Spodoptera exigua is one of the worldwide distributed agricultural pest insects and has been known to show high resistance to conventional chemical insecticides. Autographa california multiple nucleopolyhedrovirus (AcMNPV) has been used as eco-friendly biological control agent for S. exigua, as it exhibits high level of host specificity, stability and safety. In this study, for formulation of AcMNPV, the optimal conditions for mass-production of AcMNPV polyhedra was established using S. exigua larvae. Mass-produced AcMNPV polyhedra was formulated as wettable powder using microencapsulation method and its control efficacy against S. exigua was evaluated both in laboratory and semi-field experiment. Chinese cabbage treated with the AcMNPV formulation showed significantly reduced damage rates, suggesting that the AcMNPV formulation in this study could be useful for control of S. exigua
광식성 난방제 해충인 파밤나방(Spodoptera exigua)의 친환경적 방제원으로써 이용을 위해 국내에서 분리된 파밤나방 핵다각체병바이러 스(S. exigua nucleopolyhedrovirus K1: SeNPV-K1)의 형태 및 전체 유전체 서열을 분석하였다. SeNPV-K1의 다각체(polyhedra)는 0.6-1.8 um 크기의 부정형으로, 기 보고된 SeNPV와 외형적 차이는 보이지 않았다. 전체 유전체의 염기서열을 분석한 결과, 기 보고된 SeNPV와 비교할 때 145 bp 더 많은 135,756 bp로 확인되었으며, G+C 함량은 44% 였고 상동반복영역은 6개로 두 바이러스간에 차이는 없었다. ORF 분석결과, SeNPV-K1은 기 보고된 것과 비교할 때 2개 더 적은 137개를 가지며, SeNPV-K1에만 존재하는 ORF는 4개가 확인되었다. 이들 4개의 ORF는 비필수 유전자로 바이러스의 특성에는 큰 영향을 주지 않을 것으로 여겨졌다. 유전체의 vista 분석 결과, SeNPV-K1과 기 보고된 SeNPV의 전체 염기서열 유사도가 매우 높은 것으로 확인되었다. 국내에서 처음으로 분석한 SeNPV-K1의 전체 유전체는 기 보고된 SeNPV와 유사한 것으로 나타났으나 서로 다른 분리주로 국내 고유자원임을 확인하였다.
아시아계통의 매미나방(Lymantria dispar asiatica) (나비목: 태극나방과)은 국내 토착해충으로서 지역에 따라 돌발적으로 대발생한 사례 가 있으며, 다양한 수목 및 농작물에 피해를 끼치는 광식성 해충이다. 특히 2019년 이후로 경기도, 충청도, 경북 북부지역에서 대발생하여 산림 및 인근지역 도심에 발생하여 산림 및 도시민들의 정서적 피해를 끼치기도 했다. 본 연구에서는 2020-2021년 경북 예천지역에서 알집을 채집하여 사육한 결과, 매미나방 핵다각체병바이러스(LdMNPV) 감염에 의해 79.65% (321/403마리)는 사육중 사망하였다. 염기서열 분석은 2021년 국내 12 지역에서 매미나방 유충을 36마리를 조사한 결과, LdMNPV의 late expression factor-8 (lef-8), polyhedrin (polh) 유전자의 종내변이율이 0.80%, 0.86%로 확인됐다. NCBI database 자료와 비교 분석한 결과 일본의 LdMNPV와 가장 유사했으며, 터키의 LdMNPV와 가장 큰 차이를 나타냈다. 본 조사를 통하여 LdMNPV는 높은 감염율을 나타냈고 매미나방 중요한 개체군 조절인자중 한가지로 작용할 것으로 판단된다.
