Your search keyword '"Respirovirus genetics"' showing total 9 results

1. Biochemical and biophysical analysis of heptad repeat regions from the fusion protein of Menangle virus, a newly emergent paramyxovirus.

Author

Zhu JQ, Zhang CW, Rao Z, Tien P, and Gao GF

Subjects

Amino Acid Sequence, Australia, Base Sequence, Binding Sites, Circular Dichroism, DNA Primers, Genes, Synthetic, Models, Molecular, Molecular Sequence Data, Peptide Fragments chemistry, Protein Structure, Secondary, Recombinant Fusion Proteins chemistry, Recombinant Fusion Proteins metabolism, Respirovirus classification, Respirovirus isolation & purification, Viral Proteins genetics, Viral Proteins metabolism, Repetitive Sequences, Amino Acid, Respirovirus genetics, Viral Proteins chemistry

Abstract

Menangle virus is a novel paramyxovirus isolated in Australia in 1997, but its classification position has not yet been finally settled. Here by using a computational program, LearnCoil-VMF, we determined the heptad repeat (HR) regions (HR1 and HR2) of Menangle virus F protein. Subsequently the HR1 and HR2 peptides were expressed as a single chain (named 2-Helix) connected by a six amino-acid linker as a GST fusion protein with an E. coli in vitro expression system. The GST-removed purified 2-Helix protein could form a stable trimer in vitro judging by gel-filtration and chemical cross-linking. CD spectra showed that the 2-Helix protein had a high percentage of alpha-helix and was very thermo-stable. Crystals of the 2-Helix protein preparations have been obtained in many conditions with hanging-drop diffusion method. These results indicated that Menangle virus has the common features of the fusion protein for other paramyxoviruses and should adopt a similar fusion mechanism to other members. As the HR regions of Menangle virus F protein could form stable six-helix bundle coiled coil structure, they should be used as drug target for the design of fusion inhibitors, as successfully used for other parmyxoviruses. This is especially relevant to such a newly emergent virus with zoonotic potentials.

Published

2003

2. Phylogenetic analysis of the L and HN gene of ophidian paramyxoviruses. Brief report.

Author

Kindermann J, Kübber-Heiss A, Kerschbaumer P, and Nowotny N

Subjects

Amino Acid Sequence, Animals, Evolution, Molecular, HN Protein isolation & purification, Mammals virology, Molecular Sequence Data, Parainfluenza Virus 1, Human genetics, Parainfluenza Virus 2, Human genetics, Paramyxoviridae classification, Paramyxoviridae isolation & purification, Paramyxoviridae Infections virology, Phylogeny, Polymerase Chain Reaction, RNA, Viral genetics, Respirovirus genetics, Rubulavirus classification, Rubulavirus genetics, Rubulavirus isolation & purification, Sequence Alignment, Sequence Homology, Amino Acid, Species Specificity, Viral Proteins isolation & purification, Crotalus virology, Genes, Viral, HN Protein genetics, Paramyxoviridae genetics, Paramyxoviridae Infections veterinary, Viperidae virology, Viral Proteins genetics, Viral Structural Proteins genetics

Abstract

Two reptilian paramyxoviruses, isolated from a neotropical rattlesnake (neotropical virus, NTV, ATCC VR-1408) and a bush viper (bush viper virus, BVV, ATCC VR- 1409), respectively, were analysed to determine their taxonomic position among other reptilian paramyxoviruses investigated previously by Ahne et al.. A 679 bp long region of the hemagglutinin-neuraminidase (HN) gene and a 627 bp long region of the large (L) gene were reverse transcribed, amplified by polymerase chain reaction (PCR), and sequenced. The deduced amino acid sequences were compared to mammalian paramyxoviruses belonging to the genera Respirovirus and Rubulavirus. The deduced amino acid sequences revealed 58.9 to 62% homology for the partial L protein and 41% to 47.1% homology for the partial HN protein. For phylogenetic analyses, a 518 bp L gene and a 352 bp HN gene fragment were used, both generating similar trees consisting of two distinct main groups, and some intermediate isolates. BVV clustered within group "b" while NTV clustered together with the intermediate ophidian paramyxovirus isolate Crot2-OH90.

