Your search keyword '"Strien, E."' showing total 12 results

1. Characteristics of the transactivator gene ie1 of Spodoptera exigua multiple nucleopolyhedrovirus

Author

van Strien, E. A., IJkel, W. F. J., Gerrits, H., Vlak, J. M., and Zuidema, D.

Published

2000

2. Abstracts of presentations on plant protection issues at the xth international congress of virology: August 11–16, 1996 Binyanei haOoma, Jerusalem Iarael part 3(final part)

Author

Liu, Sijun, Bedford, Ian D., Markham, Peter G., Ghanim, Morad, Zeidan, Muhamad, Czosnek, Henryk, Bruyère, A., Herrbach, E., Brault, V., Ziegler-Graff, V., Guilley, H., van den Heuvel, J. F. J. M., Taiwo, M. A., Dijkstra, J., Martinez, B., López-Moya, J. J., Llave, C., Díaz-Ruíz, J. R., López-Abella, D., Mikoshiba, Y., Honda, K., Kanematsu, S., Fujisawa, I., Salomon, Raffi, Bernardi, Francoise, Raccah, B., Singer, S., Gal-On, A., Huet, H., López-Moya, J. J., Pirone, T. P., Visser, Peter B., Bol, John F., Hernández, Carmen, Brown, Derek J. F., Pappu, H. R., Culbreath, A. K., Todd, J. W., McPherson, R. M., Sherwood, J. L., Bertrand, P. F., Robbins, M. A., Reade, R. D., Rochon, D. M., Schönfelder, M., Körbler, M., Barg, E., Lesemann, D. -E., Vetten, H. J., Manqussopoulos, I. N., Tsagris, M., Maiss, E., Marczewski, W., Syller, J., Romero, Javier, Molina-Garcia, Antonio, Babin, Mar, Bujarski, Jozef J., Pogany, Judy, Zhang, L., Palukaitis, P., Kaplan, I. B., Qu, Feng, Morris, T. Jack, Steinkellner, H., Puehringer, H., Machado, A. M. Laimer da Câmara, Hammond, J., Brandt, S., Katinger, H., Himmler, G., Carrier, K., Hans, F., Wang, A., Sanfacon, H., Palkovics, László, Balázs, Ervin, Petrzik, K., Mráz, I., Fránová-Honetšlegrová, J., Kusiak, C., Berthome, R., Dinant, S., Astier, S., Albouy, J., Renou, J. P., Bó, E. Dal, Torre, M. E. Sánchez de la, Djelouah, K., García, M. L., Grau, O., Benvenisti, Luna, Gelman, Boris, Hai, Dalia, Yadin, Hagai, Stram, Yehuda, Becker, Yechiel, Čeřovská, N., Filigarová, M., Dědič, P., Nemchinov, L., Hadidi, A., Choi, Y. G., Randles, J. W., Samson, A. C. R., Wilford, J. N., Chapman, S., Santa