillus thuringiensis-like bacteria from the soil samples primarily collected from North East region of India along with some states viz., Haryana, Punjab, Maharashtra, West Bengal and Uttarakhand and studied their toxicity against the above two insect pests at 10 µg/g along with standard strain B. thuringiensis subsp. kurstaki HD-1 and at 1 µg/g Pseudomonas fluorescens based MVPII expressing Cry1Ac toxin and AUG-5. Isolates AUG-5 and GTG-7 proved toxic to more than 75% larvae on the 4th as well as 7th day of the treatment of the neonates of H. armigera. The AUG-5 isolate was also effective against S. litura. Ten effective isolates (AUG-5, GTG-4, GTG-7, GTG-9, GTG-42, GTG-64, GTG-70, GTG-3S, GTG-4S and GTG-6S) were characterized using biochemical and 16S rDNA analysis. Nearly, all the isolates tested positive for utilizing monosaccharides. All selected B. thuringiensis isolates showed resistance to ampicillin and co-trimoxazole except AUG-5 to co-trimoxazole. AUG-5 and GTG-7 were highly toxic to both insects, and possessed cry1, cry1A and cry2 genes. These isolates AUG-5 and GTG-7 also contained high Cry1Ac (104.8 and 88.32 ng/mg) and Cry2Ab (3792 and 1305.9 ng/mg), respectively in their spore-crystal complex. Both, AUG-5 and GTG-7 isolates, could be considered for further development as bioinsecticides. The present study has established the diversity and richness of B. thuringiensis-like isolates in soils collected from north-eastern region of India.