Published

2001

3. Attenuation of a field Sendai virus isolate through egg-passages is associated with an impediment of viral genome replication in mouse respiratory cells.

Author

Kiyotani K, Sakaguchi T, Fujii Y, and Yoshida T

Subjects

Animals, Cell Line, Chick Embryo, Genome, Viral, Kidney, Lethal Dose 50, Lung pathology, Macaca mulatta, Male, Mice, Mice, Inbred ICR, Phenotype, RNA, Viral biosynthesis, Respirovirus genetics, Respirovirus growth & development, Species Specificity, Viral Proteins biosynthesis, Viral Proteins genetics, Virulence, Virus Cultivation, Weight Loss, Lung virology, Respirovirus pathogenicity, Respirovirus Infections virology, Virus Replication

Abstract

We investigated the mechanisms responsible for attenuation of mouse pathogenicity of Sendai virus (SeV) through passages in eggs. A highly virulent clone, E0, derived from the field SeV Hamamatsu strain, was successively passaged in hen's eggs. Analysis of the mouse lethal dose 50% (MLD50) of virus clones obtained from the viruses at egg-passages 1, 15, 30 and 50 demonstrated that attenuation of E0 by egg-passage occurred due to the gradual appearance of and replacement by virus variants possessing higher MLD50. Comparison of viral replication in the mouse lung and mouse pathogenicity with the representative SeV clones, E0, E15c12, E30c12 and E50c19, obtained from the respective egg-passages revealed that the low pathogenicity of the egg-passaged clones was due to poor multi-cycle viral replication in the lung. Furthermore, MLD50s of the SeV clones were found to be negatively correlated with the replication capability in primary mouse pulmonary epithelial (MPE) cells; the egg-passaged clones with more attenuated phenotypes showed lower replication capability in MPE cells. In the MPE cells infected with the SeV clones at m.o.i. 10, however, viral protein and mRNA syntheses of the egg-passaged clones were enhanced or comparable to those of the parental E0 clone at 1 day and 2 days post infection (p.i.) but decreased more rapidly thereafter. In contrast, viral genome synthesis of the egg-passaged clones in the cells at 2 days p.i. was several times lower than that of E0. These results strongly suggest that attenuation of a virulent field SeV strain by egg-passage occurs due to the appearance and selection of virus variants possessing poor propagation capacity in mouse respiratory epithelial cells, which is caused primarily by an impediment of viral genome replication.

Published

2001

4. Characterization of a Paramyxovirus from a Fer de Lance viper (Bothrops jararaca): partial nucleotide sequence of the putative fusion protein.

Author

Junqueira de Azevedo IL, Prieto da Silva AR, Carmona E, and Ho PL

Subjects

Amino Acid Sequence, Animals, Cloning, Molecular, Molecular Sequence Data, Phylogeny, Respirovirus chemistry, Respirovirus classification, Sequence Alignment, Bothrops virology, Genome, Viral, Respirovirus genetics, Viral Fusion Proteins genetics

Abstract

During the generation of Expressed Sequence Tags (ESTs) from the Fer de Lance viper (Bothrops jararaca) venom glands, a partial cDNA (clone H8) coding for a protein with all the features of a paramyxovirus fusion protein was characterized. It has 920 bp and codes for a partial protein of 279 amino acids. Two potential N-glycosylation sites are present in the sequence which also possesses a typical membrane anchoring domain made of a stretch of hydrophobic amino acids. The polyadenylation signal sequence was identified. When compared to other fusion proteins, it showed the highest sequence similarity (37-39%) with those of human parainfluenza 3 and Sendai virus.