Cruz, S., Wilson, T. M. A., Wilkinson, Nicola, Wilson, Louise, Marlow, Susan, King, Linda, Possee, Robert, Zhu, Fanxiu, Qi, Yipeng, Huang, Yongxiu, Hu, Jianhong, Oker-Blom, Christian, Keinänen, Kari, Chauhan, B. K., Possee, R. D., French, T. J., Finkelstein, Y., Levi, B. Z., Faktor, O., Toister-Achituv, Mira, Wang, Fushan, Qi, Yipeng, Huang, Yongxiu, Lu, Liquan, Du, Quansheng, Watson, S. K., Kalmakoff, J., Broer, R., Liu, Y., Zuidema, D., Strien, E. A. van, Vlak, J. M., Heldens, J. G. M., Chejanovsky, N., Gershburg, E., Toister-Achituv, Mira, Faruchi, S., Kamensky, B., Faktor, O., Faktor, O., Nahum, O., Stockholm, D., Rivkin, H., Gurevitz, M., Chejanovsky, N., Zilberberg, N., Gershburg, E., Stockholm, D., Rivkin, H., Chejanovsky, N., Gurevitz, M., Zilberberg, N., Gershburg, E., Smith, P., King, L. A., Bamett, A., Windass, J. D., Possee, R. D., Jacobs, C., Fielding, B., Davison, S., Kunjeku, E., Guarino, L. A., Jarvis, D. L., Reilly, L., Hoover, K., Schultz, C. M., Hammock, B. D., Gordon, K. H. J., Bawden, A. L., Brooks, E. M., Lincoln, M. R., Hanzlik, T. N., Larkin, P. J., Gordon, K. H. J., Bawden, A. L., van Hulten, M. C. W., Hanzlik, T. N., Hendry, D. A., Stephens, Rachel, Barnett, Anna, Thomas, Carole, Possee, Robert, King, Linda, Phanis, Constantinos, O’Reilly, David R., Clarke, E., Tristem, Michael, Cory, Jennifer, O’Reilly, David R., Mayo, M. A., Duncan, G. H., Reavy, B., Gildow, F. E., Lamb, J. W., Hay, R. T., Li, Shoudong, Qi, Bing, Wang, Jiawang, Qi, Yipeng, O’Reilly, David R., Kang, WonKyung, Crook, Norman E., Winstanley, Doreen, Alaoui-Ismaili, M. H., Richardson, C. D., Lundsgaard, T., Kobayashi, J., Kayama, T., Ikeda, N., Miyajima, S., Inouye, K., Kimura, T., Suzuki, N., Sugawara, M., Nuss, D. L., Matsuura, Y., Simón, Laureano, Guo, Huishan, García, Juan Antonio, Wang, S., Miller, W. A., Browning, K., Fütterer, Johannes, Potrykus, Ingo, Bao, Yiming, Li, Liu, Burns, Thomas M., Hull, Roger, Hohn, Thomas, Hefferon, K. L., AbouHaider, M. G., Hulanicka, D., Juszczuk, M., Iskakov, B. K., Shmanov, M. A., Polimbetova, N. S., Zhanybekova, S. Sh., Lee, A. V., Galiakparov, N. N., Dale, J. L., Beetham, P. R., Hafner, G. J., Harding, R. M., and Dale, J. L.

