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1.
Rev. argent. microbiol ; Rev. argent. microbiol;51(4): 381-385, dic. 2019. graf
Article de Anglais | LILACS | ID: biblio-1057404

RÉSUMÉ

Abstract The fall armyworm, Spodoptera frugiperda (J.E. Smith) (Lepidoptera: Noctuidae), is an important maize pest. Due to the environmental impact and emergence of resistance caused by chemical pesticides and transgenic events, the use of baculoviruses becomes a safe and useful alternative for its control in integrated pest management strategies. Here we report the identification of a novel isolate of a granulovirus of S. frugiperda native to the central region of Argentina, named SfGV ARG. We observed that larvae infected with SfGV ARG showed a yellowish coloration, swollen body and, in some cases, severe lesions in the last abdominal segments. We confirmed the identity of the isolate by sequencing fragments of the lef-8, lef-9 and granulin genes and by calculating evolutionary distances using the Kimura-2-Parameter model. SfGV ARG DNA restriction pattern allowed to estimate a genome of at least 135 kb.


Resumen La oruga militar tardía, Spodoptera frugiperda (J.E. Smith) (Lepidoptera: Noctuidae), es una plaga importante del maíz. Debido al impacto ambiental y a la aparición de resistencia causados por los pesticidas químicos y los eventos transgénicos, el uso de baculovirus resulta una alternativa útil y saludable para su control en estrategias de manejo integrado de plagas. En este trabajo reportamos la identificación de un nuevo aislamiento del granulovirus de la S. frugiperda nativo de la región central de Argentina, SfGV ARG. Se observó que larvas infectadas con SfGV ARG mostraron coloración amarillenta, hinchazón y, en algunos casos, lesiones graves en los últimos segmentos abdominales. Se confirmó la identidad del aislamiento por secuenciación de fragmentos de los genes lef-8, lef-9y granulina, y por cálculo de distancias evolutivas usando el parámetro de Kimura-2. El patrón de restricción generado con el ADN genómico de SfGV ARG permitió estimar un tamaño de genoma de al menos 135 kb.


Sujet(s)
Lutte biologique contre les nuisibles/méthodes , Spodoptera/parasitologie , Granulovirus/isolement et purification , Pesticides , Argentine , Baculoviridae/isolement et purification , Parasites Agricoles
2.
Article de Coréen | WPRIM | ID: wpr-715378

RÉSUMÉ

We have examined isolation and identification protocols for three virus simulant candidates to biological warfare agents. MS2 phage, a simulant for yellow fever virus and Hantaan virus, was propagated using as a host an E. coli strain with F pilus. MS2 phage genome was examined by reverse transcription and polymerase chain reaction (RT-PCR). Coat protein of the phage preparation was examined by SDS-polyacrylamide gel electrophoresis (SDS-PAGE) and mass spectrometric analysis. Cydia pomonella granulosis virus (CpGV) is a virus simulant candidate to smallpox virus. CpGV was isolated from a commercialized CpGV pellet. In this study, we developed new isolation and identification protocols for CpGV. One disadvantage of using CpGV is that it is not easy to determine viability of the virus. Here, we have included T4 phage as an alternative. We established a high titer production protocol and developed an easy genome identification protocol that does not require purified phage DNA. Stability of these virus preparations was also examined under various storage conditions. When the virus preparations were not subjected to freeze drying, MS2 phage was most stable when it was stored in liquid nitrogen but unstable at 4℃. In contrast, T4 phage was most stable when it was stored at 4℃. CpGV was stable at −20℃ but not at 4℃. Stability during or after freeze drying was also investigated. The result showed that 70~80% MS2 survived the freeze drying process. In contrast, only about 15% of T4 phage survived during the freeze drying. CpGV was found to be degraded during freeze drying.


Sujet(s)
Bactériophage T4 , Bactériophages , Agents de guerre biologique , ADN , Électrophorèse , Lyophilisation , Génome , Granulovirus , Virus Hantaan , Levivirus , Azote , Réaction de polymérisation en chaîne , Transcription inverse , Virus de la variole , Virus de la fièvre jaune
3.
Chinese Journal of Virology ; (6): 560-566, 2012.
Article de Chinois | WPRIM | ID: wpr-340005

RÉSUMÉ

Plutella xylostella granulovirus (PlxyGV) contains homologs of 15 Autographa californica MNPV (AcMNPV) late expression factor (lef) genes. The prospective products of 14 PlxyGV lef genes (ie-0 is not included) share 13%-53% amino acid similarity with their corresponding homologs of AcMNPV, among which LEF-9, LEF-8 and P47, three subunits of the virus-encoded RNA polymerase, share 49%, 53% and 46% sequence identity, respectively. In this study, an established transient expression system was used to test the ability of the PlxyGV LEFs to activate an AcMNPV vp39 promoter-driven reporter gene in SF9 cells. It was shown that PlxyGV le f-2 replaced the corresponding AcMNPV gene and exhibited partial activity in the context of the remaining set of AcMNPV le fs. PlxyGV LEF-2 was found to contain additional 100aa and 70aa at the C-terminus in comparison with the LEF-2 of other GVs and lepidopteran NPVs respectively.


