A Bowman–Birk protease inhibitor with antifeedant and antifungal activity from Dolichos biflorus

In the present study, 11 varieties of Dolichos biflorus exhibited both protease inhibitor activities as well as in vitro inhibitory activity against Helicoverpa armigera gut protease. A Bowman–Birk protease inhibitor showing activity against trypsin and α-chymotrypsin has been purified from D. biflorus seeds using multi-step strategy. The purified inhibitor revealed a single band on SDS-PAGE corresponding to molecular mass of 16 kDa. The inhibitory constants for the interaction of purified PI with trypsin and α-chymotrypsin were 0.04 and 0.48 μM, respectively. The purified inhibitor was stable over a pH range of 2–12 and up to a temperature of 100 °C for 20 min. The results of insect bioassay against H. armigera revealed 68 % decline in larval weight after 7 days of feeding on artificial diet containing the inhibitor. The larval growth and % leaf area eaten were drastically reduced in the presence of inhibitor. The observed cumulative mortality from larval to adult was 51.21 %. The inhibitor displayed antifungal activity against Alternaria alternata, Fusarium oxysporum, and Aspergillus niger with minimum inhibitory concentration as 0.4, 0.6, and 1.2 μg mL^?1, respectively. This is the first report of anti-feedant and anti-fungal activities of D. biflorus protease inhibitor on a single protein, which might be important for developing transgenic plants resistant to insect pests and fungal pathogens.     

Purification,characterization and evaluation of insecticidal potential of trypsin inhibitor from mungbean (<Emphasis Type="Italic">Vigna radiata</Emphasis> L. Wilczek) seeds

Protease inhibitors present in seeds of legumes possess strong inhibitory activity against trypsin and confer resistance against pests. In the present investigation, trypsin inhibitor activity was found in the seed flour extracts of all the eight selected varieties of mungbean under study which was further confirmed by dot blot analysis. All the varieties showed inhibitory activity in vitro against the gut protease of Helicoverpa armigera (HGP). Trypsin inhibitor was purified from mungbean seeds to near homogeneity with 58.1-fold and 22.8% recovery using heat denaturation, NH₄(SO₄)₂ fractionation, ion-exchange chromatography on DEAE-Sephadex A-25 and gel filtration through Sephadex G-75. The molecular mass of the inhibitor was 47 kDa as determined by gel filtration and SDS-PAGE. The inhibitor retained 90% or more activity between pH 4 and 10, however, it was nearly inactive at extreme pH values. The inhibitor was stable up to 80°C but thereafter, the activity decreased gradually retaining nearly 30% of activity when heated at 100°C for 20 min. The inhibitor activity was undetectable at 121°C. Insect bioassay experiment using purified mungbean trypsin inhibitor showed a marked decline in survival (%) of larvae with increase in inhibitor concentration. The larval growth was also extended by the trypsin inhibitor. This study signifies the insecticidal potential of mungbean trypsin inhibitor which might be exploited for raising transgenic plants.     

Biocontrol Potential of Steinernema thermophilum and Its Symbiont Xenorhabdus indica Against Lepidopteran Pests: Virulence to Egg and Larval Stages

Under laboratory conditions, the biocontrol potential of Steinernema thermophilum was tested against eggs and larval stages of two important lepidopteran insect pests, Helicoverpa armigera and Spodoptera litura (polyphagous pests), as well as Galleria mellonella (used as a model host). In terms of host susceptibility of lepidopteran larvae to S. thermophilum, based on the LC₅₀ 36 hr after treatment, G. mellonella (LC₅₀ = 16.28 IJ/larva) was found to be more susceptible than S. litura (LC₅₀ = 85 IJ/larva), whereas neither host was found to be significantly different from H. armigera (LC₅₀ = 54.68 IJ/larva). In addition to virulence to the larval stages, ovicidal activity up to 84% was observed at 200 IJ/50 and 100 eggs of H. armigera and S. litura, respectively. To our knowledge this is the first report of entomopathogenic nematode pathogenicity to lepidopteran eggs. Production of infective juvenile (IJ) nematodes/insect larva was also measured and found to be positively correlated with rate of IJ for H. armigera (r = 0.990), S. litura (r = 0.892), as well as G. mellonella (r = 0.834). Both Phase I and Phase II of symbiotic bacteria Xenorhabdus indica were tested separately against neonates of H. armigera and S. litura by feeding assays and found to be virulent to the target pests; phase variation did not affect the level of virulence. Thus S. thermophilum as well as the nematode’s symbiotic bacteria applied separately have the potential to be developed as biocontrol agents for key lepidopteran pests.     

