Susceptibility of larvae ofHeliothis zea,H. virescens,andH. armigera [lep.: Noctuidae] to 3 baculoviruses

The pattern of virulence (based on inclusion bodies) for 3 baculoviruses ofHeliothis, i.e. a unicapsid, nuclear polyhedrosis virus (HzSNPV); a multicapsid, nuclear polyhedrosis virus (HaMNPV); and a granulosis virus (HaGIV) was the same (HzSNPV>HaMNPV>HaGIV) for 3 species ofHeliothis. Based on numbers of nucleocapsids, however, the HaGIV was ca 2X more virulent than the HaMNPV for larvae ofH. virescens, (F.), and the HaMNPV was about 6X more virulent than the HaGIV for larvae ofH. armigera (Hübner). The fastest rate of larval mortality was obtained with HzSNPV. Although the mortality rate for HaGIV was faster than that of HaMNPV forH. virescens andH. armigera, it was slower than that of HaMNPV for larvae ofH. zea (Boddie). The pattern of susceptibility ofHeliothis species to HzSNPV and HaMNPV wasH. zea>H. virescens>H. armigera. Differences in susceptibility of the least susceptible species (H. armigera) and the most susceptible species (H. zea) to HzSNPV was ca. 1.6 X. Larvae ofH. zea, however, were ca. 4 to 6 X more susceptible to HaMNPV than were larvae ofH. virescens orH. armigera. A different pattern of susceptibility was recorded for HaGIV when larvae were challenged with HzSNPV and HaMNPV. Larvae ofH. virescens were ca. 20 and 35 X more susceptible to HaGIV than were larvae ofH. zea andH. armigera, respectively.     

Helicoverpa armigera granulovirus interference with progression of H. zea nucleopolyhedrovirus disease in H. zea larvae

Capsular proteins from Helicoverpa armigera granulovirus (HaGV) have previously been shown to enhance H. armigera nucleopolyhedrovirus (HaSNPV) infection in H. armigera larvae. Yet, HaGV and HaS-NPV, as viable viruses, interfered with one another. In our study, we have examined the effects of co-infection of the slow-killing virus HaGV with the fast-killing virus Helicoverpa zea NPV (HzSNPV) on H. zea larvae. The mortality parameter measured was survival time. Virus stocks had 50% lethal concentrations of 3.2x10(-9) g HaGV-infected cadavers (GVC) (HaGV) and 32 occlusion bodies (HzSNPV) per cup. Average survival times were 16.8 and 5.5 days for larvae treated with HaGV and HzSNPV, respectively; death of HzSNPV-treated larvae was as early as 72 h posttreatment. In co-infection experiments in which larvae were treated concurrently with both viruses, the viruses competed in typical fashion for host resources. However, interference with disease progression in HzSNPV-fed larvae occurred even when HaGV was fed to larvae up to 36 h after the NPV, a time at which NPV infection should have been well established in host larvae. At death, co-infected larvae were observed microscopically to be filled with HaGV granules rather than HzSNPV polyhedra. The time study results imply that HaGV might be outcompeting HzSNPV by inhibiting its replication. We also observed that H. zea larvae treated with high dosages of HaGV (> or =3x10(-5) g GVC) were initially stunted but had survival times similar to those of larvae treated with lower dosages.     

Genetic variation and virulence of nucleopolyhedroviruses isolated worldwide from the heliothine pests Helicoverpa armigera, Helicoverpa zea, and Heliothis virescens

