The effect of magnesium ions on the solubility of polyhedral inclusion bodies and its possible role in the inactivation of the nuclear polyhedrosis virus of Spodoptera littoralis by the cotton leaf gland exudate

Polyhedral inclusion bodies of Spodoptera littoralis nuclear polyhedrosis virus (NPV) treated with solutions of cotton leaf gland exudate (a process which has been shown to inactivate the NPV), exhibited a marked decrease in solubility in dilute alkali. This process is reversible with EDTA and can be simulated by MgCI₂. The effect of magnesium ions on solubility did not involve the enzyme, alkaline protease. It is suggested that this decrease in solubility may be involved in the mechanism by which the cotton leaf inactivates the NPV. However, since MgCI₂ alone could not be shown to inactivate NPV in vitro it must be assumed that other constituents of the leaf gland exudate also play a part.     

Feeding behaviour of Helicoverpa armigera larvae on insect-resistant transgenic cotton and non-transgenic cotton

Abstract: Feeding behaviour of Helicoverpa armigera Hübner (Lep.; Noctuidae) larvae on non‐transgenic Bacillus thuringiensis (Bt) cotton (Gossypium hirsutum L.), Zhong 30, and transgenic cowpea trypsin inhibitor (CpTI)‐Bt cotton, SGK 321, and non‐transgenic cotton, Shiyuan 321, was investigated in both choice tests and no‐choice tests. The results of choice tests suggested that neonates have the ability to detect and avoid transgenic cotton. In the choice tests of neonates with both transgenic and non‐transgenic cotton leaves, a significantly greater proportion of larvae and higher consumption were observed on non‐transgenic cotton than on the transgenic Bt or CpTI‐Bt cotton. In the choice tests with leaves of two transgenic cotton lines, the proportion of neonates on leaf discs of the two lines was not significantly different, but there was significantly higher consumption on CpTI‐Bt transgenic cotton than that on Bt transgenic cotton. In addition, significantly more neonates were found away from the leaf discs, lower consumption and higher mortality were achieved in the choice test with two transgenic cotton leaves than in the choice tests containing non‐transgenic cotton leaves. Leaves and buds were examined in choice tests of fourth instars. It appeared that fourth instars were found in equal numbers on transgenic and non‐transgenic cotton, except when larvae were exposed to leaves for 3 h. However, the total consumption on transgenic cotton was lower than that of the non‐transgenic cotton, so fourth instars may still have the capacity to detect transgenic cotton and reduce feeding on it, although they showed no preference on either transgenic or non‐transgenic cotton. More larvae were found off diet in the treatments with leaves than that of buds, and the number of injured leaf discs by per fourth instar was significantly higher than that of buds in choice tests, suggesting that leaf is a less preferred organ for H. armigera larvae, elicited more larval movements. Similarly, in no‐choice tests of fifth instars, significantly fewer feeding time and more moving time occurred on leaf than that of bud, boll and petal. When cotton line was considered, compared with non‐transgenic cotton, significantly lower feeding time and higher resting time occurred on the two transgenic cottons. Overall, H. armigera larvae have the ability to detect the transgenic Bt and CpTI‐Bt cottons or the less preferred organs and selectively feed more on the non‐transgenic cotton or the preferred organs, especially the neonates, which have a high capacity for avoiding transgenic cotton.     

Risk Assessment Studies: Detailed Host Range Testing of Wild-Type Cabbage Moth, Mamestra brassicae (Lepidoptera: Noctuidae), Nuclear Polyhedrosis Virus

The host range of a multiply enveloped nuclear polyhedrosis virus (NPV) (Baculoviridae) isolated from the cabbage moth, Mamestra brassicae (Lepidoptera: Noctuidae), was determined by challenging a wide range of insect species with high (10⁶ polyhedral inclusion bodies) and low (10³ polyhedral inclusion bodies) doses of the virus. The identity of the progeny virus was confirmed by dot blotting. Analysis of 50% lethal dose was carried out on selected species, and the progeny virus was identified by using restriction enzyme analysis and Southern blotting. Other than the Lepidoptera, none of the species tested was susceptible to M. brassicae NPV. Within the Lepidoptera, M. brassicae NPV was infective to members of four families (Noctuidae, Geometridae, Yponomeutidae, and Nymphalidae). Of 66 lepidopterous species tested, M. brassicae NPV was cross-infective to 32 of them; however, 91% of the susceptible species were in the Noctuidae. The relevance of host range data in risk assessment studies is discussed.     