Antifeedant and larvicidal activities of Rhein isolated from the flowers of Cassia fistula L.

Antifeedant and larvicidal activities of rhein (1,8-dihydroxyanthraquinone-3-carboxylic acid) isolated from the ethyl acetate extract of Cassia fistula flower were studied against lepidopteron pests Spodoptera litura and Helicoverpa armigera. Significant antifeedant activity was observed against H. armigera (76.13%) at 1000 ppm concentration. Rhein exhibited larvicidal activity against H. armigera (67.5), S. litura (36.25%) and the LC₅₀ values was 606.50 ppm for H. armigera and 1192.55 ppm for S.litura. The survived larvae produced malformed adults.     

Preparation and molecular characterization of a polyclonal antibody as an efficient cutworm reference protein

Antibodies, which are wildly used in molecular researches, are proteins secreted by plasma cells that can specifically recognize specific antigens. To obtain a stable reference antibodies are important for protein analysis. In this study, a capable glyceraldehyde phosphate dehydrogenase (GAPDH) antiserum against most noctuid larval protein samples was prepared. Firstly, the full-length gapdh was amplified from Spodoptera exigua larvae to construct the prokaryotic expression vector. The purified His-tag fused GAPDH protein was used to immunize rabbits for the antiserum preparation. Protein samples extracted from 11 insect species distributed across seven families and three orders were used to perform the Western bolt analysis. The bright specific bands were detected in S. exigua, S. litura, Helicoverpa armigera, and Mythimna seperata protein samples, indicating that this antiserum may be capable of detecting noctuid larval encoded GAPDH. Further immunofluorescence identification of H. armigera and S. exigua paraffin section slides with GAPDH antiserum exhibited an identical cyto-stained image. The GAPDH antiserum prepared in this study is useful and efficient as reference antibodies in studies involving noctuid larval protein samples in other related fields.     

A Comparison of Growth and Development of Three Major Agricultural Insect Pests Infected with Heliothis virescens ascovirus 3h (HvAV-3h)

Ascoviruses are double-stranded DNA viruses that are pathogenic to lepidopteran hosts, particularly noctuid larvae. Infection of a larva is characterized by retarded growth, reduced feeding and yellowish body color. In this paper, we reported the growth and development of three major agricultural noctuid insect pests, Helicoverpa armigera (Hübner), Spodoptera exigua (Hübner) and Spodoptera litura (Fabricius), infected with Heliothis virescens ascovirus 3h (HvAV-3h). Using 10-fold serial dilutions (0 to 7) of HvAV-3h-containing hemolymph to infect S. litura larvae, we found no significant difference in larval mortalities from 0 to 10³-fold dilutions; however, significant differences were observed at 10⁴-fold dilution and above. Using a 10-fold dilution of HvAV-3h-containing hemolymph to infect H. armigera, S. exigua and S. litura larvae, we found that the growth and development were significantly affected. All infected larvae could not pupate; the survival times of treated H. armigera, S. litura and S. exigua larvae were significantly longer than untreated control larvae. Body weight showed significant difference between treated and untreated control group from day 1 after inoculation in H. armigera and S. exigua, but day 2 in S. litura. Additionally, food intake also showed significant difference between treated and untreated control group from day 2 after inoculation in H. armigera and S. litura, but day 3 in S. exigua.     

