An apoptosis-inhibiting baculovirus gene with a zinc finger-like motif.

Spodoptera frugiperda SF-21 cells infected with Autographa californica nuclear polyhedrosis virus mutants which lack a functional p35 gene undergo apoptosis, a type of programmed cell death. To identify p35-homologous genes in other baculoviruses, A. californica nuclear polyhedrosis virus DNA containing a deletion in p35 was cotransfected into SF-21 cells along with genomic DNAs from other baculoviruses. One of the viral DNAs which were able to rescue wild-type infection was from Cydia pomonella granulosis virus (CpGV). The CpGV gene responsible for the effect was mapped to a 1.6-kb SalI-SstI subclone of the SalI B fragment of CpGV. The sequence of the SalI-SstI subclone revealed an open reading frame capable of encoding a polypeptide of 31 kDa which was sufficient to rescue wild-type infection; this gene was thus called iap (inhibitor of apoptosis). The predicted sequence of the IAP polypeptide exhibited no significant homology to P35 but contained a zinc finger-like motif which is also found in other genes with the potential to regulate apoptosis, including several mammalian proto-oncogenes and two insect genes involved in embryonic development. In the context of the viral genome, both iap and p35 were able to block apoptosis induced by actinomycin D, indicating that these genes act by blocking cellular apoptosis rather than by preventing viral stimulation of apoptosis. Several independent recombinant viruses derived from cotransfections with either the entire CpGV genome or the 1.6-kb subclone were characterized.     

Infectivity and mode of action of Baculoviruses

The genus Baculovirus contains three subgroups of viral types: (1) nuclear polyhedrosis viruses (NPVs), (2) granulosis viruses (GVs), and (3) nonoccluded baculoviruses. While little information is available for viruses from the third subgroup, several aspects of the infectivity and mode of action of NPVs and GVs have been studied. The most common route of entry of a virus into an insect host is per os, and both virus types enter midgut cells (primary site of infection) by membrane fusion. However, two distinct mechanisms of virus uncoating occur among the baculoviruses: NPVs uncoat within the nucleus, whereas GVs uncoat at the nuclear pore complex. Baculoviruses of subgroup 3 appear to uncoat by either mechanism. In addition to replicating within the nucleus, NPV inoculum virus may pass through the intestinal epithelium immediately after ingestion, thereby establishing a systemic infection of the hemocoel prior to virus replication in midgut cells. The GVs do not appear to pass through midgut cells as rapidly as NPVs and in general, the developmental cycle of GVs is longer than that of NPVs. NPVs have been grown in cell culture while GVs have not.     

颗粒体病毒离体复制

迄今 ,尚未建立稳定的颗粒体离体复制系统 ,颗粒体病毒在离体复制中的研究仍处于探索阶段。就颗粒体病毒离体复制的研究进展进行了综述 ,主要包括影响颗粒体病毒离体复制的细胞类型 ,培养温度以及颗粒体病毒离体复制的作用机理和目前仍存在的问题。     

An apoptosis-inhibiting gene from a nuclear polyhedrosis virus encoding a polypeptide with Cys/His sequence motifs.

Two different baculovirus genes are known to be able to block apoptosis triggered upon infection of Spodoptera frugiperda cells with p35 mutants of the insect baculovirus Autographa californica nuclear polyhedrosis virus (AcMNPV):p35 (P35-encoding gene) of AcMNPV (R. J. Clem, M. Fechheimer, and L. K. Miller, Science 254:1388-1390, 1991) and iap (inhibitor of apoptosis gene) of Cydia pomonella granulosis virus (CpGV) (N. E. Crook, R. J. Clem, and L. K. Miller, J. Virol. 67:2168-2174, 1993). Using a genetic complementation assay to identify additional genes which inhibit apoptosis during infection with a p35 mutant, we have isolated a gene from Orgyia pseudotsugata NPV (OpMNPV) that was able to functionally substitute for AcMNPV p35. The nucleotide sequence of this gene, Op-iap, predicted a 30-kDa polypeptide product with approximately 58% amino acid sequence identity to the product of CpGV iap, Cp-IAP. Like Cp-IAP, the predicted product of Op-iap has a carboxy-terminal C3HC4 zinc finger-like motif. In addition, a pair of additional cysteine/histidine motifs were found in the N-terminal regions of both polypeptide sequences. Recombinant p35 mutant viruses carrying either Op-iap or Cp-iap appeared to have a normal phenotype in S. frugiperda cells. Thus, Cp-IAP and Op-IAP appear to be functionally analogous to P35 but are likely to block apoptosis by a different mechanism which may involve direct interaction with DNA.     