Identification and characterization of the p35 gene of Bombyx mori nuclear polyhedrosis virus that prevents virus-induced apoptosis.

Nucleotide sequence analysis of the Bombyx mori nuclear polyhedrosis virus (BmNPV) genome revealed the existence of a gene homologous to the p35 gene of Autographa californica NPV (AcNPV), which has been shown to prevent virus-induced apoptosis. The BmNPV p35 gene showed 96.1% nucleotide and 89.6% predicted amino acid sequence identity to the AcNPV p35 gene. A mutant BmNPV (BmP35Z) lacking a functional p35 gene induced apoptosis-like cell degradation in infected BmN cells. However, unlike the p35-deleted AcNPV mutant (vAcAnh), BmP35Z replicated normally and produced polyhedral inclusion bodies. The patterns of protein synthesis and the percentages of viable BmN cells remaining following infection with either wild-type BmNPV or BmP35Z were nearly identical. BmP35Z also replicated in silkworm larvae without showing any apparent apoptotic response in infected hemocytes, fat body, or other tissues. Time to death of larvae infected with BmP35Z was similar to that for wild-type-infected larvae, and significant numbers of polyhedral inclusion bodies were produced. These results indicate that viral factors (or genes) other than p35 or host cell factors play a role in inducing, accelerating, or interfering with apoptotic processes. The evolution of baculovirus genomes is also discussed with reference to comparative analysis of the p35 and p94 gene sequences. The p94 gene is found immediately upstream of p35 in AcNPV; in BmNPV, however, the p94 gene was nearly completely missing, presumably because of large deletions in a BmNPV ancestor virus having a gene similar to the AcNPV p94 gene.     

杨树毒蛾核型多角体病毒在病虫脂肪体细胞中的形态发生

本文介绍杨毒蛾核型多角体病毒(Leucoma selicis Nuclear Polyhedrosis Virus)在病虫脂肪体细胞中的形态发生,描述了病毒粒子的形成和包被,包含体的沉积过程以及相伴随的细胞病变。     

Biochemical properties of viral envelopes of insect baculoviruses and their role in infectivity

The enveloped virions of a nuclear polyhedrosis virus (NPV) and those of a granulosis virus (GV) of the armyworm, Pseudaletia unipuncta, were isolated and purified from their inclusion bodies. The enveloped virion of NPV contained a large amount of phosphatidyl choline which was not detected in that of GV. The total electric charges distributed on the surface of the envelopes of NPV and GV were negative in neutral and alkaline solutions. Although there was little difference in charges between NPV and GV, the charge was less negative in NPV than in GV. When the negative charges were neutralized by cationic detergents, the NPV infectivity was enhanced.     

Effect of larval age and dosage of nuclear polyhedrosis virus on the susceptibility of diamondback moth, Plutella xylostella

A laboratory experiment was conducted to study the efficacy of nuclear polyhedrosis virus (NPV) with nine concentrations against all stadia of Plutella xylostella (L). The susceptibility of the larvae was correlated negatively with the period of development of the larvae and positively with the virus concentrations. The highest mortality of 84% was recorded in first stadium larvae compared to lowest mortality of 38% in fourth stadium larvae. The LC₅₀ was 5.5×10¹ and 4.0×10⁴ polyhedral inclusion bodies (PIB)/ml for first and fourth stadium larvae, respectively.     

The infectivity and host range of Orgyia anartoides nucleopolyhedrovirus

The painted apple moth (PAM), Teia anartoides (Walker) (Lepidoptera: Lymantriidae) made a recent incursion into New Zealand. A nucleopolyhedrovirus (NPV), Orgyia anartoides NPV (OranNPV), originally isolated from PAM in Australia, was tested for its pathogenicity to PAM and a range of non‐target insect species found in New Zealand, to evaluate its suitability as a microbial control for this insect invader. Dosage‐mortality tests showed that OranNPV was highly pathogenic to PAM larvae; mean LT₅₀ values for third instars ranged from 17.9 to 8.1 days for doses from 10² to 10⁵ polyhedral inclusion bodies/larva, respectively. The cause of death in infected insects was confirmed as OranNPV. Molecular analysis established that OranNPV can be identified by PCR and restriction digestion, and this process complemented microscopic examination of infected larvae. No lymantriid species occur in New Zealand; however, the virus had no significant effects on species from five other lepidopteran families (Noctuidae, Tortricidae, Geometridae, Nymphalidae and Plutellidae) or on adult honeybees. Thus, all indications from this initial investigation are that OranNPV would be an important tool in the control of PAM in a future incursion of this species into New Zealand.     