Insecticidal and antifungal potentials of a proteinaceous extract of Cassia occidentalis (Linn.) seeds

Proteinaceous extract obtained from Cassia occidentalis seeds with purification fold of 3.91 and 82.7% of bovine trypsin inhibitory activity was assessed at different concentrations (25, 50, 100, 200, 400 and 800 μg/ml) against Spodoptera litura. Assay of larval feeding suggested proteinaceous extract to be toxic as prepupal (80.16%) and pupal mortalities (100%) along with growth deterrent effect with only 16.71% pupation was observed at 800 μg/ml. Fifty per cent mortality (LC₅₀) was observed at 132.91 μg/ml. Also the inhibitor affected fecundity, longevity and percentage of egg hatching. Nutritional indices were adversely affected as both efficiency of conversion of ingested and digested food decreased while approximate digestibility and metabolic cost increased. In vitro studies on proteolytic enzymes of S. litura revealed inhibition of trypsin and chymotrypsin in lumen and faecal matter at all tested concentrations. Also proteinaceous extract inhibited mycelial growth in Fusarium oxysporum, Alternaria brassicicola and Alternaria alternata at 100 μg/ml.     

Oviposition and reproductive performance of a generalist parasitoid (Trichogramma pretiosum) exposed to host species that differ in their physical characteristics

The response of generalist egg parasitoids to alternative natural hosts that are present simultaneously is not well known. We investigated the behavior of Trichogramma pretiosum Riley (Hymenoptera: Trichogrammatidae) in relation to two field hosts Helicoverpa armigera Hübner and Spodoptera litura Fabricius, in choice and no choice tests. We quantified the effects of natal host species and post-emergence adult age on the oviposition preference of the parasitoids. H. armigera eggs were consistently preferred over S. litura eggs, regardless of the natal host and adult age. When only S. litura eggs were available as hosts, they were parasitized at statistically similar rates to H. armigera eggs (average of 17 ± 2.7 vs. 13 ± 3.0, H. armigera to S. litura). The adult lifespan and lifetime fecundity of T. pretiosum were variable but were affected by natal host species and/or host species to which they were exposed. Mean lifespan and fecundity of parasitoids that had developed in H. armigera eggs and were exposed to H. armigera eggs for oviposition were 13.9 ± 1.8 days and 98.7 ± 11.0 adult offspring. By contrast, those that developed in S. litura eggs and were exposed to S. litura eggs for oviposition lived for 7 ± 0.9 days and produced 53.8 ± 8.0 adult offspring. The ovigeny index (OI) was significantly lower in the parasitoids exposed to H. armigera eggs than in those exposed to S. litura eggs, regardless of the natal host, indicating that H. armigera eggs sustain the adult parasitoids better than S. litura eggs. These results are used to predict parasitoid behavior in the field when both hosts are available.     

Studies on Trypsin Inhibitor in Bean (Phaseolus vulgaris L) Cultivars of Himalayan Region

Eight Phaseolus vulgaris L cultivars of Himalayan region were analyzed for trypsin inhibitor activity and inhibition of gut trypsin enzyme extracted from Spodoptera littoralis larvae. Trypsin unit inhibited per gram seed weight was maximum in local yellow cultivar. The trypsin inhibitor was purified to 65.9-fold with 55.6% recovery from seeds of selected cultivar. The purified protein had a molecular weight of 14,130 Daltons and was found to be a monomer by SIDS-PAGE. It was heat stable at 100°C for 10 minutes and had a pH optimum of 7.5. Hence, the purified inhibitor appears to be of Bowman-Birk type. It lost its activity on exposure to 0.2M 2-mercaptoethanol. The inhibition pattern was of non-competitive type and the Ki value was 0.8μM. The KM value of trypsin enzyme for the substrate BApMA was 2.2mM.     