Baculoviral anti-apoptotic genes, p35 and iap (inhibitor of apoptosis), play important roles in the initiation stage of viral infection. However, some iap genes are not involved in the anti-apoptotic activity. To investigate the anti-apoptotic activity of the iap genes of Lymantria xylina multiple nucleopolyhedrovirus (LyxyMNPV), two ly-iap genes (ly-iap2 and ly-iap3) were cloned from LyxyMNPV. From a 5′ RACE analysis, a late promoter motif (TAAG) was found in the upstream (-15 bp) of ly-iap2, but ly-iap3 only posited an enhancer-like element (CGTGC) in the upstream (-22 bp) of 5′ UTR. Gene expression were detected by RT-PCR; the ly-iap2 and ly-iap3 genes began to express in the host cells (IPLB-LD652Y cell line) infected with LyxyMNPV 6 hours post-infection (p.i.) and reached the peak 72 hours p.i., followed by decline 3 to 5 days p.i. Functional assay of the iap genes were performed by an over-expression method in Sf9 cells. Full-length domains of LY-IAP2, LY-IAP3 and LY-IAP2-BIR could differently inhibit the apoptosis which induced by Drosophila RPR protein (DRPR). Interestingly, LY-IAP2-RZF domain was important for LY-IAP2 to rescue apoptosis, but it might be also involved in the ubiquitin activity leading to the degradation of LY-IAP2 protein. LY-IAP3-RZF might be working as a “helper domain” to inhibit DRPR-induced apoptosis. These results can be used to figure out the roles of the ly-iap genes in the apoptosis of host cells.
ORF78 (ac78) of Autographa californica multiple nucleopolyhedrovirus (AcMNPV) is a baculovirus core gene of unknown function. To determine the role of ac78 in baculovirus life cycle, an ac78-deleted mutant AcMNPV, Ac78KO, was constructed. Quantitative PCR analysis revealed that ac78 is a late gene in the viral life cycle. After transfection into Spodoptera frugiperda cells, Ac78KO produced a single-cell infection phenotype indicating that no infectious budded viruses (BVs) were produced. The defection in BV production was also confirmed by both viral titration and Western blot. However, viral DNA replication is unaffected. Analysis of BV and occlusion derived virus (ODV) revealed that AC78 is associated with both forms of the virions and is a structural protein located to viral envelope. Electron microscopy showed that ac78 also plays an important role in embedding of ODV into occlusion body. This study therefore demonstrates that AC78 is a late virion associated protein and is essential for the viral life cycle.
The baculovirus expression system is one of the most popular methods used for the production of recombinant proteins but has several complex steps which have proved inherently difficult to meet a multi-parellel process. We have developed a novel recombinant bacmid, bEasyBm that enabling easy and fast generation of pure recombinant virus without any purification step. In the bEasyBm, attR recombination sites were introduced to facilitate the generation of recombinant viral genome by in vitro transposition. Moreover, extracellular RNase gene from bacillus amyloliquefaciens, barnase, was expressed under the control of Cotesia plutellae bracovirus early promoter. Therefore, only when the barnase gene was replaced to gene of interest, the bEasyBm could replicate in host insect cells. When the bEasyBm was transposed with pDualBac-EGFP and pDualBac-LUC respectively, there were no non-recombinant backgrounds were detected from unpurified BmEasy-EGFP or BmEasy-LUC stocks. In addition, the resulting recombinant virus, BmEasy-EGFP, showed comparable level of EGFP expression efficiency with the plaque-purified recombinant virus, BmEGFP, which was constructed using bBmGOZA system. Based on these results, high-throughput condition for generation of multiple recombinant viruses in a time was established.