Leaf mottling of Spartina species caused by a newly recognised virus, spartina mottle virus

The cause of a previously undocumented leaf mottling of Spartina species was investigated. Negatively stained preparations of sap from mottled leaves revealed flexuous particles 725 × 12 nm. Pinwheels with associated laminar inclusion bodies were observed in thin sections of affected mesophyll cells. The virus was purified from infected Spartina anglica plants and had a sedimentation coefficient in 0·015 m borate of 150S. The virus was transmitted by inoculation of sap to healthy Spartina anglica, but not to a range of other graminaceous or dicotyledonous species tested. It was distantly serologically related to agropyron mosaic virus, but not to other viruses with similar morphology; the name spartina mottle virus is proposed.     

Water relations of cotton plants under nitrogen deficiency

Nitrogen deficiency in cotton plants (Gossypium hirsutum L.) increased the threshold water potentials for both stomatal closure and leaf senescence (defined as loss of chlorophyll and protein) during drought. These studies attempted to answer two questions: (1) What is the basis for the N/water interaction on senescence? (2) Is there a direct relationship between stomatal closure and senescence? Young and old leaves from N-deficient and N-sufficient plants maintained their relative sensitivities to water stress when excised leaf discs were floated on solutions of polyethylene glycol in dim light. In this leaf disc system, both leaf aging and N deficiency increased the threshold water potential for senescence. Leaf aging and N deficiency also decreased the concentration of exogenous abscisic acid necessary to initiate senescence in discs. A role for cytokinins in controlling senescence could not be clearly shown. In young leaves of both N-deficient and N-sufficient plants, stomata closed at water potentials much higher than those causing senescence. During leaf aging, the water potentials causing senescence increased more than those causing stomatal closure. The two processes thus occurred at about the same potentials in the oldest leaves. These data argue against a general cause-and-effect relationship between stomatal closure and senescence. Rather, each process apparently responded independently to absicsic acid accumulated during drought.     

Leaf expansion and carbon assimilation in cotton leaves grown at two photosynthetic photon flux densities

Increasing photosynthetic photon flux density (PPFD) received during development from 5.5 to 31.2 mol m^-2 d^-1 resulted in greater leaf and mesophyll cell surface areas in cotton (Gossypium hirsutum L.). The relationships between the amounts of these surface areas and potential CO₂ assimilation by these leaves were evaluated. Leaf area (epidermal surface area of one side of a leaf), mesophyll cell surface area, and net rate of CO₂ uptake (P_n) were measured from the time leaves first unfolded until P., was substantially reduced. At the higher PPFD, leaf and mesophyll surface areas increased more rapidly during expansion, and P_n per unit leaf area was greater than at the lower PPFD. Although leaves at the higher PPFD reached the maximum P., per unit mesophyll cell surface area 4 to 5 days earlier than leaves at the lower PPFD, the maxima for these P., were similar. Leaves grown at the higher PPFD had the potential to assimilate 2.2, 3.5, or 5.8 times the amount of CO₂ as leaves from the lower PPFD when P., was expressed per unit mesophyll surface, per unit leaf surface, or per whole leaf, respectively. Greater and earlier development of both P., and mesophyll cell surface area at higher PPFD apparently had a compounding effect on the potential for carbon assimilation by a leaf.     

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.     