To assess the diversity and relationships of baculoviruses found in insects of the heliothine pest complex, a PCR-based method was used to classify 90 samples of nucleopolyhedrovirus (NPV; Baculoviridae: Alphabaculovirus) obtained worldwide from larvae of Heliothis virescens, Helicoverpa zea, and Helicoverpa armigera. Partial nucleotide sequencing and phylogenetic analysis of three highly conserved genes (lef-8, lef-9, and polh) indicated that 67 of these samples contained isolates of the H. zea-H. armigera single nucleopolyhedrovirus (Hz/HaSNPV) species group. Eighteen of the samples contained isolates of a multiple NPV from H. armigera, HearMNPV, and five of the samples contained isolates of Autographa californica MNPV (AcMNPV). Sequencing and analysis of an additional seven loci (orf5/orf5b, hr3-orf62, orf26, orf79, orf124/orf117a, orf42, and a part of the region between hr2 and hr3) in the Hz/HearSNPV isolates further classified these viruses into two groups of HearSNPV variants mostly from India and China and a third group of HzSNPV variants. Some of the samples contained isolates of more than one virus. In bioassays of a selection of isolates against H. zea, the commercially available Gemstar® isolate of HzSNPV killed larvae faster than most other Hz/HaSNPV and HearMNPV isolates. Gemstar® and two HearMNPV isolates exhibited significantly higher LC₅₀s than the Hz/HearSNPV isolates tested. This study expands significantly on what we know about the variation of heliothine NPV populations, provides novel information on the distinct groups in which these NPVs occur, and contributes to the knowledge required for improvement of heliothine baculoviruses as biological control agents.     

Biological Comparison of Two Genotypes of Helicoverpa armigera Single-Nucleocapsid Nucleopolyhedrovirus

Baculovirus isolates from the same host species often show a considerable degree of variation on phenotypes. The completely sequenced genotypes C1 and G4 of Helicoverpa armigera single-nucleocapsid nucleopolyhedrovirus (HaSNPV) were compared. Bioassay studies suggested that nearly double of HaSNPV G4 virus was required compared with HaSNPV C1 to achieve a similar LD₅₀, and at the LD₉₀ level the insect-killing speed for HaSNPV C1 was quicker than that of HaSNPV G4. The budded virus (BV) production of HaSNPV C1 was nearly two- to threefold higher at 24 and 48 h post-infection (p.i.) than that of HaSNPV G4. However, the kinetics of polyhedral inclusion body (PIB) formation in HzAM1 cells was similar in both the genotypes, which implied that the insect-killing speed was not influenced by PIB formation, but by the kinetics of BV production. The results suggested that the HaSNPV C1 isolate was a better choice than HaSNPV G4 virus for controlling H. armigera.     

Electron microscopical studies and restriction analysis ofHelicoverpa armigera nucleo polyhedrosis virus

Nuclear polyhedrosis virus ofHelicoverpa armigera (HaNPV) from Madurai (south India) was isolated, purified and subjected to electron microscopical studies. The results indicate that the isolate is a multi embedded form of NPV. Further, STEM observations on polyhedra and polyhedral envelope of the HaMNPV are presented. The restriction pattern and genome size of HaMNPV Madurai isolate are compared with HaNPV isolates reported earlier. A dendrogram is presented to show the relatedness among the isolates.     

Susceptibility of Heliothis armiger to a commercial nuclear polyhedrosis virus

The susceptibility of Heliothis armiger larvae of different ages to a commercial nuclear polyhedrosis virus (NPV), Elcar, was determined by bioassay. The median lethal dosage (LD₅₀) increased 150-fold during the first week of larval life at 25°C, i.e., during development to early fourth instar, but daily feeding rate and thus potential virus acquisition also increased. A linear relationship was determined between log LD₅₀ and larval length, indicating that larval length constitutes a useful index for estimating the susceptibility of larval populations. Median lethal times (LT₅₀s) were similar for larvae tested at ages of 0 to 7 days and ranged from 3.6 to 8.0 days at 30°C. The amount of virus produced in a single, infected neonate was equivalent to 1.4 × 10⁶ LD₅₀s for neonates, a 900,000-fold increase on the dose supplied. The data support the practice of directing the NPV against neonates, but, on the basis of larval susceptibility alone, the age of larvae at treatment may not always be critical.     

Manifold passages in an assorted infection in a host could improve virulence of Helicoverpa armigera Nucleopolyhedrovirus (HaNPV)

Helicoverpa armigera Hübner (Lepidoptera: Noctuidae) is serious pests of cotton and several other crops. Helicoverpa armigera Nucleopolyhedrovirus (HaNPV) can be important alternative to synthetic insecticides for the management of H. armigera. However, the efficacy of HaNPV can vary in horizontal and vertical transmission. In the current study, we evaluated the efficacy of HaNPV of a virulent strain (vertically transmitted up to six generations) and wild strains (used after isolation from the field infected larvae). Both strains were applied to the 2nd instar larvae of H. armigera @ 1 × 10⁹ polyhedral inclusion bodies (PIB)/ml. There were six replications of each strain (strains). The results indicated higher mortalities in larvae exposed to virulent strains (68.33 ± 6.07%) as compared to wild strain (45 ± 2.24%). Virulent strains killed the larvae quite faster than wild strain. The lethal time (LT₅₀) to kill 50% of the larvae by virulent strain was 7.15 days and for wild strain it was 19.47 days. The results showed that multiple passage of HaNPV through several generations enhances its efficacy to kill H. armigera larvae faster. The results of this study will be helpful to manage H. armigera and other related lepidopoterous pests.     