Published

2001

5. Determinants of pantropism of the F1-R mutant of Sendai virus: specific mutations involved are in the F and M genes.

Author

Okada H, Seto JT, McQueen NL, Klenk HD, Rott R, and Tashiro M

Subjects

Amino Acid Sequence, Animals, Cattle, Cell Line, Cell Polarity, Dogs, Genotype, Mice, Microtubules physiology, Molecular Sequence Data, Phenotype, Respirovirus physiology, Respirovirus Infections etiology, Respirovirus Infections virology, Transfection, Viral Fusion Proteins genetics, Viral Matrix Proteins genetics, Virulence genetics, Virus Replication genetics, Genes, Viral, Mutation, Respirovirus genetics, Respirovirus pathogenicity

Abstract

Mutations in the fusion, F, protein of Sendai virus resulting in increased cleavability by ubiquitous host protease(s), and mutations in the matrix, M, protein resulting in bipolar budding, are both important determinants for the systemic infection in mice caused by the protease activating pantropic mutant, F1-R. Several mutants of Sendai virus (BY, BF, and KD-M) with phenotypes of bipolar budding and/or increased cleavability of F protein were isolated. Genomic RNA sequence analysis of the F and M genes of the mutants revealed that several deduced amino acids in the F and M proteins were different from those of F1-R, T-5 (a revertant of F1-R), and wild-type viruses. The BF and KD-M mutants that budded bipolarly and were also activated by ubiquitous proteases were examined for replication in tissue culture cells and in mice. All of the mutants exhibited multiple-step replication in MDCK, MDBK, and LLC-MK2 cells without trypsin, but formed plaques only in MDCK cells. One of the mutants, designated KD-52M, was similar to F1-R in that it formed plaques in all three cell lines without addition of exogenous protease. However, none of the mutants viruses, including KD-52M, caused a systemic infection in mice. The mutated M protein of F1-R enhances the disruption of microtubles. However, none of the mutants with a bipolar budding phenotype (BY, BF, and KD-M), disrupted the microtubules to the same extent as F1-R. All of these mutants had mutations in the M protein that were different from those found in F1-R. Taken together, these results suggest that mutations at Ser115 to Pro in the F protein and at Asp 128 to Gly and Ile210 to Thr in the M protein of F1-R are the mutations specifically required for the systemic infection caused by F1-R.

Published

1998

6. Positive and negative host factors for Sendai virus transcription and their organ distribution in rat.

Author

Takagi T, Iwama M, Seta K, Kanda T, Tsukamoto T, Tominaga S, and Mizumoto K

Subjects

Animals, Chick Embryo, Female, Genome, Viral, HeLa Cells, Humans, Liver virology, Male, RNA, Messenger biosynthesis, RNA, Viral biosynthesis, Rats, Rats, Sprague-Dawley, Respirovirus genetics, Respirovirus Infections physiopathology, Respirovirus isolation & purification, Respirovirus metabolism, Transcription, Genetic

Abstract

In vitro mRNA synthesis by Sendai virus is almost entirely dependent on the addition of cellular proteins (positive host factors), one of which could be tubulin. In this study, we investigated the distribution of host factors in various rat organs. Extracts from the brain, thymus, heart, lung, testis, ovary, and uterus all supported in vitro Sendai virus transcription, among which the highest activity was obtained with the brain extract. On the other hand, little or no activity was detected in the liver, spleen, and kidney extracts. An inverse correlation between the apparent host factor activity to stimulate mRNA synthesis and RNase activity that hydrolyzes Sendai virus mRNAs was found, except in the liver extract. However, when a transcription initiation complex was isolated and subjected to RNA chain elongation reaction, all of the extracts including those from liver, spleen and kidney, were active. Immunoblotting showed that tubulin molecules were integrated in these initiation complexes, supporting the notion that tubulin is involved in the initiation complex formation. We also identified a transcription inhibitory activity without any detectable RNase activity in the liver extract. This negative host factor seemed to act on RNA chain elongation. It is likely that Sendai virus transcription is regulated by both positive and negative regulatory factors.