Published

1998

3. Correction

Author

Liu, Sijun, Bedford, Ian, Markham, Peter, Ghanim, Morad, Zeidan, Muhamad, Czosnek, Henryk, Bruyère, A., Herrbach, E., Brault, V., Ziegler-Graff, V., Guilley, H., van den Heuvel, J., Taiwo, M., Dijkstra, J., Martinez, B., López-Moya, J., Llave, C., Díaz-Ruíz, J., López-Abella, D., Mikoshiba, Y., Honda, K., Kanematsu, S., Fujisawa, I., Salomon, Raffi, Bernardi, Francoise, Raccah, B., Singer, S., Gal-On, A., Huet, H., Pirone, T., Visser, Peter, Bol, John, Hernández, Carmen, Brown, Derek, Pappu, H., Culbreath, A., Todd, J., McPherson, R., Sherwood, J., Bertrand, P., Robbins, M., Reade, R., Rochon, D., Schönfelder, M., Körbler, M., Barg, E., Lesemann, D., Vetten, H., Manqussopoulos, I., Tsagris, M., Maiss, E., Marczewski, W., Syller, J., Romero, Javier, Molina-Garcia, Antonio, Babin, Mar, Bujarski, Jozef, Pogany, Judy, Zhang, L., Palukaitis, P., Kaplan, I., Qu, Feng, Morris, T., Steinkellner, H., Puehringer, H., Machado, A., Hammond, J., Brandt, S., Katinger, H., Himmler, G., Carrier, K., Hans, F., Wang, A., Sanfacon, H., Palkovics, László, Balázs, Ervin, Petrzik, K., Mráz, I., Fránová-Honetšlegrová, J., Kusiak, C., Berthome, R., Dinant, S., Astier, S., Albouy, J., Renou, J., Bó, E., Torre, M., Djelouah, K., García, M., Grau, O., Benvenisti, Luna, Gelman, Boris, Hai, Dalia, Yadin, Hagai, Stram, Yehuda, Becker, Yechiel, Čeřovská, N., Filigarová, M., Dědič, P., Nemchinov, L., Hadidi, A., Choi, Y., Randles, J., Samson, A., Wilford, J., Chapman, S., Santa Cruz, S., Wilson, T., Wilkinson, Nicola, Wilson, Louise, Marlow, Susan, King, Linda, Possee, Robert, Zhu, Fanxiu, Qi, Yipeng, Huang, Yongxiu, Hu, Jianhong, Oker-Blom, Christian, Keinänen, Kari, Chauhan, B., Possee, R., French, T., Finkelstein, Y., Levi, B., Faktor, O., Toister-Achituv, Mira, Wang, Fushan, Lu, Liquan, Du, Quansheng, Watson, S., Kalmakoff, J., Broer, R., Liu, Y., Zuidema, D., Strien, E., Vlak, J., Heldens, J., Chejanovsky, N., Gershburg, E., Faruchi, S., Kamensky, B., Nahum, O., Stockholm, D., Rivkin, H., Gurevitz, M., Zilberberg, N., Smith, P., King, L., Bamett, A., Windass, J., Jacobs, C., Fielding, B., Davison, S., Kunjeku, E., Guarino, L., Jarvis, D., Reilly, L., Hoover, K., Schultz, C., Hammock, B., Gordon, K., Bawden, A., Brooks, E., Lincoln, M., Hanzlik, T., Larkin, P., van Hulten, M., Hendry, D., Stephens, Rachel, Barnett, Anna, Thomas, Carole, Phanis, Constantinos, O'Reilly, David, Clarke, E., Tristem, Michael, Cory, Jennifer, Mayo, M., Duncan, G., Reavy, B., Gildow, F., Lamb, J., Hay, R., Li, Shoudong, Qi, Bing, Wang, Jiawang, Kang, WonKyung, Crook, Norman, Winstanley, Doreen, Alaoui-Ismaili, M., Richardson, C., Lundsgaard, T., Kobayashi, J., Kayama, T., Ikeda, N., Miyajima, S., Inouye, K., Kimura, T., Suzuki, N., Sugawara, M., Nuss, D., Matsuura, Y., Simón, Laureano, Guo, Huishan, García, Juan, Wang, S., Miller, W., Browning, K., Fütterer, Johannes, Potrykus, Ingo, Bao, Yiming, Li, Liu, Burns, Thomas, Hull, Roger, Hohn, Thomas, Hefferon, K., AbouHaider, M., Hulanicka, D., Juszczuk, M., Iskakov, B., Shmanov, M., Polimbetova, N., Zhanybekova, S., Lee, A., Galiakparov, N., Dale, J., Beetham, P., Hafner, G., and Harding, R.