Bioefficacy and mode of action of rocaglamide from Aglaia elaeagnoidea (syn. A. roxburghiana) against gram pod borer,Helicoverpa armigera (Hübner)

Abstract: Rocaglamide, a highly substituted benzofuran, was isolated and identified as the main biologically active component in Aglaia elaeagnoidea (syn. A. roxburghiana) for gram pod borer Helicoverpa armigera (Hübner). Addition of rocaglamide to an artificial diet retarded the growth of neonate larvae in a dose‐dependent manner with EC₅₀ values of 0.76 p.p.m. These values compared favourably with azadirachtin (EC₅₀ = 0.23 p.p.m.). However, azadirachtin was apparently more potent than rocaglamide in inducing growth inhibition via oral administration to these first stadium larvae. The candidate compound was found to have LD₅₀ and LD₉₅ values of 0.40 and 1.02 μg per larva, respectively, in topical application against third instar larvae 96 h post‐treatment. However, these values for azadirachtin were 8.16 and 25.8 μg per larva for the same period. This shows that azadirachtin was less effective against third instar H. armigera larvae in inducing acute toxicity via topical treatment in comparison with rocaglamide. However, severe morphological larval deformities were observed in such azadirachtin‐treated larvae during the process of ecdysis. The cytotoxic nature of rocaglamide was established by evaluating dietary utilization and the results did not implicate any antifeedant effect but the toxicity‐mediated effect due to reduced efficiency of conversion of ingested food. It was obvious that feeding deterrence is not the primary mode of action but a centrally mediated effect, which could be due to the induced cytotoxicity at non‐specific cellular levels.     

Variation in the time‐mortality responses of laboratory and field populations of Helicoverpa armigera infected with nucleopolyhedrovirus

The virulence of Helicoverpa armigera nucleopolyhedrovirus (HearNPV) to South African laboratory and field populations of Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae) was evaluated. After determining the volume imbibed by each population, bioassays were performed using the droplet feeding method and gradient‐purified HearNPV occlusion bodies. Evaluation of dose‐ and time‐mortality data showed that the median lethal doses (LD₅₀s) did not differ significantly between the populations but that the median lethal time (LT₅₀) of the laboratory population was significantly shorter than the LT₅₀s of the field populations. The study shows the importance of considering both the dose‐ and time‐mortality responses when comparing the response variability of populations to a nucleopolyhedrovirus infection.     

Recombinant Helicoverpa armigera nucleopolyhedrovirus with arthropod‐specific neurotoxin gene RjAa17f from Rhopalurus junceus enhances the virulence against the host larvae

A recombinant Helicoverpa armigera nucleopolyhedrovirus (HearNPV) expressing the insect‐selective neurotoxin (RjAa17f) from Cuban scorpion Rhopalurus junceus was constructed by replacing the UDP‐glucosyltransferase gene (egt) using λ‐red homologous recombination system. Another egt deleted control HearNPV was constructed in a similar way by inserting egfp gene into the egt locus. One‐step viral growth curve and viral DNA replication curve analysis confirmed that the recombination did not affect the viral growth and DNA replication in host cells. There is no discernable difference in occlusion‐body morphogenesis between RjAa17f‐HearNPV, Egfp‐HearNPV and HZ8‐HearNPV, which was confirmed by transmission electron microscopy analysis. However, the insecticidal activity of RjAa17f‐HearNPV is enhanced against the third instar H. armigera larvae according to the bioassay on virulence comparison. There is a dramatic reduction (56.9%) in median lethal dose (LD₅₀) and also a reduction (13.4%) in median survival time (ST₅₀) for the recombinant RjAa17f‐HearNPV compared to the HZ8‐HearNPV, but only a 27.5% reduction in LD₅₀ and 10.1% reduction in ST₅₀ value when Egfp‐HearNPV is compared with HZ8‐HearNPV. The daily diet consumption analysis showed that the RjAa17f‐HearNPV was able to inhibit the infected larvae feeding compared with the egt minus HearNPV. These results demonstrated that this novel recombinant RjAa17f‐HearNPV could improve the insecticidal effect against its host insects and RjAa17f could be a considerable candidate for other recombinant baculovirus constructions.     

