Increased virulence of Autographa californica nuclear polyhedrosis virus by mutagenesis

A mutant of the Autographa californica nuclear polyhedrosis virus (AcMNPV) with increased virulence in Trichoplusia ni larvae was isolated following replication of a random virus clone in the presence of 2-aminopurine. The LT₅₀ of the mutant, designated HOB, was significantly shorter than those of either the wild isolate or parental clone of AcMNPV. Also, fifth-instar larvae infected with this mutant gained significantly less weight and consistently produced more virus occlusion bodies than larvae infected with the wild isolate or parental clone. No alterations in the in vitro replication of nonoccluded virions, occluded virus structural proteins, or DNA restriction endonuclease patterns were observed with the HOB mutant.     

Isolation and characterization of a granulosis virus from the tomato moth,Lacanobia oleracea,and its potential as a control agent

A disease causing death in Lacanobia oleracea (Lepidoptera: Noctuidae) occurring in glasshouses in Scotland was shown to be caused by a granulosis virus (GV). Structural properties of the virus were examined by electron microscopy, immunodiffusion, polyacrylamide gel electrophoresis, and restriction endonuclease analysis and compared with an isolate of GV from L. oleracea obtained from France. The two isolates were structurally very similar but could be distinguished by analysis of EcoRI digests of their DNAs. Bioassays of the virus gave LD₅₀ values from 10^4.3 capsules for second-instar larvae to 10^6.6 capsules for fifth-instar larvae. The French isolate was bioassayed in third-instar larvae and was not found to differ significantlyfrom the Scottish isolate. Two small glasshouse trials using the virus to control artificial infestations of L. oleracea indicated that high-volume sprays of virus at 10⁸ to 10⁹ capsules/ml achieved good control. An alternative strategy using much smaller amounts of virus to control the insect is discussed.     

Fitness-related traits of entomopoxviruses isolated from Adoxophyes honmai (Lepidoptera: Tortricidae) at three localities in Japan

Three entomopoxviruses (EPVs) isolated from diseased Adoxophyes honmai larvae at different localities (Tsukuba, Itsukaichi, and Miyazaki) in Japan were compared for biochemical identity and key parameters of virus fitness, fatal infection, speed of kill, and virus yield. When the structural peptides of occlusion bodies (OBs) and occlusion-derived viral particles were compared using sodium dodecyl sulfate-polyacrylamide gel electrophoresis, no difference in banding patterns was observed. However, DNA restriction endonuclease analysis showed that the three isolates were genotypically different, but many commonly sized DNA fragments were observed. Five tortricid species, A. honmai, Adoxophyes orana, Adoxophyesdubia, Homona magnanima, and Archips insulanus were susceptible to all isolates. No significant differences in the key viral fitness parameters were detected among the isolates in A. orana. However, the Miyazaki isolate had a different effect on H. magnanima; it allowed infected insects to survive longer and develop to a larger size, but had a lower yield of OBs per larva at any given time to death. OB yields per unit cadaver weight for the Miyazaki isolate, which indicate the conversion rate of the insect to virus, were lower over time compared to the other two isolates. The implications for selecting a candidate isolate to control tortricid pests are discussed.     

Comparison of the time-mortality response of Heliothis zea to 14 isolates of Heliothis nuclear polyhedrosis virus

Twelve singly embedded isolates (SEV) and two multiply embedded isolates (MEV) of nuclear polyhedrosis viruses from Heliothis larvae were compared by time-mortality assays in neonate H. zea larvae. The isolates could be separated into six groups based on differences in the 50% survival time (ST₅₀) values. Isolates with identical restriction endonuclease (REN) profiles did not differ significantly in their ST₅₀ values, whereas isolates with several different REN cleavage sites also had significantly different ST₅₀ values. With the exception of one isolate from India, the singly embedded isolates acted faster than the multiply embedded isolates.     

