Your search keyword '"multiple-nucleopolyhedrovirus"' showing total 2 results

1. Two viruses that cause salivary gland hypertrophy in Glossina pallidipes and Musca domestica are closely related and form a distinct phylogenetic clade

Author

Drion G. Boucias, Tamer Z. Salem, Monique M. van Oers, Andrew G. Parker, Woojin Kim, James E. Maruniak, John P. Burand, Verena-Ulrike Lietze, Alan S. Robinson, François Cousserans, Max Bergoin, Just M. Vlak, Adly M. M. Abd-Alla, Alejandra Garcia-Maruniak, Department of Entomology and Nematology, University of California [Davis] (UC Davis), University of California-University of California, International Atomic Energy Agency [Vienna] (IAEA), Agricultural Research Center, Wageningen University and Research Centre (WUR), University of Massachusetts System (UMASS), Biologie Intégrative et Virologie des Insectes [Univ. de Montpellier II] (BIVI), and Université Montpellier 2 - Sciences et Techniques (UM2)-Institut National de la Recherche Agronomique (INRA)

Subjects

Genes, Viral, Tsetse Flies, HYPERTROHPIE DES GLANDES SALIVAIRES, viruses, genome sequence, spot syndrome virus, Laboratory of Virology, Cytomegalovirus, Genome, Viral, Biology, Genome, Salivary Glands, Homology (biology), MUSCA DOMESTICA, Conserved sequence, Laboratorium voor Virologie, Open Reading Frames, CLADE, Phylogenetics, Houseflies, Virology, morsitans-centralis diptera, Animals, GLOSSINA PALLIDIPES, ORFS, Gene, Conserved Sequence, Genetics, nucleocapsid nucleopolyhedrovirus, Virion, Chromosome Mapping, DNA virus, Hypertrophy, occlusion-derived virus, PE&RC, gene-expression, per-os infectivity, Open reading frame, ultrastructural-changes, DNA, Viral, [SDV.MP.VIR]Life Sciences [q-bio]/Microbiology and Parasitology/Virology, multiple-nucleopolyhedrovirus, dna virus

Abstract

Glossina pallidipes and Musca domestica salivary gland hypertrophy viruses (GpSGHV and MdSGHV) replicate in the nucleus of salivary gland cells causing distinct tissue hypertrophy and reduction of host fertility. They share general characteristics with the non-occluded insect nudiviruses, such as being insect-pathogenic, having enveloped, rod-shaped virions, and large circular double-stranded DNA genomes. MdSGHV measures 65×550 nm and contains a 124 279 bp genome (∼44 mol% G+C content) that codes for 108 putative open reading frames (ORFs). GpSGHV, measuring 50×1000 nm, contains a 190 032 bp genome (28 mol% G+C content) with 160 putative ORFs. Comparative genomic analysis demonstrates that 37 MdSGHV ORFs have homology to 42 GpSGHV ORFs, as some MdSGHV ORFs have homology to two different GpSGHV ORFs. Nine genes with known functions (dnapol, ts, pif-1, pif-2, pif-3, mmp, p74, odv-e66 and helicase-2), a homologue of the conserved baculovirus gene Ac81 and at least 13 virion proteins are present in both SGHVs. The amino acid identity ranged from 19 to 39 % among ORFs. An (A/T/G)TAAG motif, similar to the baculovirus late promoter motif, was enriched 100 bp upstream of the ORF transcription initiation sites of both viruses. Six and seven putative microRNA sequences were found in MdSGHV and GpSGHV genomes, respectively. There was genome. Collinearity between the two SGHVs, but not between the SGHVs and the nudiviruses. Phylogenetic analysis of conserved genes clustered both SGHVs in a single clade separated from the nudiviruses and baculoviruses. Although MdSGHV and GpSGHV are different viruses, their pathology, host range and genome composition indicate that they are related.

Published

2009

2. Two viruses that cause salivary gland hypertrophy in Glossina pallidipes and Musca domestica are closely related and form a distinct phylogenetic clade

Author

Garcia-Maruniak, A., Abd-Alla, A.M.M., Salem, T.Z., Parker, A.G., Lietze, V.U., van Oers, M.M., Maruniak, J.E., Kim, W., Burand, J.P., Cousserans, F., Robinson, A.S., Vlak, J.M., Bergoin, M., Boucias, D.G., Garcia-Maruniak, A., Abd-Alla, A.M.M., Salem, T.Z., Parker, A.G., Lietze, V.U., van Oers, M.M., Maruniak, J.E., Kim, W., Burand, J.P., Cousserans, F., Robinson, A.S., Vlak, J.M., Bergoin, M., and Boucias, D.G.

Abstract

Glossina pallidipes and Musca domestica salivary gland hypertrophy viruses (GpSGHV and MdSGHV) replicate in the nucleus of salivary gland cells causing distinct tissue hypertrophy and reduction of host fertility. They share general characteristics with the non-occluded insect nudiviruses, such as being insect-pathogenic, having enveloped, rod-shaped virions, and large circular double-stranded DNA genomes. MdSGHV measures 65x550 nm and contains a 124 279 bp genome (44 mol% G+C content) that codes for 108 putative open reading frames (ORFs). GpSGHV, measuring 50x1000 nm, contains a 190 032 bp genome (28 mol% G+C content) with 160 putative ORFs. Comparative genomic analysis demonstrates that 37 MdSGHV ORFs have homology to 42 GpSGHV ORFs, as some MdSGHV ORFs have homology to two different GpSGHV ORFs. Nine genes with known functions (dnapol, ts, pif-1, pif-2, pif-3, mmp, p74, odv-e66 and helicase-2), a homologue of the conserved baculovirus gene Ac81 and at least 13 virion proteins are present in both SGHVs. The amino acid identity ranged from 19 to 39 % among ORFs. An (A/T/G)TAAG motif, similar to the baculovirus late promoter motif, was enriched 100 bp upstream of the ORF transcription initiation sites of both viruses. Six and seven putative microRNA sequences were found in MdSGHV and GpSGHV genomes, respectively. There was genome. Collinearity between the two SGHVs, but not between the SGHVs and the nudiviruses. Phylogenetic analysis of conserved genes clustered both SGHVs in a single clade separated from the nudiviruses and baculoviruses. Although MdSGHV and GpSGHV are different viruses, their pathology, host range and genome composition indicate that they are related

Published

2009