Characterization of Nuclear Polyhedrosis Virus DNAs

The nuclear polyhedrosis virus DNAs characterized and compared in this study consist of the singly-enveloped nucleocapsids (SNPV) of Trichoplusia ni and the bundles of nucleocapsids common to a single envelope (MNPV) from Spodoptera frugiperda and Rachiplusia ou. The SNPV and MNPV DNAs are very similar in hydrodynamic properties and molecular weights. In addition, the NPV DNAs are similar in size to those extracted from the granulosis viruses that infect T. ni and S. frugiperda. As isolated from purified virus or directly from occluded virus, the nuclear polyhedrosis virus DNAs consist of a mixture of about 20 to 30% double-stranded covalently closed molecules and approximately 60% relaxed circles, with less than 10% in linear duplex form. The molecular weights of all nuclear polyhedrosis virus DNAs as compared in this study are slightly smaller than those of T4 bacteriophage DNA and perhaps slightly smaller than those of the granulosis virus DNAs. The best estimates of these molecular weights by neutral sucrose sedimentation for the nuclear polyhedrosis viruses range from 90 to 100 x 10(6) relative to a size of 108 x 10(6) for T4 DNA. The base compositions of the nuclear polyhedrosis viruses that infect T. ni and S. frugiperda are compared with the respective insect host DNAs.     

Temporal events in the invasion of the codling moth,Cydia pomonella,by a granulosis virus: An electron microscope study

The replication cycle of the granulosis virus of Cydia pomonella, the codling moth, was studied at the cellular and tissue level. Membranelike complexes were observed forming within the remnants of the nucleolus in the cytoplasm of infected cells. Differences in cell polarity relative to the sites of virus entry assembly and budding as well as differences in the temporal aspects of replication were observed between midgut, fat body, and epidermal cells. The progressive spread of virus throughout larval tissues was studied at 24, 32, 48, 56, and 72 hr postinfection. The basal lamina seemed to be an effective barrier for the release of budded progeny virus into the hemocoel and large numbers of budded virus were produced.     

Uptake of Granulovirus from the Surface of Apples and Leaves by First Instar Larvae of the Codling Moth Cydia pomonella L. (Lepidoptera: Olethreutidae)

Cydia pomonella granulovirus (CpGV) has received considerable attention as a potential microbial insecticide for the control of the codling moth (Cydia pomonella L.) , a worldwide pest of apples. Laboratory experiments were established to investigate virus uptake by first instar larvae, using a novel leaf disc bioassay technique. Virus uptake was found to be independent of active feeding and larvae became infected simply by walking or browsing on sprayed leaf disc surfaces in as little time as 3.5 min. Infection increased as a function of time spent on the leaf disc surface and a linear log time/probit mortality relationship could be fitted. The bioassay technique used has potential for the realistic laboratory testing of virus spray formulations. A field experiment showed that virus infection could be contracted by newly hatched codling moth larvae both from the surface of sprayed leaves and sprayed fruit. The potential for exploiting this knowledge for improving spray formulations is discussed.     

昆虫病毒增效剂研究进展

概述了昆虫病毒增效剂方面的研究进展,重点述及生物增效剂病毒增强素及化学增效剂荧光增白剂的增效活性特点和增效机理,以及病毒增强素分子生物学方面研究进展。在颗粒体病毒、核型多角体病毒、昆虫痘病毒中均发现了病毒增强素,它是一种金属蛋白酶。已克隆多个病毒增效基因,并构建了含增效基因的重组病毒和转基因作物。二苯乙烯类荧光增白剂对病毒具有增效作用。已明确病毒增强素和荧光增白剂增效作用与昆虫围食膜的破坏有关,其他增效机理有待进一步研究。还就增效剂的应用前景进行了展望。     

SUSCEPTIBILITY OF LARVAE OF THE LARGE WHITE BUTTERFLY (PIERIS BRASSICAE L.) TO TWO VIRUS DISEASES

A cytoplasmic polyhedral virus ex Phalera bucephala (L.) induces a polyhedrosis in some stocks of Pieris brassicae (L.). Larvae from different localities vary in their susceptibility to their own viruses and the stock of Pieris brassicae larvae most susceptible to its granulosis is also more susceptible to the polyhedrosis.
Polyhedra obtained from Pieris brassicae , infected from Phalera bucephala , did not cause a cytoplasmic polyhedrosis in larvae of Plutella maculipennis (Curtis) and Pseudaletria unipuncta (Haw.), but did do so in the larvae of Lymantria monacha (L.).     