Isolation and characterization of pseudorabies virus from a wolf (Canis lupus) from Belgium

Aujeszky’s disease is an economically important disease in domestic pigs caused by the alphaherpesvirus pseudorabies virus (PRV). However, also wild boars are a natural reservoir for the virus, and this can lead to infection of wildlife carnivore species. Three wolves held in the wildlife park of Han-sur-Lesse in the province of Namur in Belgium were suspected to be infected with PRV based on the nervous symptoms they showed after being fed with wild boar offal. The diagnosis was confirmed for a female wolf by a positive real-time PCR detecting PRV. The virus was isolated from the brain tissue of the wolf and characterized by restriction fragment length polymorphism analysis and phylogenetic analysis. The obtained BamHI restriction fragment pattern of the wolf isolate was similar to that of the reference strain Kaplan, thereby characterizing it as a type Ip isolate. Type I PRV strains, and particularly subtype Ip, are predominant in European wild boar. Phylogenetic analysis based on the sequence of a fragment of glycoprotein C showed that the Belgian isolate belonged to cluster B and that the sequence was identical to that of wild boar isolates from southwestern Germany, eastern France, and Spain. This study is the first report of Aujeszky’s disease in wolves and shows that they are susceptible to PRV by eating infected wild boar offal leading to fatal neurological disease. This illustrates the possible implications of PRV-infected wild boar for the conservation of wolves and other carnivore species.     

Identification, Mapping, and In Vitro Translation of Campoletis sonorensis Virus mRNAs from Parasitized Heliothis virescens Larvae

Expression of Campoletis sonorensis virus (CsV) in parasitized Heliothis virescens larvae was investigated by Northern blot analysis of poly(A)⁺ mRNAs isolated from H. virescens larvae at various times after parasitization by C. sonorensis. At least 12 CsV mRNAs were detected in parasitized H. virescens larvae. Injection of nonparasitized H. virescens larvae with purified CsV resulted in a pattern of viral mRNAs similar to that observed in naturally parasitized larvae. With CsV DNA restriction fragments which contained expressed sequences, individual CsV mRNAs were mapped to the superhelical DNAs of the viral genome. Two gene-specific probes, which consisted of cloned S1 nuclease-protected restriction fragments, each hybridized to several CsV superhelical DNAs, suggesting that some CsV genes may be shared on several superhelical DNAs. Cloned restriction fragments containing sequences which flank the expressed sequences also hybridized to numerous CsV superhelical DNAs. Some CsV proteins were identified by in vitro translation of hybrid-selected CsV mRNAs.     

Activation of latent virus infections in larvae of Adoxophyes orana (Lepidoptera: Tortricidae) and Barathra brassicae (Lepidoptera: Noctuidae) by foreign polyhedra

The number of larvae containing polyhedra increased when larvae of Adoxophyes orana and Barathra brassicae were fed on polyhedra of nuclear polyhedrosis virus (NPV) of the reciprocal species. Comparison of restriction endonuclease EcoRI cleavage patterns of DNA isolated from polyhedra used as inocula and from polyhedra obtained after cross-inoculation showed that cross infection did not occur. The observations indicate that latent viruses were activated in both insects. Activation of the A. orana latent NPV with polyhedra of a cytoplasmic polyhedrosis virus (CPV) of B. brassicae, and cross-inoculation with an extract prepared from healthy larvae indicated that an activating agent does not have to be a component of nuclear polyhedra.     

Restriction Fragment Length Polymorphisms in the Mushrooms Agaricus brunnescens and Agaricus bitorquis

Two Agaricus species, A. brunnescens (a commercial mushroom) and A. bitorquis (a wild, edible species), were examined for restriction fragment length polymorphisms. EcoRI-digested nuclear DNA from isolates of both species were cloned in plasmid vector pUC18. Ten random recombinant clones were used in Southern DNA-DNA hybridizations to probe EcoRI-digested DNA from 11 A. brunnescens isolates (7 commercial, 2 wild type, and 2 homokaryotic) and 7 A. bitorquis isolates. Most cloned fragments were polymorphic in both species. There were fewer different genotypes than expected, however, in the sample of commercial A. brunnescens strains. DNA from homokaryotic strains showed fewer bands in most hybridizations than DNA from heterokaryotic strains. All A. bitorquis isolates could be distinguished from each other as well as from every A. brunnescens strain. Putative homokaryons were detected by the loss of polymorphic bands among protoplast regenerates from one commercial strain and two strains collected in the wild.     