Published

2018

4. Correction

Author

Liu, Sijun, Bedford, Ian D., Markham, Peter G., Ghanim, Morad, Zeidan, Muhamad, Czosnek, Henryk, Bruyère, A., Herrbach, E., Brault, V., Ziegler-Graff, V., Guilley, H., van den Heuvel, J. F. J. M., Taiwo, M. A., Dijkstra, J., Martinez, B., López-Moya, J. J., Llave, C., Díaz-Ruíz, J. R., López-Abella, D., Mikoshiba, Y., Honda, K., Kanematsu, S., Fujisawa, I., Salomon, Raffi, Bernardi, Francoise, Raccah, B., Singer, S., Gal-On, A., Huet, H., López-Moya, J. J., Pirone, T. P., Visser, Peter B., Bol, John F., Hernández, Carmen, Brown, Derek J. F., Pappu, H. R., Culbreath, A. K., Todd, J. W., McPherson, R. M., Sherwood, J. L., Bertrand, P. F., Robbins, M. A., Reade, R. D., Rochon, D. M., Schönfelder, M., Körbler, M., Barg, E., Lesemann, D. -E., Vetten, H. J., Manqussopoulos, I. N., Tsagris, M., Maiss, E., Marczewski, W., Syller, J., Romero, Javier, Molina-Garcia, Antonio, Babin, Mar, Bujarski, Jozef J., Pogany, Judy, Zhang, L., Palukaitis, P., Kaplan, I. B., Qu, Feng, Morris, T. Jack, Steinkellner, H., Puehringer, H., Machado, A. M. Laimer da Câmara, Hammond, J., Brandt, S., Katinger, H., Himmler, G., Carrier, K., Hans, F., Wang, A., Sanfacon, H., Palkovics, László, Balázs, Ervin, Petrzik, K., Mráz, I., Fránová-Honetšlegrová, J., Kusiak, C., Berthome, R., Dinant, S., Astier, S., Albouy, J., Renou, J. P., Bó, E. Dal, Torre, M. E. Sánchez de la, Djelouah, K., García, M. L., Grau, O., Benvenisti, Luna, Gelman, Boris, Hai, Dalia, Yadin, Hagai, Stram, Yehuda, Becker, Yechiel, Čeřovská, N., Filigarová, M., Dědič, P., Nemchinov, L., Hadidi, A., Choi, Y. G., Randles, J. W., Samson, A. C. R., Wilford, J. N., Chapman, S., Santa Cruz, S., Wilson, T. M. A., Wilkinson, Nicola, Wilson, Louise, Marlow, Susan, King, Linda, Possee, Robert, Zhu, Fanxiu, Qi, Yipeng, Huang, Yongxiu, Hu, Jianhong, Oker-Blom, Christian, Keinänen, Kari, Chauhan, B. K., Possee, R. D., French, T. J., Finkelstein, Y., Levi, B. Z., Faktor, O., Toister-Achituv, Mira, Wang, Fushan, Qi, Yipeng, Huang, Yongxiu, Lu, Liquan, Du, Quansheng, Watson, S. K., Kalmakoff, J., Broer, R., Liu, Y., Zuidema, D., Strien, E. A. van, Vlak, J. M., Heldens, J. G. M., Chejanovsky, N., Gershburg, E., Toister-Achituv, Mira, Faruchi, S., Kamensky, B., Faktor, O., Faktor, O., Nahum, O., Stockholm, D., Rivkin, H., Gurevitz, M., Chejanovsky, N., Zilberberg, N., Gershburg, E., Stockholm, D., Rivkin, H., Chejanovsky, N., Gurevitz, M., Zilberberg, N., Gershburg, E., Smith, P., King, L. A., Bamett, A., Windass, J. D., Possee, R. D., Jacobs, C., Fielding, B., Davison, S., Kunjeku, E., Guarino, L. A., Jarvis, D. L., Reilly, L., Hoover, K., Schultz, C. M., Hammock, B. D., Gordon, K. H. J., Bawden, A. L., Brooks, E. M., Lincoln, M. R., Hanzlik, T. N., Larkin, P. J., Gordon, K. H. J., Bawden, A. L., van Hulten, M. C. W., Hanzlik, T. N., Hendry, D. A., Stephens, Rachel, Barnett, Anna, Thomas, Carole, Possee, Robert, King, Linda, Phanis, Constantinos, O’Reilly, David R., Clarke, E., Tristem, Michael, Cory, Jennifer, O’Reilly, David R., Mayo, M. A., Duncan, G. H., Reavy, B., Gildow, F. E., Lamb, J. W., Hay, R. T., Li, Shoudong, Qi, Bing, Wang, Jiawang, Qi, Yipeng, O’Reilly, David R., Kang, WonKyung, Crook, Norman E., Winstanley, Doreen, Alaoui-Ismaili, M. H., Richardson, C. D., Lundsgaard, T., Kobayashi, J., Kayama, T., Ikeda, N., Miyajima, S., Inouye, K., Kimura, T., Suzuki, N., Sugawara, M., Nuss, D. L., Matsuura, Y., Simón, Laureano, Guo, Huishan, García, Juan Antonio, Wang, S., Miller, W. A., Browning, K., Fütterer, Johannes, Potrykus, Ingo, Bao, Yiming, Li, Liu, Burns, Thomas M., Hull, Roger, Hohn, Thomas, Hefferon, K. L., AbouHaider, M. G., Hulanicka, D., Juszczuk, M., Iskakov, B. K., Shmanov, M. A., Polimbetova, N. S., Zhanybekova, S. Sh., Lee, A. V., Galiakparov, N. N., Dale, J. L., Beetham, P. R., Hafner, G. J., Harding, R. M., and Dale, J. L.