Molecular cloning and recombinant expression of cytochrome P450 CYP6B6 from Helicoverpa armigera in Escherichia coli

The cytochrome P450 s play a significant role in the detoxification of plant allelochemicals and synthetic insecticides in Lepidoptera. In the cotton bollworm Helicoverpa armigera, 2-tridecanone and quercetin can induce P450-dependent monooxygenase activity increased, to further the characterization of P450, the CYP6B6 of cotton bollworm (H. armigera) was cloned, sequenced and expressed in pMAL-p2x vector and expressed in Escherichia coli. The deduced amino acid sequences of cytochrome P450 in the midgut and fat body of H. armigera showed 98.23 and 97.84 % similarity with CYP6B6, respectively. According to nomenclature of P450 s, the P450 genes we got belong to CYP6B. Purification of recombinant protein based on the affinity of MBP for maltose was achieved by Mal-Tag magnetic beads. The purified protein was used to raise polyclonal antibody according to classical procedure. SDS–PAGE and Western blot results indicated that MBP-CYP6B6 had been successfully expressed. The ethoxycoumarin-O-deethylase activity of the purified recombinant protein was 36.5 ± 8.12 pmol of 7-hydroxycoumarin/min/mg protein, which showed the fusion MBP-CYP6B6 had the ability to o-deethylase of 7-ethoxycoumarin.     

THE INFLUENCE OF A 21 kDa KUNITZ‐TYPE TRYPSIN INHIBITOR FROM NONHOST MADRAS THORN,Pithecellobium dulce,SEEDS ON H. armigera (HÜBNER) (LEPIDOPTERA: NOCTUIDAE)

A trypsin inhibitor purified from the seeds of the Manila tamarind, Pithecellobium dulce (PDTI), was studied for its effects on growth parameters and developmental stages of  Helicoverpa armigera. PDTI exhibited inhibitory activity against bovine trypsin (～86%; ～1.33 ug/ml IC₅₀). The inhibitory activity of PDTI was unaltered over a wide range of temperature, pH, and in the presence of dithiothreitol. Larval midgut proteases were unable to digest PDTI for up to 12 h of incubation. Dixon and Lineweaver–Burk double reciprocal plots analysis revealed a competitive inhibition mechanism and a K_i of ～3.9 × 10^?8 M. Lethal dose (0.50% w/w) and dosage for weight reduction by 50% (0.25% w/w) were determined. PDTI showed a dose‐dependent effect on mean larval weight and a series of nutritional disturbances. In artificial diet at 0.25% w/w PDTI, the efficiency of conversion of ingested food, of digested food, relative growth rate, and growth index declined, whereas approximate digestibility, relative consumption rate, metabolic cost, consumption index, and total developmental period were increased in larvae. This is the first report of antifeedant and antimetabolic activities of PDTI on midgut proteases of  H. armigera.     

Chickpea Defensive Proteinase Inhibitors Can Be Inactivated by Podborer Gut Proteinases

Developing chickpea (Cicer arietinum L.) seeds 12 to 60 d after flowering (DAF) were analyzed for proteinase inhibitor (Pi) activity. In addition, the electrophoretic profiles of trypsin inhibitor (Ti) accumulation were determined using a gel-radiographic film-contact print method. There was a progressive increase in Pi activity throughout seed development, whereas the synthesis of other proteins was low from 12 to 36 DAF and increased from 36 to 60 DAF. Seven different Ti bands were present in seeds at 36 DAF, the time of maximum podborer (Helicoverpa armigera) attack. Chickpea Pis showed differential inhibitory activity against trypsin, chymotrypsin, H. armigera gut proteinases, and bacterial proteinase(s). In vitro proteolysis of chickpea Ti-1 with various proteinases generated Ti-5 as the major fragment, whereas Ti-6 and -7 were not produced. The amount of Pi activity increased severalfold when seeds were injured by H. armigera feeding. In vitro and in vivo proteolysis of the early- and late-stage-specific Tis indicated that the chickpea Pis were prone to proteolytic digestion by H. armigera gut proteinases. These data suggest that survival of H. armigera on chickpea may result from the production of inhibitor-insensitive proteinases and by secretion of proteinases that digest chickpea Pis.     