Evaluation of seven viral isolates as potential biocontrol agents against Pseudoplusia includens (Lepidoptera: Noctuidae) caterpillars

The caterpillar Pseudoplusia includens (Walker, 1857) (Lepidoptera, Noctuidae), known as soybean looper, is a pest that has recently assumed greater importance in soybean in Brazil. Isolates of nucleopolyhedroviruses (NPVs) of this pest have been identified from cotton in Guatemala and soybean farms in Brazil, providing an interesting perspective of potential use of viral insecticide against the insect in lieu to chemical insecticides. With the objective to contribute to the characterization studies of this virus, morphological and molecular analyses and biological activity were carried out with seven P. includens viral isolates (I-A to I-G). Electron microscopy of viral samples, purified from macerated infected larvae, showed particles with typical morphology of the Baculoviridae family, genus Alphabaculovirus (Nucleopolyhedrovirus - NPV) presenting virions with only a single nucleocapsid per envelope (SNPV) occluded in a protein matrix, forming occlusion bodies (OB). This virus was then classified as P. includens single nucleopolyhedrovirus (PsinSNPV). OB particles analyzed in SDS-polyacrylamide gel showed an intense band corresponding in size to NPV polyhedrin protein. DNA restriction profiles of the PsinSNPV isolates showed differences in the fragment size and number suggesting the existence of genotypic variants, except between I-E and I-F profiles that were similar. Among the isolates tested for infectivity against P. includens, I-A, I-E and I-F were the most virulent. Survival times (ST₅₀) varied according to viral concentration, with significant differences among isolates for the three higher concentrations.     

Prunus necrotic ringspot virus isolates in stone fruit germplasm accessions and cultivars in Israel

Prunus necrotic ringspot virus (PNRSV) was detected in almonds, plum and apricot germplasm accessions and local almond cultivars in Israel. PNRSV was widespread both in wild and cultivated almond trees and uncommon in wild apricots and plums. The possible variation among the PNRSV isolates was initially evaluated by restriction analysis of PCR products representing the CP gene with the endonuclease RsaI and followed by nucleotide sequence analysis of selected isolates. It was concluded that all 13 isolates belong to group PV96, the largest cluster of PNRSV isolates, described previously. Two PNRSV isolates, one from a plum accession and one from an almond cultivar, were found to be distinct members of group PV96 with unique nucleotide modifications not found in other documented isolates of this virus. However, no PNRSV isolate typical to a specific host and/or to the Middle East region could be identified. This study expands the body of data on variability of PNRSV isolates and highlights the importance of assessing the virus status of germplasm collections by applying reliable diagnostic and differentiating methods.     

Characterization and Cross-transmission of Baculoviruses Infectious to the Diamondback Moth, Plutella xylostella, and some other Lepidopteran Pests of Brassica Crops

Isolates of a granulovirus (GV) from the Diamondback Moth, Plutella xylostella, and nucleopolyhedrovirus (NPV) isolates from Galleria mellonella and Autographa californica were characterized by restriction endonuclease analysis of viral DNA. The capacity for these viruses to infect P. xylostella larvae and some other lepidopteran pests of brassica crops (including Heliothis virescens, Crocidolomia binotalis and Mamestra brassicae) was examined in cross-transmission experiments in which the DNA isolated from purified progeny viruses, was compared by restriction endonuclease analysis with DNA from the inoculum viruses. Two P. xylostella GV isolates from Taiwan and China (Px GV-Taiwan and Px GV-China) appeared to be very closely-related on the basis of comparative restriction endonuclease analysis of viral genomic DNA. However, both virus isolates could be distinguished by 1-3 major band differences and by sub-molar band variation when their DNA was analysed following digestion with Eco RI, Bam HI and Hin dIII. Both P. xylostella GV isolates proved to be infectious for P. xylostella larvae but did not appear to infect M. brassicae, C. binotalis or H. virescens larvae. In contrast, a G. mellonella NPV (Gm NPV) isolate was infectious for P. xylostella larvae as well as for larvae of M. brassicae, C. binotalis and H. virescens. The results also confirmed that P. xylostella larvae are susceptible to infection by A. californica NPV. These studies form the basis for further evaluation of Px GV and Gm NPV as potential biological control agents for the Diamondback Moth.     

Selection of nuclear polyhedrosis viruses as biological control agents ofSpodoptera exigua [Lep.: Noctuidae]

The virulence of 5 nuclear polyhedrosis viruses infectious for larvae of beet armyworm,Spodoptera exigua, was studied and their potential as biological control agents of this accidentally introduced pest in Dutch greenhouse crops is discussed. Three of the virus isolates were collected from deceased beet armyworm larvae found in Dutch greenhouses. Based on restriction endonuclease patterns of their DNA they appeared to be closely related toMamestra brassicae nuclear polyhedrosis virus (MbMNPV) and therefore were named MbMNPV-NL80, MbMNPV-NL82 and MbMNPV-NL83. These isolates were not related toAutographa californica MNPV (AcMNPV) or toSpodoptera exigua MNPV (SeMNPV), both originating from the USA. Comparison of the oiological activity of these 5 isolates showed that the SeMNPV was more virulent against beet armyworm than the other isolates. There was no significant difference in virulence between MbMNPV-NL80, NL82, NL83 and AcMNPV forS. exigua. The LD-50 values of the 5 isolates for 2nd instar larvae were 3, 26, 14, 17 and 18 polyhedra, respectively. Despite compensating qualities of the other MNPVs, such as a broader host range and potential production in alternate hosts or cell-lines, SeMNPV is considered to be the most suitable candidate as biological control agent of beet armyworm.      