Strains of protoplasts of Entomophthora egressa in spruce budworm larvae

Protoplasts of strain 458 (S458) and strain 521 (S521) of Entomophthora egressa had LD₅₀s of 620 and 8.8 cells/insect, respectively, for sixth-instar spruce budworm larvae. Both protoplast strains exhibited biphasic growth profiles with comparable growth rates in the larval hemocoel. The growth rates of the fungal strains increased as the total hemocyte counts declined. Hemocytopenia was greatest and most rapid in larvae containing S521 protoplasts. Protoplasts of S521 exposed to α-mannosidase and β-N-acetylglucosaminidase were as virulent as the control cells. β-Galactosidase reduced protoplast virulence.     

Resistance ofSpodoptera frugiperda [Lep.: Noctuidae] to a nuclear polyhedrosis virus in the field and laboratory

Median lethal doses (LD₅₀s) of nuclear polyhedrosis virus (NPV) were determined in neonatal offspring ofSpodoptera frugiperda (J. E. Smith) (Sf) larvae captured in southeastern Louisiana in 1981, 1982, and 1984. These LD₅₀s ranged from 1.8 to 16.3 polyhedral inclusion bodies (PIB)/insect. The LD₅₀s significantly (P<0.05) increased during the season of 1982 but had no pattern in 1981 or 1984. However, the Sf populations increased in heterogeneity of response to the NPV during all 3 years. The LD₅₀ increased from 4.1 to 18.7 PIB/insect in a Sf laboratory colony exposed to the NPV LD₈₀ for 7 generations, whereas in a control colony not exposed to NPV the LD₅₀ was 5.9 PIB/insect after 7 generations.     

Interaction between MbMNPV and the braconid parasitoid Habrobracon hebetor (Hym., Braconidae) on larvae of beet armyworm,Spodoptera exigua (Lep., Noctuidae)

The survival of a braconid parasitoid Habrobracon hebetor was investigated on nucleopolyhedrovirus (NPV)-infected Spodoptera exigua larvae. The second-instar larvae were exposed to 30, 51.4 and 180 PIB/mm² of Mamestra brassicae NPV (MbMNPV) as under-LD₅₀, LD₅₀ and over-LD₅₀ values, respectively. They were accessible to be parasitized by H. hebetor after 24, 48 and 72 h post-treatment. Infection of the larvae with MbNPV was deleterious to the survival and parasitism of H. hebetor. The survival of H. hebetor in MbNPV-infected S. exigua larvae was dependent on the interval between viral infection and parasitization, as well as on the treatment dose of MbMNPV; very few adults of parasitoid emerged from infected hosts when host larvae were exposed to 180 PIB/mm² of MbNPV on 72-h interval treatment. The inoculation dose of MbNPV and the timing of parasitoid release had significant effect on the development of H. hebetor on virus-infected hosts. Field applications of virus for biocontrol of S. exigua may lead to substantial mortality of immature parasitoids.     

A new cell line from larval fat bodies of the bollworm, Helicoverpa armigera (Lepidoptera: Noctuidae)

Summary A new cell line, designated IOZCAS-Ha-I, was initiated from the fat body of larvae of Helicoverpa armigera (Lepidoptera: Noctuidae) in TNM-FH medium containing 10% fetal bovine serum. Spherical cells were predominant among the various cell types. The cell line showed a typical lepidopteran chromosome pattern ranging from 58 to 239 chromosomes in the majority of the cells, it was confirmed to have originated from the H. armigera by the DNA amplification-fingerprinting polymerase chain reaction (DAF-PCR) technique. The new cell line was only slightly susceptible to the multiple nucleocapsid nuclear polyhedrosis viruses (NPV) from H. armigera.     