The Polyhedral Membrane does not Protect Polyhedra of AcMNPV Against Inactivation on Greenhouse Chrysanthemum

Polyhedral inactivation of wild-type AcMNPV and an AcMNPV mutant lacking the gene for the polyhedral membrane protein (AcMNPV-Delta pp34) was studied on greenhouse chrysanthemum. It was hypothesized that polyhedra without a polyhedral membrane might be more susceptible to inactivation on plants. The density of infectious polyhedra of both viruses on the leaf surface decreased in time in a near-exponential fashion. The inactivation curves suggested the presence of two distinct fractions of polyhedra with differences in persistence. One fraction of polyhedra is not inactivated at all, whereas the other fraction is inactivated in an exponential fashion. Relative inactivation rates of the inactivated polyhedra fraction for wild-type AcMNPV and AcMNPV-Delta pp34 were 0.16 and 0.13 per day, respectively, which is not significantly different. After 28 days on leaves in a greenhouse, both viruses still showed residual infectivity. The fraction of residual infectious polyhedra were not significantly different and amounted to approximately 20% of the original density for both wild-type AcMNPV and AcMNPV-Delta pp34. Therefore, the polyhedral membrane does not protect polyhedra against inactivation on greenhouse chrysanthemum.     

Replication and serial passage of infectious Heliothis nucleopolyhedrosis virus in an established line of Heliothis zea cells

An established cell line derived from the ovary of adults of the cotton bollworm, Heliothis zea, supported growth of the Heliothis nucleopolyhedrosis virus (NPV). Typical NPV symptoms were obtained when infected cells were fed to neonatal bollworms; however, the cell line never produced free virions or inclusion bodies containing virions. Infectious virus was passed through the cell line 7 consecutive times, using only infected cells from the previous pass. Infectivity at the 7th serial-pass represented a dilution of >10⁻⁸ of the original inoculum.     

Host range, vector relations and serological relationships of cotton leaf curl virus from southern India

In 1989 to 1991, leaf curl disease was observed in cotton (Gossypium bar-badense cv. Local) grown in kitchen gardens in five districts in Karnataka State, India, and in 1994 it was recorded in G. hirsutum cv. Sharada in two districts. Symptoms consist of leaf curling, vein thickening, leaf enations, and stunting and distortion of plants. The disease is caused by cotton leaf curl virus (CLCuV-K), which was transmitted by the whitefly Bemisia tabaci to 24 plant species in six families. Hosts include bean (Phaseolus vulgaris), pepper, tobacco, tomato and several weeds, almost all of which developed leaf curl, with or without vein thickening. CLCuV-K was transmitted from cotton to cotton by adult B. tabaci after an acquisition access period of 1 h, could be inoculated in 5 min, had a minimum latent period of 8 h and was retained by viruliferous insects for up to 9 days. Female B. tabaci transmitted more frequently than males. CLCuV-K is a whitefly-transmitted geminivirus. It reacted with two out of 17 monoclonal antibodies (MAbs) raised to African cassava mosaic virus and five out of 10 MAbs raised to Indian cassava mosaic virus. CLCuV-K isolates from different locations in Karnataka had similar epitope profiles. As judged by these profiles, CLCuV-K is closely related to Indian tomato leaf curl virus from Karnataka, is distinguishable from several other whitefly-transmitted geminiviruses found in India and is still more distantly related to those, including cotton leaf crumple virus from the USA, found in other continents. CLCuV-K infected all cultivars tested of G. barbadense and one of six cultivars of G. hirsutum but none of G. arboreum or G. herbaceum.     

Effect of dew from cotton and soybean foliage on activity of Heliothis nuclear polyhedrosis virus

The ionic composition of dew collected from foliage of cotton and soybean plants as well as its potential for inactivation of Heliothis NPV were compared. Cotton dew had a mean pH of 8.8 and was more alkaline than soybean dew (pH 7.8). Cotton dew had a higher concentration of ions that did soybean dew but there was no qualitative difference in the cation content of dew from the two hosts. In bioassay tests, no loss of activity occurred when polyhedra were held in dew of either plant species. If the dew in which polyhedra were suspended was air-dried and resuspended daily in deionized water, polyhedra in soybean dew remained active but in cotton dew retained little activity after 7 days. Also, electron microscopical examination of polyhedra pelleted from these cotton dew preparations showed much dissolution after 7 days. Although there was dissolution of polyhedra in cotton dew when dried, an examination of polyhedra on the upper surface of either plant species in the field showed little degradation after 7 days.     