Published

1996

7. Differential sensitivity of two related viruses, Newcastle disease virus and Sendai virus, to interferon in mouse Had-2 cells: selective inhibition of translation of NDV mRNA.

Author

Aoki K and Kawakita M

Subjects

Animals, Chick Embryo, Guinea Pigs, Interferon-beta pharmacology, Newcastle disease virus genetics, RNA, Messenger metabolism, Rabbits, Respirovirus genetics, Time Factors, Viral Proteins genetics, Interferon-beta metabolism, Newcastle disease virus metabolism, Respirovirus metabolism, Viral Proteins biosynthesis

Abstract

Had-2, a mouse mutant cell line derived from FM3A, constitutively releases interferon-alpha and beta and acquires resistance to Newcastle disease virus (NDV) and other viruses. However, Had-2 was found as susceptible to Sendai virus (HVJ) as FM3A. Even when Had-2 cells were infected simultaneously with NDV and HVJ, only the replication of NDV was inhibited, while that of HVJ was not. Northern blot hybridization analysis indicated that accumulation of NDV-specific primary transcripts was somewhat reduced in Had-2, but the reduction was insufficient to critically suppress the viral replication. Moreover, this decrease was not observed in the presence of cycloheximide, and a closely comparable amount of the primary transcripts was detected in both Had-2 and FM3A cells. The mRNA accumulated in the presence of cycloheximide was translated efficiently on removal of the inhibitor in FM3A cells, but not at all in Had-2 cells. Thus the translation of NDV mRNA was the major target of interferon in Had-2 cells. The fact that the synthesis of HVJ proteins was unaffected in Had-2 cells may imply that a host-cell component that distinguishes between NDV and HVJ mRNAs is involved in their translation.

Published

1996

8. Multiple amino acid substitutions in the HN protein of the paramyxovirus, SV5, are selected for in monoclonal antibody resistant mutants.

Author

Baty DU and Randall RE

Subjects

Amino Acids chemistry, Amino Acids genetics, Animals, Antibodies, Monoclonal immunology, Cloning, Molecular, DNA Mutational Analysis, HN Protein genetics, HN Protein immunology, Humans, Neutralization Tests, Respirovirus genetics, Respirovirus immunology, Vero Cells, HN Protein chemistry, Mutation, Respirovirus chemistry

Abstract

Monoclonal antibody resistant (MAR) mutants (which escaped antibody-mediated neutralization) were selected from simian (W 3) and human (LN) isolates of simian virus 5 (SV 5), using monoclonal antibodies (MAbs) specific for antigenic sites 4 and 5 on the HN glycoprotein. Resistance correlated with an inability of the selecting antibody to bind with the respective MAR mutants. Sequence comparisons between parental and mutant HN proteins revealed multiple non-adjacent amino acid substitutions in the majority of MAR mutants. The same multiple substitutions were identified in mutants selected from both the LN and W 3 isolates of SV 5. Furthermore, different mutations on the primary sequence of the HN protein conferred resistance to the same MAb.

Published

1993

9. Properties of temperature-sensitive mutants of parainfluenza virus type 3 selected during the course of persistent infection.

Author

Asamura S and Hodes DS

Subjects

Animals, Cell Line, Chlorocebus aethiops, Genes, Viral, Mutation, Parainfluenza Virus 3, Human metabolism, Parainfluenza Virus 3, Human physiology, RNA, Viral biosynthesis, Temperature, Viral Interference, Virus Replication, Parainfluenza Virus 3, Human genetics, Respirovirus genetics

Abstract

We investigated properties of the ts mutants that were selected during the course of persistent infection of Vero cells by parainfluenza virus type 3. The mutants demonstrated leakiness when infecting cells at high MOI and interfered with the growth of wild type virus, apparently by inhibiting a step prior to RNA synthesis.

Published

1985