Genetic variation of the VP1 gene of the virulent duck hepatitis A virus type 1 (DHAV-1) isolates in Shandong province of China

To investigate the relationship of the variation of virulence and the external capsid proteins of the pandemic duck hepatitis A virus type 1 (DHAV-1) isolates, the virulence, cross neutralization assays and the complete sequence of the virion protein 1 (VP1) gene of nine virulent DHAV-1 strains, which were isolated from infected ducklings with clinical symptoms in Shandong province of China in 2007–2008, were tested. The fifth generation duck embryo allantoic liquids of the 9 isolates were tested on 12-day-old duck embryos and on 7-day-old ducklings for the median embryonal lethal doses (ELD₅₀s) and the median lethal doses (LD₅₀s), respectively. The results showed that the ELD₅₀s of embryonic duck eggs of the 9 DHAV-1 isolates were between 1.9 × 10⁶/mL to 1.44 × 10⁷/mL, while the LD₅₀s were 2.39 × 10⁵/mL to 6.15 × 10⁶/mL. Cross-neutralization tests revealed that the 9 DHAV-1 isolates were completely neutralized by the standard serum and the hyperimmune sera against the 9 DHAV-1 isolates, respectively. Compared with other virulent, moderate virulent, attenuated vaccine and mild strains, the VP1 genes of the 9 strains shared 89.8%–99.7% similarity at the nucleotide level and 92.4%–99.6% at amino acid level with other DHAV-1 strains. There were three hypervariable regions at the C-terminus (aa 158–160, 180–193 and 205–219) and other variable points in VP1 protein, but which didn’t cause virulence of DHAV-1 change.     

Properties of a unique mutant of Helicoverpa armigera single-nucleocapsid nucleopolyhedrovirus that exhibits a partial many polyhedra and few polyhedra phenotype on extended serial passaging in suspension cell cultures

Summary Serial passaging of wild-type Helicoverpa armigera single-nucleocapsid nucleopolyhedrovirus (HaSNPV) in H. zea (Hz-AM1) insect cell cultures results in rapid selection for the few polyhedra (FP) phenotype. A unique HaSNPV mutant (ppC19) was isolated through plaque purification that exhibited a partial many polyhedra (MP) and FP phenotype. On serial passaging in suspension cell cultures, ppC19 produced fivefold more polyhedra than a typical FP mutant (FP8AS) but threefold less polyhedra than the wild-type virus. Most importantly, the polyhedra of ppC19 exhibited MP-like virion occlusion. Furthermore, ppC19 produced the same amount of budded virus (BV) as the FP mutant, which was fivefold higher than that of the wild-type virus. This selective advantage was likely to explain its relative stability in polyhedra production for six passages when compared with the wild-type virus. However, subsequent passaging of ppC19 resulted in a steep decline in both BV and polyhedra yields, which was also experienced by FP8AS and the wild-type virus at high passage numbers. Genomic deoxyribonucleic acid profiling of the latter suggested that defective interfering particles (DIPs) were implicated in this phenomenon and represented another undesirable mutation during serial passaging of HaSNPV. Hence, a strategy to isolate HaSNPV clones that exhibited MP-like polyhedra production but FP-like BV production, coupled with low multiplicities of infection during scale-up to avoid accumulation of DIPs, could prove commercially invaluable.     

Effects of Bacillus thuringiensisδ-endotoxin-fed Helicoverpa armigera on the survival and development of the parasitoid Campoletis chlorideae

With the deployment of transgenic crops expressing δ‐endotoxins from Bacillus thuringiensis (Bt) for pest management, there is a need to generate information on the interaction of crop pests with their natural enemies that are important for regulation of pest populations. Therefore, we studied the effects of the Bt δ‐endotoxins Cry1Ab and Cry1Ac on the survival and development of the parasitoid Campoletis chlorideae Uchida (Hymenoptera: Ichneumonidae) reared on Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae) larvae fed on Bt toxin‐intoxicated artificial diet. The H. armigera larvae fed on artificial diet impregnated with Cry1Ab and Cry1Ac at LC₅₀ (effective concentration to kill 50% of the neonate H. armigera larvae) and ED₅₀ (effective concentration to cause a 50% reduction in larval weight) levels before and after parasitization resulted in a significant reduction in cocoon formation and adult emergence of C. chlorideae. Larval period of the parasitoid was prolonged by 2 days when fed on Bt‐intoxicated larvae. No adverse effects were observed on female fecundity. The observed effects appeared to be indirect in nature, because no Bt proteins were detected through enzyme‐linked immunosorbent assay in the C. chlorideae larvae, cocoons, or adults fed on Cry1Ab‐ or Cry1Ac‐treated H. armigera larvae. The effects of Bt toxin proteins on C. chlorideae were due to early mortality of H. armigera larvae, that is, before completion of parasitoid larval development.     