Effects of salt secretion on psychrometric determinations of water potential of cotton leaves

Thermocouple psychrometers gave lower estimates of water potential of cotton leaves than did a pressure chamber. This difference was considerable for turgid leaves, but progressively decreased for leaves with lower water potentials and fell to zero at water potentials below about −10 bars. The conductivity of washings from cotton leaves removed from the psychrometric equilibration chambers was related to the magnitude of this discrepancy in water potential, indicating that the discrepancy is due to salts on the leaf surface which make the psychrometric estimates too low. This error, which may be as great as 400 to 500%, cannot be eliminated by washing the leaves because salts may be secreted during the equilibration period. Therefore, a thermocouple psychrometer is not suitable for measuring the water potential of cotton leaves when it is above about −10 bars.     

Stem girdling influences concentrations of endogenous cytokinins and abscisic acid in relation to leaf senescence in cotton

Many studies have shown that root–shoot imbalance influences vegetative growth and development of cotton (Gossypium hirsutum L.), but few have examined changes in leaf senescence and endogenous hormones due to stem girdling. The objective of this study was to determine the correlation between some endogenous phytohormones, particularly cytokinins and abscisic acid (ABA), and leaf senescence following stem girdling. Field-grown cotton plants were girdled on the main stem 5 days after squaring (DAS), while the non-girdled plants served as control. Plant biomass, seed cotton yield, main-stem leaf photosynthetic (Pn) rate, chlorophyll (Chl) and malondialdehyde (MDA) concentrations, as well as levels of cytokinins and ABA in main-stem leaves and xylem sap were determined after girdling or at harvest. Main-stem girdling decreased the dry root weight and root/shoot ratio from 5 to 70 days after girdling (DAG) and reduced seed cotton yield at harvest. Main-stem leaf Pn and Chl concentration in girdled plants were significantly lower than in control plants. Much higher levels of MDA were observed in main-stem leaves from 5 to 70 DAG, suggesting that stem girdling accelerated leaf senescence. Girdled plants contained less trans-zeatin and its riboside (t-Z + t-ZR), dihydrozeatin and its riboside (DHZ + DHZR), and isopentenyladenine and its riboside (iP + iPA), but more ABA than control plants in both main-stem leaves and xylem sap. These results suggested that main-stem girdling accelerated leaf senescence due to reduced levels of cytokinin and/or increased ABA. Cytokinin and ABA are involved in leaf senescence following main-stem girdling.     

Mepiquat chloride (PIX)-induced changes in photosynthesis and growth of cotton

Mepiquat chloride (N, N-dimethylpiperidinium chloride), well known as PIX, is a potential systemic plant growth regulator. The effects of PIX on plant height, stem elongation, leaf area, net photosynthetic rates, chlorophyll content, sucrose and starch levels, and RuBP carboxylase activity in cotton (Gossypium hirsutum L. cv. DES 119) plants were measured. PIX was sprayed (0, 7.65, 15.3, 30.6 or 61.2 g active ingredient ha^–1) on the plants at first square (25 days after emergence) and measurements were made at frequent intervals. Plant height was clearly reduced by PIX. The total length of vegetative branches and fruiting branches was 40% and 50% less than the control. Total leaf area in PIX treated plants was 16% less than the control. Net photosynthetic rates were 25% less in PIX-treated leaves. PIX treated leaves had more chlorophyll content. The activity of RuBP carboxylase was decreased in PIX treated plants. Starch accumulation was noticed in PIX treated leaves while sucrose content was not changed. The data reported here suggest that reduced growth responses induced by PIX results in partial loss of photosynthetic capacity in cotton at least up to 20 days after application of the growth regulator.     

Passage des corps d'inclusion de virus d'une polyédrie nucléaire dans le tube digestif d'un orthoptère détritivore,Acheta domesticus L.

Summary Passage of nuclear polyhedral virus inclusion bodies in the gut of the detritiphagous OrthopteronA. domesticus is described. Histological studies permitted following the rate of passage and the elimination time of the inclusion bodies. Tests of virulency, carried out on newly hatched larvae ofB. mori, showed that inclusion bodies remained virulent and apparently unaffected by the digestive activities to which they had been exposed. These results suggest thatGryllus species can act as disseminators of insect viruses under field conditions.