Published

1998

5. Early identification of common-source foodborne virus outbreaks in Europe.

Author

Koopmans M, Vennema H, Heersma H, van Strien E, van Duynhoven Y, Brown D, Reacher M, and Lopman B

Subjects

Clinical Laboratory Techniques, Communicable Diseases, Emerging transmission, Communicable Diseases, Emerging virology, Databases, Factual, Europe epidemiology, Food Microbiology, Foodborne Diseases diagnosis, Foodborne Diseases virology, Humans, Reverse Transcriptase Polymerase Chain Reaction, Communicable Diseases, Emerging epidemiology, Disease Outbreaks, Epidemiologic Methods, Foodborne Diseases epidemiology

Abstract

The importance of foodborne viral infections is increasingly recognized. Food handlers can transmit infection during preparation or serving; fruit and vegetables may be contaminated by fecally contaminated water used for growing or washing. And the globalization of the food industry mean that a contaminated food item may not be limited to national distribution. International outbreaks do occur, but little data are available about the incidence of such events and the food items associated with the highest risks. We developed a combined research and surveillance program for enteric viruses involving 12 laboratories in 9 European countries. This project aims to gain insight into the epidemiology of enteric viruses in Europe and the role of food in transmission by harmonizing (i.e., assessing the comparability of data through studies of molecular detection techniques) and enhancing epidemiologic surveillance. We describe the setup and preliminary results of our system, which uses a Web-accessible central database to track viruses and provides the foundation for an early warning system of foodborne and other common-source outbreaks.

Published

2003

6. Specificity of multiple homologous genomic regions in Spodoptera exigua nucleopolyhedrovirus DNA replication.

Author

Broer R, Heldens JG, van Strien EA, Zuidema D, and Vlak JM

Subjects

Animals, Base Sequence, Cell Line, Deoxyribonuclease EcoRI metabolism, Molecular Sequence Data, Nucleopolyhedroviruses physiology, Sequence Analysis, DNA, Sequence Homology, Amino Acid, DNA Replication, DNA, Viral, Genome, Viral, Nucleopolyhedroviruses genetics, Spodoptera virology, Virus Replication

Abstract

The region upstream of the Spodoptera exigua multicapsid nucleopolyhedrovirus (SeMNPV) ubiquitin gene contains four near-identical 68-bp-long palindromic repeats. This region, named Sehr6 and located at map unit (m.u.) 88 of the SeMNPV genome on pSeEcoRI-2.2, showed structural homology to previously identified homologous regions (hrs) in a number of other baculoviruses. Hrs function as enhancers of transcription and as putative origins (oris) of baculovirus DNA replication. Five additional hrs (Sehr1-Sehr5) were identified on the SeMNPV genome by Southern blot hybridization with an 18-bp-long oligonucleotide complementary to a sequence conserved within the arms of the four palindromic repeats of Sehr6. Sehr1-Sehr6 were dispersed on the SeMNPV genome at m.u. 8.0, 30.0, 38.5, 51.0, 77.0 and 88.0, respectively. Sequence analysis of these hrs confirmed the presence of palindromic repeats, highly similar to those found in pSeEcoRI-2.2. The number of palindromes varied from one (Sehr4) to nine (Sehr1) per hr. The Sehrs are all present in non-coding regions of the SeMNPV genome and also contain multiple putative transcription recognition sequences. Plasmids containing either of the Sehrs replicated in an SeMNPV-dependent DNA replication assay. The Sehrs were unable to replicate in an AcMNPV-dependent DNA replication assay. This was in contrast to the previously observed SeMNPV non-hr type ori, which replicated in the presence of both AcMNPV and SeMNPV. These data suggest that the replication of SeMNPV and the role of hrs in this process is highly specific.