苹果蠹蛾体内wolbachia wsp基因克隆与序列分析

【目的】对苹果蠹蛾Cydia pomonella L.体内共生菌Wolbachia进行分子生物学鉴定,确定该虫体内Wolbachia的进化位置,为进一步探讨Wolbachia对其生殖作用的调控机制提供理论依据。【方法】应用Wolbachia的wsp基因特异引物,通过PCR扩增法检测了苹果蠹蛾10个地理种群(新疆伊犁、吐鲁番、和田、石河子、奎屯、哈密、库尔勒、阿拉尔、喀什、和甘肃张掖)感染Wolbachia的状况,并对阿拉尔种群体内的Wolbachia的wsp基因进行测序和序列分析。【结果】苹果蠹蛾10个地理种群全部感染了tWolbachia,利用wsp基因的特异性引物从阿拉尔种群体内扩增出了617 bp的Wolbachia的wsp基因片段(GenBank登录号为KC832324),系统发育分析结果表明,苹果蠹蛾体内感染的Wolbachia属于A群Dor亚群,与锤角细蜂亲缘关系较近。【结论】苹果蠹蛾体内普遍感染了Wolbachia,属于A群Dor亚群。     

Specificity of receptor sites on insect cells for the synergistic factor of an insect baculovirus

The granulosis virus of the armyworm, Pseudaletia unipuncta, contains a synergistic factor (SF) which enhances the in vitro and in vivo infections of baculoviruses. The SF agglutinates certain insect cells but not the cell line of Trichoplusia ni (TN368). A single application of the SF to TN368 cells causes an interference of the infection of a nuclear polyhedrosis virus of Trichoplusia ni (TnMNPV). The interference increases with higher concentrations of the SF. Multiple applications of the SF result in a decrease in interference and possibly even in an enhancement. These observations suggest that the receptor sites on the cell plasma membrane of TN368 cells are not the same for the SF and for the virus.     

Mode of transmission of nuclear-polyhedrosis virus to progeny of adult Heliothis zea

Late second-instar Heliothis armigera larvae were infected with a granulosis and a nuclear polyhedrosis virus, and all the externally visible symptoms for each virus are described. The effects of the virus infections on the feeding habits of the insects are also described, and it was found that a granulosis infection can prolong the larval period by up to 100%. The larvae continue feeding during this prolonged larval period, and can reach almost double the size and mass of normal larvae.It was further found that each of the viruses displays a distinct set of symptoms which could indicate beyond any doubt which of the two viruses induced death in the host.     

寄主植物信息化合物对苹果蠹蛾行为的影响及其在防控中的应用

苹果蠹蛾（Cydia pomonella)是仁果类水果的重要世界性害虫,也是我国的重要检疫性对象,在我国的发生、危害及潜在扩张的趋势十分严峻.有关寄主植物气味对苹果蠹蛾特异性引诱方面的研究受到了广泛的关注.本文综述了苹果蠹蛾和植物源气味之间的互作关系,主要包括寄主植物气味影响苹果蠹蛾成虫寄主定位、求偶交配和产卵等行为,幼虫取食对寄主植物气味释放以及寄主植物气味对性信息素的影响;同时还介绍了主要植物源化合物梨酯的研究和田间应用概况,以期为我国苹果蠹蛾的防控研究和应用提供参考.     

The susceptibility of the pea moth, Cydia nigricana, to infection by the granulosis virus of the codling moth, Cydia pomonella

Laboratory studies demonstrated that neonate larvae of the pea moth, Cydia nigricana, are susceptible to infection with a granulosis virus (CpGV) isolated from the codling moth, Cydia pomonella. Comparative LC₅₀ values for C. nigricana and C. pomonella are 1.90 × 10⁵ and 1.54 × 10⁴ capsules/ml of diet, respectively. The virus extracted from CpGV-infected pea moth larvae is serologically related, and probably identical, to CpGV.     

THE STRUCTURE OF INSECT VIRUS PARTICLES

Thin sections have been cut of the virus particles from four types of insect virus diseases: cytoplasmic polyhedroses of lepidopterous larvae, a nuclear polyhedrosis of Tipula paludosa (Diptera), a granulosis from Melanchra persicariae (Lepidoptera), and a new virus disease without polyhedra from T. paludosa. The cytoplasmic polyhedral viruses are thought to have composite particles in some cases. The shape and enveloping membranes of the different virus particles are compared. In the new virus disease of T. paludosa some of the virus particles appear to be empty; inclusion bodies surrounded by complicated membranes are also demonstrated.     