Effect of repeated in vitro sub-culturing on the virulence of Metarhizium anisopliae against Helicoverpa armigera (Lepidoptera: Noctuidae)

The effect of repeated conidial sub-culturing of Metarhizium anisopliae on its virulence against Helicoverpa armigera (Hübner) was studied. The LT₅₀ observed against third instar larvae of H. armigera for the first sub-culture was 3.4 days; it increased to 4.5 and 5.6 days for the 20th and the 40th sub-cultures, respectively. The LT₅₀ values after passage of the 40th sub-culture on H. armigera decreased to 4.4 and 3.7 days for the 40th (first in vivo) and the 40th (fifth in vivo) passages, respectively. Similarly, the LC₅₀ of M. anisopliae towards third instar larvae of H. armigera increased from the first sub-culture (0.17×10⁴) to (3.0×10⁴) for the 40th conidial transfers on potato dextrose agar and again decreased to 0.74×10⁴ and 0.23×10⁴ in the 40th (first in vivo) and the 40th (fifth in vivo) passage, respectively. Similar trends for LC₅₀ and LT₅₀ values were seen when sugarcane woolly aphid, Ceratovacuna lanigera Zehntner was used as a host. Significant variation in appressorium formation and cuticle-degrading enzyme production such as chitinase, chitin deacetylase, chitosanase and protease during subsequent sub-culturing and passage through H. armigera was observed. Though there was no effect on internal transcribed spacer (ITS) sequence pattern, interestingly, in randomly amplified polymorphic DNA (RAPD), significant differences in the band intensities and in the banding pattern for different sub-cultures of M. anisopliae were observed. As stable virulence towards the insect pest is desirable for commercialisation of a mycoinsecticide, such changes in virulence due to repeated in vitro transfer need to be monitored and minimised.     

Formulation and optimisation of various nuclear polyhedrosis virus isolates and assessment of their insecticidal activity against Helicoverpa armigera (Hubner) (Lepidoptera: Noctuidae) larvae

Helicoverpa armigera (Hubner) is a pest that poses serious threat to the tomato crop in India. Larvae of this species are susceptible to the nucleopolyhedrovirus (NPV), which has attracted interest as a potential biocontrol agent. Rearing of larvae in natural diet resulted in less number of pupae, while in artificial diet more pupae and healthy adults were obtained. The NPV was tested for its insecticidal action against H. armigera in natural and artificial diets. The bioassay results of inoculated H. armigera nucleopolyhedrosis virus (HaNPV) with different concentrations indicate that the 4.0 g/l dosage caused maximum mortality (70.3% and 60.54%), and minimum mortality 46.83% and 44.08% was recorded in the 0.5 g/l dosage under laboratory and pot culture conditions, respectively. Polyhedral inclusion bodies (PIBs) were estimated using a standard haemocytometer. According to the estimate, purified PIBs were found at a concentration of 1 × 10⁹/ml. The different formulation of NPV, i.e. wettable fine powder with a hue of white, had a particle size of 100 μm with a concentration of 1 × 10⁸/ml. The encapsulated product was found to be in the form of beads and was red in colour with a concentration of 1 × 10⁸ PIBs/ml. The effectiveness of NPV against H. armigera larvae was noted at maximum LC₅₀ values at a concentration of 1 × 10⁹/ml. Qualitative analysis estimates showed that protein polyhedrin and enzyme chitinase had a molecular weight of 33 and 45 kDa, respectively. Viral DNA was isolated from NPV-infected larvae and was then separated using SDS-PAGE. The estimated polyhedrin with a molecular weight of 33 kDa, which is responsible for the increased mortality percent of larvae, was confirmed by the bioassay. Hence it was concluded that NPV is ecofriendly in the management of pests on tomato and other crops.