Published

1998

7. The single-nucleocapsid nucleopolyhedrovirus of Buzura suppressaria encodes a P10 protein.

Author

van Oers MM, Hu Z, Arif BM, van Strien EA, van Lent JW, and Vlak JM

Subjects

Amino Acid Sequence, Animals, Base Sequence, DNA, Viral, Genes, Viral, Molecular Sequence Data, Nucleocapsid, Sequence Homology, Amino Acid, Viral Proteins physiology, Moths virology, Nucleopolyhedroviruses genetics, Viral Proteins genetics

Abstract

The p10 gene of Buzura suppressaria single-nucleocapsid nucleopolyhedrovirus (BusuNPV) was identified by virtue of its localization downstream from the Autographa californica (Ac) MNPV p26 homologue. The BusuNPV p10 gene encodes a protein of 94 amino acids. The amino acid sequence contains domains characteristic of baculovirus P10 proteins, e.g. a coiled-coil domain, a proline-rich motif and a positively charged C terminus. The highest amino acid homologies were found with the Spodoptera littoralis (Spli) NPV and Spodoptera exigua (Se) MNPV P10 proteins. An AcMNPV recombinant expressing the BusuNPV P10 formed fibrillar structures in the cytoplasm of Spodoptera frugiperda cells. BusuNPV P10 could not fully replace AcMNPV P10 in its nuclear disintegration function, since polyhedra were not efficiently liberated from infected cells late in infection. The BusuNPV p26 gene encodes a protein of 263 amino acid residues with 70% amino acid similarity with SeMNPV P26. Downstream of the BusuNPV p10 gene, the gene for the occlusion-derived virus protein ODVP-6e is located. This is unlike the situation in many other NPVs, including SeMNPV, where the p10 gene neighbours the p74 gene. The data presented here suggest that although the p10 gene is not conserved in sequence, evolutionary pressure preserves the structure of P10 and hence its function. These data also indicate that all NPVs, MNPVs as well as SNPVs, contain this gene.

Published

1998

8. Baculoviruses contain a gene for the large subunit of ribonucleotide reductase.

Author

van Strien EA, Faktor O, Hu ZH, Zuidema D, Goldbach RW, and Vlak JM

Subjects

Amino Acid Sequence, Animals, Baculoviridae genetics, Base Sequence, Molecular Sequence Data, Nucleopolyhedroviruses enzymology, Phylogeny, RNA, Messenger analysis, Sequence Analysis, DNA, Sequence Homology, Amino Acid, Transcription, Genetic, Genes, Viral genetics, Nucleopolyhedroviruses genetics, Ribonucleotide Reductases genetics, Spodoptera virology

Abstract

In the genomes of two baculoviruses, Spodoptera exigua and S. littoralis multicapsid nucleopolyhedroviruses (SeMNPV and SpliMNPV, respectively), an open reading frame (ORF) encoding the large subunit of ribonucleotide reductase (RR1) was identified. The predicted amino acid sequences of SeMNPV and SpliMNPV RR1 showed high homology to RR1 proteins from eukaryotes (ca. 70% and 80% similarity, respectively). The amino acid residues thought to be involved in catalytic function were conserved in the baculoviral RR1 ORFs. The RR1 ORFs in SeMNPV and SpliMNPV were located in different genomic positions. In SeMNPV, the RR1 ORF was located upstream of the polyhedrin gene, in an anti-genomic orientation. In SpliMNPV, the RR1 ORF preceded the p74 gene. By searching databanks, sequences homologous to the N terminus of RR1 were also detected upstream of the polyhedrin gene of three other baculoviruses, Mamestra brassicae multicapsid NPV, Panolis flammea multicapsid NPV and Orgyia pseudotsugata single nucleocapsid NPV. The baculovirus type species, Autographica californica multicapsid NPV, however, does not encode RR. A 2.7 kb transcript could be detected throughout infection with SeMNPV, classifying SeMNPV rr1 as an early gene. Primer extension analysis revealed several early and late start sites. None of the major start sites showed similarity to previously characterized baculoviral transcriptional start motifs. Phylogenetic analysis of prokaryotic, eukaryotic and viral RR1 proteins suggested that SeMNPV and SpliMNPV acquired the gene for RR1 from a eukaryotic source, but independently from each other.