Sujet(s)
Animaux , Séquence d'acides aminés , Régulation de l'expression des gènes viraux , Granulovirus , Chimie , Génétique , Métabolisme , Données de séquences moléculaires , Papillons de nuit , Virologie , Nucleopolyhedrovirus , Génétique , Métabolisme , Alignement de séquences , Protéines virales , Génétique , Métabolisme
4.
Chinese Journal of Virology ; (6): 15-22, 2012.
Article de Chinois | WPRIM | ID: wpr-354777

RÉSUMÉ

Protein-protein interactions between viruses and hosts are common during viral infection and replication. In this study, a cDNA library from larvae of Plutella xylostella was constructed and used for screening of genes encoding proteins interacting with Plutella xylostella granulovirus (PlxyGV) proteins. Two cDNA clones containing genes encoding proteins interacting with PlxyGV PP31 were identified by yeast two-hybrid assays. Sequence analysis showed that the genes encoded homologues of receptor for activated protein C kinase (RACK) and methionine aminopeptidase 2 (MetAP2), respectively. The P. xylostella rack gene and the PlxyGV pp31 was expressed in an E. coli strain to produce proteins fused with a 6-His or a GST tag. It was shown that the rack was expressed as a 38kD peptide as prospected. The 38kD His-tagged peptide was co-purified with GST-PP31 by GST-bind resin in GST-pulldown assays, confirming interaction between the PlxyGV PP31 and the RACK protein of P. xylostella.


Sujet(s)
Animaux , Aminopeptidases , Génétique , Physiologie , Banque de gènes , Granulovirus , Physiologie , Metalloendopeptidases , Génétique , Physiologie , Papillons de nuit , Virologie , Récepteurs de kinase-C activée , Récepteurs de surface cellulaire , Génétique , Physiologie
5.
Article de Anglais | IMSEAR | ID: sea-19049

RÉSUMÉ

BACKGROUND & OBJECTIVE: Potato tuber moth (PTM), Phthorimaea operculella Zeller is a widely distributed, devastating pest of potatoes attacking the foliage and infest the tubers in both field and store causing serious economic damage. As application of PTM granulovirus (PTM-GV) has shown significant reduction in damage, attempts were made to develop a new cell line from this insect to grow PTM-GV for use as a biopesticide. METHODS: Approximately 100 mg of insect eggs were collected, surface sterilized and crushed gently in a boiling tube aseptically. The tissues were washed with physiological saline, suspended in growth medium and incubated stationary at 28 degrees C. Morphology of cells was studied after staining with Giemsa. Besides karyological and growth curve studies, PCR amplification was also done for rapid amplified polymorphic DNA pattern. RESULTS: A new cell line from the embryonic tissue of PTM was maintained in Mitsuhashi Maramorosch medium supplemented with 10 per cent foetal bovine serum. It is in the 78th passage level and designated as NIV-PTM-1095. Random amplified polymorphic DNA profile analysis indicated this as a new cell line from potato tuber moth and differed from the profiles of two other lepidopteran cell lines maintained in the laboratory. Three different cell types were observed at the 40th passage level and comprised of epithelial-like cells (77%), fibroblast-like cells (20%) and giant cells (3%). The chromosome number varied from 54-176. The cell line had a cell doubling time of approximately 42 h during the logarithmic phase of growth. The cell line did not support the multiplication of any of the baculoviruses used in the study. INTERPRETATION & CONCLUSION: Since the new cell line is found to replicate PTM-GV, it may be useful for the propagation of PTM-GV in large scale. Studies to scale up the production of the GV in the cell line and field trials may lead to its widespread use as an eco-friendly biopesticide.


Sujet(s)
Animaux , Techniques de culture cellulaire/méthodes , Lignée cellulaire , ADN/génétique , Granulovirus/physiologie , Papillons de nuit/cytologie , Lutte biologique contre les nuisibles , Maladies des plantes/parasitologie , Technique RAPD , Solanum tuberosum/parasitologie
6.
Indian J Exp Biol ; 2003 Nov; 41(11): 1346-8
Article de Anglais | IMSEAR | ID: sea-58593

RÉSUMÉ

A granulovirus (GV) was isolated from the field-bean pod borer, Adisura atkinsoni. Electron microscopic observation showed capsule or granular shaped occlusion bodies. The virus was highly virulent against second instar larvae when tested at 1 x 10(6) occlusions/larva through food surface (pod/seed) contamination technique. The incubation period ranged from 6-10 days in the case of second instar larvae. In contrast to green coloured healthy larvae. GV infected A. atkinsoni became brownish/pale white in colour mostly due to accumulation of large number of occlusion bodies. Study on the cross infectivity of A. atkinsoni GV to gram caterpillar, Helicoverpa armigera revealed the high susceptibility of H. armigera to A. atkinsoni GV, thereby widening the scope of controlling both the species on the same cropping system. This is the first record of GV from A. atkinsoni from India.


Sujet(s)
Animaux , Couleur , Contamination des aliments , Granulovirus/pathogénicité , Corps d'inclusion , Inde , Maladies des plantes/étiologie , Interférence virale , Virulence
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