Differentiation of sheeppox and goatpox viruses by polymerase Chain reaction-restriction fragment length polymorphism

In the present study, the partial gene sequences of P32 protein, an immunogenic envelope protein of Capripoxviruses (CaPV), were analyzed to assess the genetic relationship among sheeppox and goatpox virus isolates, and restriction enzyme specific PCR-RFLP was developed to differentiate CaPV strains. A total of six goatpox virus (GTPV) and nine sheeppox virus (SPPV) isolates of Indian origin were included in the sequence analysis of the attachment gene. The sequence analysis revealed a high degree of sequence identity among all the Indian SPPV and GTPV isolates at both nucleotide and amino acid levels. Phylogenetic analysis showed three distinct clusters of SPPV, GTPV and Lumpy skin disease virus (LSDV) isolates. Further, multiple sequence alignment revealed a unique change at G120A in all GTPV isolates resulting in the formation of Dra I restriction site in lieu of EcoR I, which is present in SPPV isolates studied. This change was unique and exploited to develop restriction enzyme specific PCR-RFLP for detection and differentiation of SPPV and GTPV strains. The optimized PCR-RFLP was validated using a total of fourteen (n=14) cell culture isolates and twenty two (n=22) known clinical samples of CaPV. The Restriction Enzyme specific PCR-RFLP to differentiate both species will allow a rapid differential diagnosis during CaPV outbreaks particularly in mixed flocks of sheep and goats and could be an adjunct/supportive tool for complete gene or virus genome sequencing methods.     

DNA restriction polymorphism in wild isolates of Spodoptera frugiperda nuclear polyhedrosis virus.

Restriction endonuclease analysis was used to examine variation in DNA of 22 wild isolates of Spodoptera frugiperda nuclear polyhedrosis virus (SfNPV). Eleven of the 15 isolated from Louisiana were distinguishable based on restriction fragment profiles from the enzymes BamHI, HindIII, and EcoRI. There was significant genetic variation in SfNPV isolates within single agricultural fields. Nucleotide sequence divergence values, based on restriction fragment profiles, indicated that genetic variation among isolates foreign to Louisiana (Ohio, Ecuador, Mexico, Georgia, Colombia, and Venezuela) was greater than that among the Louisiana isolates. However, certain foreign isolates were similar to or identical with Louisiana isolates. Genetic variation of the viral DNA was not influenced by the insect's host plan species.     

Restriction endonuclease patterns of three baculoviruses isolated from species of Heliothis

The DNA of three baculoviruses propagated in larvae of a common host species (Heliothis zea) were easily distinguished from each other by their restriction endonuclease patterns. Molecular weights of 79.7 ± 7.3, 119.6 ± 5.1, and 86.6 ± 6.3 × 10⁶ daltons were estimated for the viral genome of a single-embedded nucleopolyhedrosis virus isolated from Heliothis zea, a multiple-embedded nucleopolyhedrosis virus isolated from Heliothis armigera, and a granulosis virus isolated from Heliothis armigera, respectively.     

Comparative analysis of the alkali-liberated components of the Hyphantria cunea and the Diacrisia virginica granulosis viruses

The biochemical and biophysical characteristics of the closely related Diacrisia virginica and Hyphantria cunea granulosis virus isolates were examined. Sucrose gradient sedimentation patterns of alkali-solubilized DGV and HcGV capsules were identical. The top, middle, and bottom fractions from either viral isolate were infectious when injected into susceptible host larvae. Electrophoretic analysis of alkaline-solubilized granulin extracts demonstrated that both viruses contain alkaline proteolytic activity. The major granulin protein (～28,000 daltons) of both isolates comigrated in a SDS-PAGE. Electrophoretic separation of the virus proteins demonstrated some quantitative differences between the two granulosis viruses. The enveloped nucleocapsids and the nucleocapsids of the two viruses were morphologically indistinguishable.     