Published

1997

9. Spodoptera exigua multicapsid nucleopolyhedrovirus deletion mutants generated in cell culture lack virulence in vivo.

Author

Heldens JG, van Strien EA, Feldmann AM, Kulcsár P, Munoz D, Leisy DJ, Zuidema D, Goldbach RW, and Vlak JM

Subjects

Animals, Cell Line, DNA, Viral analysis, Gene Deletion, Genome, Viral, Nucleopolyhedroviruses growth & development, Spodoptera cytology, Virulence, Nucleopolyhedroviruses genetics, Nucleopolyhedroviruses pathogenicity, Restriction Mapping, Spodoptera virology

Abstract

The baculovirus Spodoptera exigua multicapsid nucleopolyhedrovirus (SeMNPV) has high potential for development as a bio-insecticide for control of the beet armyworm (S. exigua). It is highly infectious for S. exigua larvae and its host range is very narrow. A prerequisite for such application is the possibility of growing this virus in large quantities, e.g. in insect cell lines. It was observed, however, that polyhedra of SeMNPV plaque-purified in Se-UCR1 cells did not cause larval mortality or morbidity when fed to S. exigua larvae. As this suggested a genetic alteration in in vitro produced SeMNPV, comparative restriction analysis of in vitro and in vivo produced SeMNPV DNA was performed. The restriction patterns of viral DNA from several different plaques always differed from that of the wild-type in the same way, suggesting that a large, single deletion had occurred in the in vitro produced viral genome. In order to localize this deletion more precisely a detailed physical map of the wild-type SeMNPV genome was constructed, using the restriction endonucleases XbaI, BamHI, Bg/II, PstI, SstI, HindIII and SpeI. In addition, the entire SeMNPV genome was cloned into a library containing five overlapping cosmids and a plasmid library. About 80 restriction sites were located and the orientation of the map was set according to the location of the polyhedrin and p10 genes. The approximate size of the viral genome was 134 kbp. Based on this map it could be established that mutant SeMNPV, obtained by passage in cell culture, contained a single deletion of approximately 25 kbp between map units 12.9 and 32.3.

Published

1996

10. Sequence and transcriptional analysis of the ubiquitin gene cluster in the genome of Spodoptera exigua nucleopolyhedrovirus.

Author

van Strien EA, Jansen BJ, Mans RM, Zuidema D, and Vlak JM

Subjects

Amino Acid Sequence, Animals, Base Sequence, Molecular Sequence Data, Multigene Family, Open Reading Frames, Sequence Analysis, DNA, Sequence Homology, Amino Acid, Spodoptera virology, Transcription, Genetic, Ubiquitins genetics, DNA, Viral, Genome, Viral, Nucleopolyhedroviruses genetics

Abstract

The nucleotide sequence of a 1200 bp DNA fragment of Spodoptera exigua nucleopolyhedrovirus (SeMNPV) was determined. This sequence contained a cluster of two open reding frames (ORFs), one coding for a viral ubiquitin (v-ubi) and another with homology to orf2 of Autographa californica (Ac) MNPV and Orgyia pseudotsugata (Op) MNPV. The vubi ORF is 240 nucleotides (nt) long, potentially encoding a protein of 80 amino acids with a predicted molecular mass of 9.4 kDa. The amino acid sequence of the v-ubi gene in SeMNPV has 75% and 81.6% identity with the v-ubi gene of AcMNPV and OpMNPV and approximately 84% with cellular ubiquitins. Northern blot analysis revealed three major small transcripts late in infection, of about 690, 550 and 400 nt long. Primer extension analysis showed that transcription started from within two consensus late promoter elements (TAAG), located at positions -6 and -30. The start site at position -4/-5 precedes the shortest leader reported to date for a baculovirus gene. The other ORF, xb187, was identified in the opposite orientation immediately upstream of the v-ubi gene. This ORF potentially encodes a 22 kDa protein with unknown function and about 60% amino acid similarity to the products of the orf2 genes of AcMNPV and OpMNPV. The SeMNPV xb187 ORF is transcribed late in infection via two transcripts, 1.2 kb and 770 nt long. The v-ubi-xb187 gene cluster is located at map unit (m.u.) 89 on the genome of SeMNPV. This is different from the position of an identical cluster in the AcMNPV and OpMNPV genomes, located at relative m.u. 20.