ORF11 (ac11) of Autographa californica multiple nucleopolyhedrovirus (AcMNPV) is a highly conserved baculovirus gene whose homologs are found in all lepidoteran Group I NPV, but its function is unknown so far. To determine the role of ac11 in baculovirus life cycle, ac11 knock-out mutant, Ac11KO, was constructed using the plasmid capture system (PCS). Real-Time PCR analysis showed that ac11 transcript was first detected at 6 h post-infection (p.i.) and accumulated to maximum at 48 h p.i., indicating that ac11 is belong to late gene. When the genomic DNA of Ac11KO was transfected into Sf9 cells, viral replication was restricted to a cell transfected originally. While viral transmission of the Ac11KO was not observed in Sf9 cells, production of budded virus (BV) in Sf9 cells transfected with Ac11KO was observed by transmission electron microscopy (TEM). These results suggest that the ac11 is essential for AcMNPV to produce infective BV.
Among 154 putative ORFs of Autographa californica multiple nucleopolyhedrovirus (AcMNPV), ac78 and ac79 are highly conserved genes in baculovirus, but their functions in the virus life cycle have been unknown so far. To determine their roles in AcMNPV replication, knockout mutants, ac78KO and ac79KO, were constructed using the plasmid capture system (PCS). Real-Time PCR analysis showed that both of ac78 and ac79 transcripts were first detected at 6 hours post-infection, and accumulated to maximum at 24 hours post-infection, suggesting that both of ac78 and ac79 are belong to late gene. When the genomic DNA of ac78KO was transfected into Sf9 cells, viral replication was restricted to a single cell infection. These results demonstrated that the ac78 play an important role in BV production, and therefore is essential for AcMNPV to mount a successful infection. Whereas Sf9 cells infected with the ac79KO showed normal viral symptoms such as rounding and swelling, OBs were not observed from majority of infected cells. These results suggested that the ac79 might play an important role in OB production.
The polyhedrin is responsible to form polyhedra of nucleopolyhedrovirus(NPV) and highly conserved in most completely sequenced in lepidopteran NPVs. Previously, we have reported that the substitution of polyhedrin of Autographa californica NPV(AcNPV) with that of Spodoptera exigua NPV(SeNPV) or Bombyx mori NPV(BmNPV) result the change of polyhedra morphology. In this study, we investigated the influence of changed polyhedra morphology to the virulence of AcNPV. The recombinant AcNPVs were propagated in Spodoptera frugiperda clone 9, 21 cells and S. exigua larvae. Each collected recombinant polyhedra were used in bioassays using S. exigua larvae. The recombinant AcNPVs show that difference virulence according to the polyhedra morphologies. Internal and external morphological features of each recombinant AcNPV were also compared on the electron microscope. Our results suggest that the morphology of polyhedra influence the virulence of NPV and is well worth considering for the development viral insecticide.
ORF43 (ac43) of Autographa californica multiple nucleopolyhedrovirus (AcMNPV) is a highly conserved baculovirus gene whose function is unknown. To determine the role of ac43 in baculovirus life cycle, we used a new AcMNPV bacmid (bAc-MK) and generated ac43 deletion virus (ac43KO) by using the plasmid capture system (PCS). After transfection into Spodoptera frugiperda cells, ac43KO produced significantly different OBs which with much larger size; and especially had much single nucleocapsids compared to Ac-MK. Furthermore, ac43KO bacmid led to defect in transcription and expression of polyhedrin, which result in less OBs production. However, ac43KO didn't affect BV production since there's no remarkable difference of BV titer in both ac43KO and Ac-MK. These results demonstrate that ac43 play an important role in polyhedrin expression, OB formation, and virion assembly.