Biochemical and biological characterization of four isolates of Spodoptera exigua nuclear polyhedrosis virus

Biological and biochemical properties of four nuclear polyhedrosis virus isolates from beet armyworm, Spodoptera exigua, were investigated. The isolates originated from the United States (SeNPV‐US), Thailand (SeNPV‐TH) and from two locations in Spain (SeNPV‐SP1 and SeNPV‐SP2). Restriction endonuclease analysis of the viral genomes revealed limited restriction fragment length polymorphism and indicated that these viruses contained distinct, but closely related, genotypes (variants). One BglII fragment from each isolate can serve as a restriction fragment length polymorphism marker for the identification of each isolate. The estimated genome size of the SeNPVs is approximately 134 kilobase pairs. The mobility profiles of the occluded virion polypeptides and polyhedrins of the four SeNPV isolates were very similar. Staphylococcus aureus V8 digestion of polyhedrin suggested that the polyhedrin from SeNPV‐US is distinct from the polyhedrins of the other isolates. Bioassays of the isolates in second‐instar S. exigua larvae showed that the SeNPV‐TH was the most potent SeNPV for beet armyworm with an LD₅₀ value of only 1.5 polyhedra per second‐instar larva.     

Genetic mapping of variation in dauer larvae development in growing populations of Caenorhabditis elegans

In the nematode Caenorhabditis elegans, the appropriate induction of dauer larvae development within growing populations is likely to be a primary determinant of genotypic fitness. The underlying genetic architecture of natural genetic variation in dauer formation has, however, not been thoroughly investigated. Here, we report extensive natural genetic variation in dauer larvae development within growing populations across multiple wild isolates. Moreover, bin mapping of introgression lines (ILs) derived from the genetically divergent isolates N2 and CB4856 reveals 10 quantitative trait loci (QTLs) affecting dauer formation. Comparison of individual ILs to N2 identifies an additional eight QTLs, and sequential IL analysis reveals six more QTLs. Our results also show that a behavioural, laboratory-derived, mutation controlled by the neuropeptide Y receptor homolog npr-1 can affect dauer larvae development in growing populations. These findings illustrate the complex genetic architecture of variation in dauer larvae formation in C. elegans and may help to understand how the control of variation in dauer larvae development has evolved.     

Genetic Variability and Evolutionary Implications of RNA Silencing Suppressor Genes in RNA1 of Sweet Potato Chlorotic Stunt Virus Isolates Infecting Sweetpotato and Related Wild Species

Background

The bipartite single-stranded RNA genome of Sweet potato chlorotic stunt virus (SPCSV, genus Crinivirus; Closteroviridae) encodes a Class 1 RNase III (RNase3), a putative hydrophobic protein (p7) and a 22-kDa protein (p22) from genes located in RNA1. RNase3 and p22 suppress RNA silencing, the basal antiviral defence mechanism in plants. RNase3 is sufficient to render sweetpotato (Ipomoea batatas) virus-susceptible and predisposes it to development of severe diseases following infection with unrelated virus. The incidence, strains and gene content of SPCSV infecting wild plant species have not been studied.

Methodology/Principal Findings

Thirty SPCSV isolates were characterized from 10 wild Ipomoea species, Hewittia sublobata or Lepistemon owariensis (family Convolvulaceae) in Uganda and compared with 34 local SPCSV isolates infecting sweetpotatoes. All isolates belonged to the East African (EA) strain of SPCSV and contained RNase3 and p7, but p22 was not detected in six isolates. The three genes showed only limited genetic variability and the proteins were under purifying selection. SPCSV isolates lacking p22 synergized with Sweet potato feathery mottle virus (SPFMV, genus potyvirus; Potyviridae) and caused severe symptoms in co-infected sweetpotato plants. One SPCSV isolate enhanced accumulation of SPFMV, but no severe symptoms developed. A new whitefly-transmitted virus (KML33b) encoding an RNase3 homolog (<56% identity to SPCSV RNase3) able to suppresses sense-mediated RNA silencing was detected in I. sinensis.

Conclusions/Significance

SPCSV isolates infecting wild species and sweetpotato in Uganda were genetically undifferentiated, suggesting inter-species transmission of SPCSV. Most isolates in Uganda contained p22, unlike SPCSV isolates characterized from other countries and continents. Enhanced accumulation of SPFMV and increased disease severity were found to be uncoupled phenotypic outcomes of RNase3-mediated viral synergism in sweetpotato. A second virus encoding an RNase3-like RNA silencing suppressor was detected. Overall, results provided many novel and important insights into evolutionary biology of SPCSV.