Published

1996

11. Nucleotide sequence and transcriptional analysis of the p10 gene of Spodoptera exigua nuclear polyhedrosis virus.

Author

Zuidema D, van Oers MM, van Strien EA, Caballero PC, Klok EJ, Goldbach RW, and Vlak JM

Subjects

Amino Acid Sequence, Animals, Base Sequence, Cell Line, Cloning, Molecular, Molecular Sequence Data, Moths, Protein Structure, Secondary, Restriction Mapping, Sequence Analysis, DNA, Sequence Homology, Amino Acid, Baculoviridae genetics, Genes, Viral genetics, Microtubule-Associated Proteins genetics, RNA, Messenger genetics, Viral Proteins genetics

Abstract

The p10 gene of Spodoptera exigua multiple nuclear polyhedrosis virus (SeMNPV) was localized on the XbaI fragment H (5.1 kb) of the physical map of the viral genome. The coding sequence of the SeMNPV p10 gene is 264 nucleotides (nt) long corresponding to a predicted protein of 88 amino acids with an MHF of 9607. The SeMNPV p10 protein showed only limited amino acid identity (39% and 26%, respectively) to those of Orgyia pseudotsugata MNPV (OpMNPV) and Autographa californica MNPV (AcMNPV) and thus appears less conserved than other viral proteins. The SeMNPV p10 gene was expressed by a transcript of approximately 450 nt, which started in the conserved baculovirus late gene promoter motif TAAG. The leader of the SeMNPV p10 transcript was AT-rich (92%) and at 36 nt was the shortest leader of all baculovirus major late genes reported so far. The SeMPNV p10 transcript terminated 6 nt downstream from a putative poly(A) signal sequence (AATAAA); the latter was 61 nt downstream of the translational stop codon TAA. Upstream and downstream of the p10 gene, partial putative ORFs were found that showed significant amino acid sequence identity to the baculovirus p26 and p74 proteins. It is concluded that the region of SeMNPV DNA containing the p10 gene is collinear with the corresponding regions in the AcMNPV and OpMNPV genomes.

Published

1993

12. Nucleotide sequence and transcriptional analysis of the polyhedrin gene of Spodoptera exigua nuclear polyhedrosis virus.

Author

van Strien EA, Zuidema D, Goldbach RW, and Vlak JM

Subjects

Amino Acid Sequence, Animals, Base Sequence, Cloning, Molecular, Molecular Sequence Data, Moths microbiology, Occlusion Body Matrix Proteins, Open Reading Frames, Restriction Mapping, Sequence Homology, Amino Acid, Viral Structural Proteins, Baculoviridae genetics, Genes, Viral genetics, RNA, Messenger genetics, Transcription, Genetic, Viral Proteins genetics

Abstract

The nucleotide sequence of a 1.1 kbp fragment of the multiple nucleocapsid nuclear polyhedrosis virus (MNPV) of Spodoptera exigua (Se) containing the polyhedrin gene was determined. An open reading frame (ORF) of 738 nucleotides (nt) was detected. This ORF encoded a protein of 246 amino acids with a predicted M(r) of 29K. The nucleotide and amino acid sequences were compared with the sequences of eight other NPV polyhedrins. The SeMNPV polyhedrin protein was most closely related to S. frugiperda MNPV polyhedrin with differences in only five amino acids, and most distantly related to the Lymantria dispar MNPV polyhedrin. The size of the mRNA was approximately 1,000 nt, as determined by Northern blot analysis. Using primer extension assays and S1 nuclease mapping the transcriptional start and stop sites of the polyhedrin mRNA were located. The 5' regulatory sequence appeared to be 44 nt in length with the mRNA start site predominantly at the first A of the TAAG consensus start sequence. Two degenerate poly(A) signals were found immediately downstream of the translational stop signal. The transcriptional stop was located approximately 230 nt downstream from the translational stop signal, in an AT-rich sequence that appears to be common to all baculovirus polyhedrin genes. The SeMNPV polyhedrin mRNA does not appear to be polyadenylated.

Published

1992