Mamestra brassicae nucleopolyhedrovirus-K1 (MabrNPV-K1) was isolated from naturally infected Mamestra brassicae (Lepidoptera: Noctuidae) larvae in Korea. Restriction endonuclease fragment analysis using EcoRI, PstI, and BamHI estimated that the total genome size of MabrNPV-K1 is about 150 Kb. The full genome sequences of MabrNPV-K1 were determined, analyzed and compared to those of other baculoviruses. The MabrNPV-K1 genome consisted of 152,471 bp and had an overall G + C contents of 39.90 %. Computer-assisted analysis predicted 159 open reading frames (ORFs) of 150 nucleotides or greater that showed minimal overlap. The gene content and arrangement in MabrNPV-K1 were most similar to those of Mamestra configurata nucleopolyhedrovirus-B (MacoNPV-B), including three polh, p10 and lef-8 gene homologues. The MabrNPV-K1 genome contains four homologous repeat regions (hr1,hr2,hr3,hr4) that account for 3.1% of the genome. The genomic positions of MabrNPV-K1 regions hr1– hr4 are conserved with the genomic positions of MacoNPV-B hr1–hr4. This indicates that the position of MabrNPV–K1 hrs is conserved with regard to both the upstream and downstream genes. Given that hrs share higher similarity within a virus strain than any hrs between species, this evidence further indicates that hrs play a fundamental role in viral life cycle and replication process appears to be tightly linked to functional conservation. The dot plot analysis, percent identity of the gene homologues and a phylogenetic analysis suggested that MabrNPV-K1 is a Group II NPV that is closely related to MacoNPV but with a distinct genomic organization.
Autographa californica nucleopolyhedrovirus (AcMNPV) has a large doublestrand DNA genome of approximately 134 kbp and harbors 156 open reading frames (ORFs). To elucidate DNA replication cascade of AcMNPV, we developed a novel baculovirus genome that can be maintained in Escherichia coli as a plasmid and can infect susceptible lepidopteran insect cells. This genome, named bAc-MK, contains a mini-F replicon and a kanamycin resistance marker. Using a convenient Tn7 transposon-based system, pPCS-S, 55 single ORF-truncated mutants were generated by random insertion into bAc-MK genome. These single ORF-truncated mutants were independently transfected into Sf9 cells, 16 of them were found affecting viral replication since they defected in producing polyhedra. Furthermore, to verify the pathogenicity of the single ORF-truncated mutants, the remaining 39 mutants were subjected to bioassay to Spodoptera exigua 3rd instar larvae. Among them, ac9-, ac49-, ac103- and ac105-knockout mutants showed higher mortality compared to that of bAc-MK. These results suggested that these ORFs could be related to pathogenicity of AcMNPV.
Mamestra brassicae (cabbage moth) is a common European moth of the order Lepidoptera and the family Noctuidae. The larval stage is highly polyphagous and is known to feed on more than 70 species of host plants from 22 families, including Brassica species, lettuce, onion, potato, pea, tomato and apple. M. brassicae has become a significant pest also in Asia due to the damage caused to agriculturally and economically important Brassica crops. It is difficult to control M. brassicae using chemical insecticide because of its rapid development of resistance. The objective of our study, therefore, was the mass production and formulation of a local strain of M. brassicae nucleopolyhedrovirus-K1 (MabrNPV-K1) for the development of viral insecticide to control it. In production efficiency of MabrNPV-K1 using M. brassicae larvae, the mortality of the 3rd instar larvae was 100% when inoculated with 1.0 × 105 PIBs/larva and the yield of MabrNPV-K1 was maximal. Regarding the mortality, yield of polyhedra, inoculation doses and required time, the 1.0 × 104 PIBs/larva at 30°C was determined as optimal conditions producing polyhedra efficiently. To formulate MabrNPV-K1, feeding toxicities of various supplements including spreader and ultraviolet (UV) -protectant were determined. Tinopal UNPA-GX which is UV-protectants was effective for protection of polyhedra from UV and showed the increased mortality when added with 1% concentration. Other supplements did not influence significantly the mortality of MabrNPV-K1. Formulated MabrNPV-K1 with several supplements showed higher pathogencity than un-formulated MabrNPV-K1.
