Identification and characterization of the Sudanese Bacillus thuringiensis and related bacterial strains for their efficacy against Helicoverpa armigera and Tribolium castaneum.

Forty-four isolates of Bacillus thuringiensis like bacteria from various sources in different locations from Sudan were tested for their insecticidal activity. The toxicity of these isolates ranged from 6.6 to 70% to the neonates of cotton bollworm, Helicoverpa armigera at 10 ppm concentration. The most effective ones are Kb-29, St-6 and Wh-1 comparable with HD-1.  Toxicity of isolates to larvae of the red flour beetle, Tribolium castaneum ranged from 20 to 100%. Isolates St-2 and St-23 gave 100% larval mortality within 15 days of exposure and were at par with Ab-8, Ab-12, Kb-26, Kb-30, Om-4, Po-2, Po-5, Po-7, Sa-8 and Wh-5 and were also comparable with E. coli clone expressing Cry3 toxin. The most effective five isolates viz., Kb-29, St-2, St-6, St-23 and Wh-1 belonged to B. thuringiensis. The St-6 isolate, which also showed high toxicity to T. castaneum larvae, had cry1 genes along with coleopteran active cry28 genes, but not cry3 genes. Of the 25 isolates characterized with 16s DNA sequencing, seven belonged to Paenibacillus spp., one Lysinibacillus sphaericus, one Bacillus pumilus, four Bacillus spp., and rest 12 belonged to B. thuringiensis. Biochemical characterization in each species showed variation. The present study shows potential of some isolates like Kb-29, St-2, St-6, St-23 and Wh-1 as promising bioinsecticides.

A common HPLC-PDA method for amino acid analysis in insects and plants.

A common method for analysis of 17 amino acids from various insect species and plant parts was standardized using HPLC-PDA. Prior to hydrolysis, lyophilization of test samples was found indispensible to remove excess moisture, which interferes in hydrolysis and separation of amino acids. After the hydrolysis of plant and insect samples, 500 and 100 µL of boiling HCl, respectively for reconstitution, and 20 µL of hydrolyzed samples used for derivatization, provided best results. Gradient profile of mobile phase and run time up to 65 min were standardized to (i) overcome the problems related to eluting underivatized sample part, (ii) optimize the use of mobile phase and run time, and (iii) get better separation of different amino acids. Analysis of Chilo partellus larvae reared on sorghum seedling powder based artificial diet indicated that arginine and histidine quantities were on par in both samples. However, methionine was higher, and leucine, isoleucine, lysine, phenylalanine, threonine and valine were lower in sorghum seedlings than in C. partellus larvae, suggesting compensation of these amino acids by the insect through voracious feeding, as is being expected from artificial diet. This method was found highly sensitive, reproducible and useful for the analysis of amino acids for better understanding of insect-plant interactions.

Development and mechanisms of resistance to Bacillus thuringiensis endotoxin Cry1Ac in the American bollworm, Helicoverpa armigera (Hübner).

The American bollworm, H. armigera, evolved 31-fold resistance to selection pressure of B. thuringiensis endotoxin Cry1Ac within six generations. The Cry1Ac selected larvae of H. armigera showed cross-resistance to Cry1Aa and Cry1Ab both in terms of mortality and growth reduction. Studies on mechanisms of resistance to Cry1Ac showed that proteases of resistant insects degraded Cry1Ac faster than those of susceptible insects, which led to the relative unavailability of toxin of about 58 kDa for binding and perforation of midgut epithelial membrane of the target insect. Besides, resistant and susceptible populations of H. armigera differed in the binding of their receptors with Cry1Ac toxin. These results suggest the possibility of both mechanisms existing in imparting resistance. These findings mandate the necessity of B. thuringiensis resistance management for usage of B. thuringiensis either as a conventional insecticide or through transgenic crops.

Effect of sublethal concentration of Bacillus thuringiensis var. kurstaki on food and developmental needs of the american bollworm, Helicoverpa armigera (Hübner).

Effect of sublethal concentration of B. thuringiensis on the first, third, fourth and fifth instar larvae of the American bollworm, H. armigera was investigated to study their response to food consumption, digestion, utilization, and their development till adult formation. The young larvae surviving B. thuringiensis treatment in their first instar and third instar delayed larval period by two to three days, but did not consume more food as compared to control. However, they showed higher digestibility of food as compared to control, which was compensated by their reduced ability to utilize the digested food for body substance. Contrary to the effect on first and third instar larvae, the fifth instar larvae surviving B. thuringiensis treatment in its fourth instar consumed less food, showed less absorption efficiency in digesting food, but compensated by increase in the utilization of ingested and digested food into body substance. Insects surviving B. thuringiensis HD-1 sublethal toxicity adapted to normal larval growth when fed on untreated food, depending upon insect growth prior to treatment. The moths emerging from B.thuringiensis treated larvae had sex ratio favouring females, and adult pairs laid less fertile eggs than those from the untreated ones. The response of B. thuringiensis treated larvae to their food and developmental needs is discussed.

Changes in haemolymph constituents of American bollworm, Helicoverpa armigera (Hübner), infected with nucleopolyhedrovirus.

Six types of haemocytes viz., prohaemocytes, plasmatocytes (round, fusiform, vermiform and spindle shaped), granular cells, spherule cells, oenocytoids and adipohaemocytes were found in the haemolymph of larvae of American bollworm H. armigera. The total and differential haemocyte counts (THC and DHC) in H. armigera haemolymph were affected by nucleopolyhedrovirus (NPV) treatment. There was a general decrease in THC in response to NPV treatment in both young and old larvae. However the decrease was more apparent in 5 and 8 day old larvae than in 10 day old larvae. The differential haemocytes showed less of granular cells and more of spherule cells and prohaemocytes in the old larvae. Plasmatocytes and granular cells in 10 day old larvae initially phagocytosed polyhedra; however, disintegrated after 3 to 4 hr. The haemolymph of NPV treated larvae melanized slowly particularly in old larvae. Phenoloxidase (PO) activity decreased positively with granular cells and oenocytoids in 10 day old treated larvae. Cellular fraction had high level of PO activity, which was transferred to plasma in response to NPV infection in the older larvae. The role of NPV pathogenesis vis-à-vis immunity in insect is discussed.