A Kunitz trypsin inhibitor from chickpea (<Emphasis Type="Italic">Cicer arietinum</Emphasis> L.) that exerts anti-metabolic effect on podborer (<Emphasis Type="Italic">Helicoverpa armigera</Emphasis>) larvae

Chickpea (Cicer arietinum L.) seeds contain Bowman–Birk proteinase inhibitors, which are ineffective against the digestive proteinases of larvae of the insect pest Helicoverpa armigera. We have identified and purified a low expressing proteinase inhibitor (PI), distinct from the Bowman–Birk Inhibitors and active against H. armigera gut proteinases (HGP), from chickpea seeds. N-terminal sequencing of this HGP inhibitor revealed a sequence similar to reported pea (Pisum sativum) and chickpea -l-fucosidases and also homologous to legume Kunitz inhibitors. The identity was confirmed by matrix assisted laser desorption ionization – time of flight analysis of tryptic peptides and isolation of DNA sequence coding for the mature protein. Available sequence data showed that this protein forms a distinct phylogenetic cluster with Kunitz inhibitors from Glycine max, Medicago truncatula, P. sativum and Canavalia lineata. The isolated coding sequence was cloned into a yeast expression vector and produced as a recombinant protein in Pichia pastoris. -l-fucosidase activity was not detectable in purified or recombinant protein, by solution assays. The recombinant protein did not inhibit chymotrypsin or subtilisin activity but did exhibit stoichiometric inhibition of trypsin, comparable to soybean Kunitz trypsin inhibitor. The recombinant protein exhibited higher inhibition of total HGP activity as compared to soybean kunitz inhibitor, even though it preferentially inhibited HGP-trypsins. H. armigera larvae fed on inhibitor-incorporated artificial diet showed significant reduction in average larval weight after 18 days of feeding demonstrating potent antimetabolic activity. The over-expression of this gene in chickpea could act as an endogenous source of resistance to H. armigera.     

Differences in the susceptibility of five herbivore species and developmental stages to tomato resistance induced by methyl jasmonate treatment

We compared the susceptibility of five herbivores to tomato resistance induced by methyl jasmonate (MeJA) treatment. We tested for lethal effects against five herbivores (Spodoptera litura, Mamestra brassicae, Frankliniella occidentalis, Tetranychus urticae, and Henosepilachna vigintioctopunctata) at various MeJA concentrations. The mortality of all five herbivores increased significantly with increasing MeJA concentration. The 25 % lethal concentration was 0.03 μM for both first-instar larvae of S. litura and third-instar larvae of M. brassicae, 0.51 μM for third-instar larvae of S. litura, 0.76 μM for adult T. urticae, 2.4 μM for first-instar larvae of F. occidentalis, and 5.7 μM for first-instar larvae of H. vigintioctopunctata. Thus, the degree of susceptibility to MeJA-induced resistance of tomato was first-instar larvae of S. litura = third-instar larvae of M. brassicae > third-instar larvae of S. litura ≈ adult T. urticae > first-instar larvae of F. occidentalis > first-instar larvae of H. vigintioctopunctata. Mortality of first-instar larvae of M. brassicae was >90 % at all concentrations. Mortality of fourth-instar larvae of H. vigintioctopunctata (<7 %) was similar to that of the control at all MeJA concentrations. We also detected statistically significant weight loss of the surviving lepidopteran larvae, increased larval duration of F. occidentalis and H. vigintioctopunctata, and reduced egg production by T. urticae grown on MeJA-treated tomato, suggesting that the MeJA-induced resistance can control these herbivores, but effectiveness is different on different species and growth stage. Feeding by both M. brassicae and H. vigintioctopunctata larvae activated JA-inducible genes in tomato.     