Baculovirus chitinase gene (ChiA) is a late gene and is essential for liquefying host insect at the late stage of infection for its hydrolyzing chitin function. In previous report, baculovirus ChiA can offer many interseting new opportunities for pest control. Recently, a putative chitinase gene (ChiA) was identified in the Spodopter litura nucleopolyhedorvirus (SlMNPV-K1) genome. The open reading frame (ORF) contains 1,692 nucelotides (nt) and encodes a protein of 563 amino acids (aa) with a predicted molecular weight of 62.62 kDa. To conform the insecticidal activity of ChiA from SlMNPV-K1, we constructed a baculovirus transfer vector, pBac-SlChiA, and this transfer vector was co-transfected with the bApGOZA DNA into sf9 cell to generate corresponding recombinant viru which designed Ap-SlChiA. Western blot analysis indicate that SlMNPV-K1 ChiA was successfully expressed. We found the chitinase activity of recombinant virus was enhanced 53% than wide type AcMNPV by chitinase assay, and the recombinant virus showed higher evidently insecticidal activity against 3rd instar larvae of Spodotera exigua than wide type AcMNPV (4.5 time). These results suggested that the chitinase gene from SlMNPV-K1 could be successfully applied to improve pathogenicity of bauclovirus
Autographa californica nucleopolyhedrovirus (AcMNPV) has a large doublestrand DNA genome of approximately 134 kbp and comprises 156 open reading frames (ORFs). To elucidate DNA replication cascade of AcMNPV, we developed a novel baculovirus genome that can be maintained in Escherichia coli as a plasmid and can infect susceptible lepidopteran insect cells. This genome, named bAc-MK, contains a mini-F replicon and a kanamycin resistance marker. Using a convenient Tn7 transposon-based system, pPCS-S, which contains an ampicillin resistance gene, 56 single ORF-truncated mutants were generated by random insertion into bAc-MK genome. These single ORF-truncated mutants were independently transfected into Sf9 cells to verify viral replication. Interestingly, both lef-1 and p48 knockout mutants showed normal viral replication in infected cells, which are reported to essential for viral replication. These results suggest that these single ORF-truncated mutants are useful for elucidation of viral replication cascade.
Recently, the genome of Spodoptera litura granulovirus (SlGV) which encodes 133 putative open reading frames (ORFs) was completely sequenced. In this study, to screen novel insecticidal genes of SlGV, we first constructed an advanced plasmid capture system, pPCS-TPI, which contains not only pUC19 ori and ampicillin resistance gene but also Autographa californica nucleopolyhedrovirus (AcMNPV) ORF603 and ORF1629 homologous region between Tn7L and Tn7R. In order to introduce genomic segments of SlGV into the genome of AcMNPV, genomic DNA of SlGV was digested with EcoRI and self-ligated. These self-ligated segments were in vitro transposed with the pPCS-TPI donor by the help of TnsABC* transposase. By this, 10 EcoRI-digested genomic segments of the SlGV were cloned, and these clones were co-transfected with the bApGOZA DNA into sf9 cells to generate corresponding recombinant virus, respectively. The resulting recombinant viruses harboring genomic segments of the SlGV could be used to investigate the insecticidal activity and/or other functions originated from the introduced genomic segments of the SlGV.
The baculovirus Autographa californica nucleopolyhedrovirus (AcMNPV), a large circular double-stranded DNA virus whose genome encodes at least 155 open reading frames (ORFs), is highly pathogenic to a number of lepidopteran insects and widely used to transduce various cells for exogenous gene expression. Although many genes of AcMNPV have been identified, the genome-wide study related to viral replication has not been well announced. In this study, to elucidate DNA replication cascade of AcMNPV, we firstly developed a novel baculovirus genome that can be maintained in Escherichia coli as a plasmid and can infect susceptible lepidopteran insect cells. This genome, named bAc-MK, contains a mini-F replicon and a kanamycin resistance marker. Using a convenient Tn7 transposon-based system, pPCS-S, which contains an ampicillin resistance gene, ORF knock-out mutants were generated by random insertion into bAc-MK genome. These mutants will be suffered DNA microarray to elucidate AcMNPV replication cascade.