Molecular phylogeny and population structure of the codling moth (Cydia pomonella) in Central Europe: II. AFLP analysis reflects human-aided local adaptation of a global pest species

Originally resident in southeastern Europe, the codling moth (Cydia pomonella L.) (Tortricidae) has achieved a nearly global distribution, being one of the most successful pest insect species known today. As shown in our accompanying study, mitochondrial genetic markers suggest a Pleistocenic splitting of Cydia pomonella into two refugial clades which came into secondary contact after de-glaciation. The actual distribution pattern shows, however, that Central European codling moths have experienced a geographic splitting into many strains and locally adapted populations, which is not reflected by their mitochondrial haplotype distribution. We therefore have applied, in addition to mitochondrial markers, an approach with a higher resolution potential at the population level, based on the analysis of amplification fragment length polymorphisms (AFLPs). As shown in the present study, AFLP markers elucidate the genetic structure of codling moth strains and populations from different Central European apple orchard sites. While individual genetic diversity within codling moth strains and populations was small, a high degree of genetic differentiation was observed between the analyzed strains and populations, even at a small geographic scale. One of the main factors contributing to local differentiation may be limited gene flow among adjacent codling moth populations. In addition, microclimatic, ecological, and geographic constraints also may favour the splitting of Cydia pomonella into many local populations. Lastly, codling moths in Central European fruit orchards may experience considerable selective pressure due to pest control activities. As a consequence of all these selective forces, today in Central Europe we see a patchy distribution of many locally adapted codling moth populations, each of them having its own genetic fingerprint. Because of the complete absence of any correlation between insecticide resistance and geographic or genetic distances among populations, AFLP markers do not have a prognostic value for predicting an outbreak of pesticide resistance in the field. By combining mitochondrial genetic data and AFLP analysis it was possible, however, to track the recent evolutionary history of Cydia pomonella on three different time scales: from population splitting in Pleistocene, to interbreeding of mitochondrial haplotypes in Holocene, to human-aided complete intermixing and splitting into many locally adapted populations in very recent times. The case of Cydia pomonella is reminiscent of examples of sympatric speciation and another example of a human-induced globally successful pest species.     

Effect of larval maturation on mortality induced by nuclear polyhedrosis and granulosis virus infections of Heliothis armigera

All the instars of Heliothis armigera larvae were found to be susceptible to both nuclear polyhedrosis virus (NPV) and granulosis virus (GV). An inverse relationship between mortality and larval age was found in the case of the NPV, while the GV displayed a rather erratic mortality pattern. A degree of maturation immunity against the NPV was found to exist, but the same is not true for the GV. The important role that pupation plays on the effect of a lethal infection is also discussed.     

Fruit Bins Washed with Steinernema carpocapsae (Rhabditida: Steinernematidae) to Control Cydia pomonella (Lepidoptera: Tortricidae)

A bin washing apparatus (drencher) was used to treat late-instar codling moth, Cydia pomonella Linnaeus-infested wooden fruit bins with the entomopathogenic nematode Steinernema carpocapsae . Sentinel late-instar codling moth larvae were placed in strips of wood, made from dismantled bins, that were subsequently screwed into the corners of real bins before treatment. Pre-soaking the bins with water prior to treatment and covering the bins with a plastic tarp post-treatment, to maintain a high humidity, significantly increased sentinel codling moth mortality. Treatment for 1 min with 50 S. carpocapsae infective juveniles mL -1 water resulted in more than 80% mortality over 6 h in which the nematodes were continuously pumped through the drencher. The temperature of the water in the bin washer was ≤15°C and the chlorine in the city water was too low to harm the nematodes. The key disadvantage of washing the bins was the labour involved. It may be possible to reduce post-treatment holding time and increase codling moth mortality by holding the bins at a higher temperature post-treatment, however this parameter was not included in the study. The presence of the codling moth granulosis virus within the larvae did not influence the nematode-induced codling moth mortality over a range of concentrations and two temperatures in laboratory trials.     

Ionic conditions affecting the release and absorption of an alkaline protease associated with the occlusion bodies of insect baculoviruses

Nearly all of the alkaline protease found in the occlusion bodies of baculoviruses (polyhedra for nuclear polyhedrosis and capsules for granulosis viruses) (Baculovirus, subgroup A and B, family Baculoviridae) can be specifically extracted under high ionic concentration. The extraction is directly proportional to the concentrations of NaCl up to 0.25 m. It is not dependent on pH, species of ions, temperature, and incubation time. The protease is reabsorbed under low ionic concentration by protease-extracted and by heat-treated capsules and polyhedra. The protease from Streptomyces griseus is not absorbed. This indicates that the occlusion body proteins have distinct affinity for certain alkaline proteases.     

Développement des virus a corps d'inclusion du lépidoptèreLymantria dispar en cultures cellulaires

Summary Culture of fibroblasts from ovarial tubes ofLymantria dispar were obtained in liquid medium as well as in plasma clot and in monolayers. These cultures allowed the ?in vitro? study of the pathogenesis of nuclear and cytoplasmic polyhedral viruses of this insect. The development of viruses from other insects could also be obtained: Viruses of nuclear polyhedrosis fromBombyx mori andAntheraea pernyi infectedLymantria fibroblasts and in some cases it was possible to multiplicate the virus of granulosis fromPieris brassicae. These results constitute a stage of studies on diminution of cell specificity to virus infection in ?in vitro? conditions.