Antifungal and larvicidal activities of two acyclic monoterpenes; citral and geraniol against phytopathogenic fungi and insects

Abstract

Citral and geraniol are dominating constituents of lemon and rose scented essential oils of Cymbopogon spp. Here, we report their antifungal activity against some pathogenic fungi Drechslera oryzae, Fusarium oxysporum, Rhizoctonia solani and Sclerotium rolfsii and larvicidal activity against two insects Helicoverpa armigera and Spodoptera litura. Results revealed that both citral and geraniol exhibited strong fungicidal effects at concentrations > 0.2 µL mL^?1. Citral was found most active against F. oxysporum and S. rolfsii while geraniol against S. rolfsii at 0.2–2 µL mL^?1. Nanoemulsions of citral and geraniol caused 91 and 94% larval mortality of H. armigera and S. litura, respectively, at 1% concentration. Hence, the study revealed potential antifungal and larvicidal activities of citral and geraniol, which can be implicated in formulation of biocides for effective control of phytopathogenic fungal and insects.     

Herbivore- and Elicitor- Induced Resistance in Groundnut to Asian armyworm,Spodoptera litura (Fab.) (Lepidoptera: Noctuidae)

Induced defense was studied in three groundnut genotypes ICGV 86699 (resistant), NCAc 343 (resistant) and TMV 2 (susceptible) in response to Spodoptera litura infestation and jasmonic acid (JA) application. The activity of the oxidative enzymes [peroxidase (POD) and polyphenol oxidase (PPO)] and the amounts other host plant defense components [total phenols, hydrogen peroxide (H2O2), malondialdehyde (MDA), and protein content] were recorded at 24, 48, 72 and 96 h in JA pretreated (one day before) plants and infested with S. litura, and JA application and simultaneous infestation with S. litura to understand the defense response of groundnut genotypes against S. litura damage. Data on plant damage, larval survival and larval weights were also recorded. There was a rapid increase in the activities of POD and PPO and in the quantities of total phenols, H2O2, MDA and protein content in the JA pretreated + S. litura infested plants. All the three genotypes showed quick response to JA application and S. litura infestation by increasing the defensive compounds. Among all the genotypes, higher induction was recorded in ICGV 86699 in most of the parameters. Reduced plant damage, low larval survival and larval weights were observed in JA pretreated plants. It suggests that pretreatment with elicitors, such as JA could provide more opportunity for plant defense against herbivores.     

Trypsin inhibitor in mung bean cotyledons: purification, characteristics, subcellular localization, and metabolism

Trypsin inhibitor was purified to homogeneity from seeds of the mung bean (Vigna radiata [L.] Wilczek). The protease inhibitor has the following properties: inhibitory activity toward trypsin, but not toward chymotrypsin; isoelectric point at pH 5.05; molecular weight of 11,000 to 12,000 (sodium dodecyl sulfate gel electrophoresis) or 14,000 (gel filtration); immunological cross-reactivity against extracts of black gram and black-eyed pea, but not against soybean; no inhibitory activity against vicilin peptidohydrolase, the principal endopeptidase in the cotyledons of mung bean seedlings.

The trypsin inhibitor content of the cotyledons declines in the course of seedling growth and the presence of an inactivating factor can be demonstrated by incubating crude extracts in the presence of β-mercaptoethanol. This inactivating factor may be a protease as vicilin peptidohydrolase rapidly inactivates the trypsin inhibitor. Removal of trypsin inhibitory activity from crude extracts by means of a trypsin affinity column does not result in an enhancement of protease activity in the extracts.

The intracellular localization of trypsin inhibitor was determined by fractionation of crude extracts on isopycnic sucrose gradients and by cytochemistry with fluorescent antibodies. Both methods indicate that trypsin inhibitor is associated with the cytoplasm and not with the protein bodies where reserve protein hydrolysis occurs. No convincing evidence was obtained which indicates that the catabolism of trypsin inhibitor during germination and seedling growth is causally related to the onset of reserve protein breakdown.

     

Proteinase inhibitors from <Emphasis Type="Italic">Cajanus platycarpus</Emphasis> accessions active against pod borer <Emphasis Type="Italic">Helicoverpa armigera</Emphasis>

Cajanus platycarpus, a wild relative of Cajanus cajan, is an important source for various agronomically desirable traits, including resistance towards pod borer, Helicoverpa armigera. In the present study, the inhibitory activity of proteinase inhibitors (PIs) present in crude protein extracted from different accessions of C. platycarpus and cultivars of C. cajan was evaluated against H. armigera under in vitro and in vivo conditions. The PIs active against H. armigera gut trypsin-like proteinases (HGPs), referred to as ‘HGPIs’, were more pronounced in mature dry seeds of C. platycarpus accessions when compared with cultivars, which is also evident through gelatin activity staining studies. Therefore, the inhibitory activity of HGPIs was further evaluated in various plant organs of C. platycarpus accessions, such as leaves, flowers, pods, developing seeds at 8–10 days (DAP-I), 18–20 days (DAP-II), and 28–32 days after pollination (DAP-III). However, the HGPI activity was more pronounced in mature dry seeds > DAP-III > DAP-II > DAP-I > flowers > pods > leaves. The observed quantitative allocation of HGPIs closely resembled “Optimal Defense Theory”. Further, bioassays demonstrated that there was a significant reduction in the body weight of the larvae fed upon crude PI extracts of C. platycarpus accessions with concomitant increase in mortality rate and the formation of larval–pupal intermediates. Nevertheless, such changes were not observed when the larvae were fed on crude PI extracts of C. cajan cultivars. These results suggest that the PI gene(s) from C. platycarpus accessions could be exploited in the management of H. armigera by introgression into C. cajan cultivars.     

A novel insecticidal GroEL protein from Xenorhabdus nematophila confers insect resistance in tobacco

Xenorhabdus nematophila is an entomopathogenic bacteria. It secretes a GroEL homolog, XnGroEL protein, toxic to its larval prey. GroEL belongs to the family of molecular chaperones and is required for proper folding of cellular proteins. Oral ingestion of insecticidal XnGroEL protein is toxic to Helicoverpa armigera, leading to cessation of growth and development of the larvae. In the present study, the insecticidal efficacy of XnGroEL against H. armigera has been evaluated in transgenic tobacco plant expressing the protein. A 1.7-kb gene encoding the 58-kDa XnGroEL protein was incorporated into the tobacco genome via Agrobacterium-mediated transformation. The stable integration of the transgene was confirmed by Southern blot analysis and its expression by RT-PCR and western blot analyses in transgenic plants. The transgenic lines showed healthy growth and were phenotypically normal. Insect bioassays revealed significant reduction of 100 % in the survival of larvae (p < 0.001) and 55–77 % reduction in plant damage (p < 0.05 and p < 0.001) compared to the untransformed and vector control plants. The results demonstrate that XnGroEL is a novel potential candidate for imparting insect resistance against H. armigera in plants.     

Trypsin inhibitor isolated from <Emphasis Type="Italic">Streptomyces misionensis</Emphasis> UMS1 has anti-bacterial activities and activates α-amylase

Protease inhibitors (PI) discovered to be widely distributed in animals, plants and microorganisms, but the information on bacterial PI is scarce. Trypsin inhibitor, named SMTI, was purified from local actinomycete strain (Kuala Lumpur, Malaysia), Streptomyces misionensis UMS1, by acetone precipitation and trypsin-agarose affinity chromatography. Reverse-phase HPLC did not reveal isoinhibitor in purified PI. The purification resulted in a 14 kDa protein, visualized on SDS-PAGE and analyzed with MALDITOF/ TOF. Isoelectric focusing of SMTI demonstrated a single protein with an acidic pI of 6.2. SMTI showed inhibitory activity towards trypsin (74%) and chymotrypsin (41%). Kinetic analysis of trypsin inhibitory activity of SMTI revealed a competitive mechanism with an inhibition constant, Ki of 5 × 10–7 M. SMTI was also shown to have a significant ability to enhance the acitivity of α-amaylase (47%). Furthermore, SMTI exhibited an antibacterial activity against Bacillus cereus, Erwinia, Ralstonia, Salmonella typhi, and Escherichia coli with MIC of 0.06, 0.06, 0.015, 0.12, and 0.48 mg/mL, respectively