Your search keyword '"*CYSTOVIRIDAE"' showing total 4 results

1. Electrophoretic mobility confirms reassortment bias among geographic isolates of segmented RNA phages.

Author

Díaz-Muñoz, Samuel, Tenaillon, Olivier, Goldhill, Daniel, Brao, Kristen, Turner, Paul, and Chao, Lin

Subjects

Bacteriophage phi 6, Biological Evolution, California, Cystoviridae, Electrophoresis, Genome, Viral, Host Specificity

Abstract

BACKGROUND: Sex presents evolutionary costs and benefits, leading to the expectation that the amount of genetic exchange should vary in conditions with contrasting cost-benefit equations. Like eukaryotes, viruses also engage in sex, but the rate of genetic exchange is often assumed to be a relatively invariant property of a particular virus. However, the rates of genetic exchange can vary within one type of virus according to geography, as highlighted by phylogeographic studies of cystoviruses. Here we merge environmental microbiology with experimental evolution to examine sex in a diverse set of cystoviruses, consisting of the bacteriophage ϕ6 and its relatives. To quantify reassortment we manipulated - by experimental evolution - electrophoretic mobility of intact virus particles for use as a phenotypic marker to estimate genetic exchange. RESULTS: We generated descendants of ϕ6 that exhibited fast and slow mobility during gel electrophoresis. We identified mutations associated with slow and fast phenotypes using whole genome sequencing and used crosses to establish the production of hybrids of intermediate mobility. We documented natural variation in electrophoretic mobility among environmental isolates of cystoviruses and used crosses against a common fast mobility ϕ6 strain to monitor the production of hybrids with intermediate mobility, thus estimating the amount of genetic exchange. Cystoviruses from different geographic locations have very different reassortment rates when measured against ϕ6, with viruses isolated from California showing higher reassortment rates than those from the Northeastern US. CONCLUSIONS: The results confirm that cystoviruses from different geographic locations have remarkably different reassortment rates -despite similar genome structure and replication mechanisms- and that these differences are in large part due to sexual reproduction. This suggests that particular viruses may indeed exhibit diverse sexual behavior, but wide geographic sampling, across varying environmental conditions may be necessary to characterize the full repertoire. Variation in reassortment rates can assist in the delineation of viral populations and is likely to provide insight into important viral evolutionary dynamics including the rate of coinfection, virulence, and host range shifts. Electrophoretic mobility may be an indicator of important determinants of fitness and the techniques herein can be applied to the study of other viruses.

Published

2013

2. Three-dimensional structure of the enveloped bacteriophage phi12: an incomplete T = 13 lattice is superposed on an enclosed T = 1 shell.

Author

Wei, Hui, Cheng, R Holland, Berriman, John, Rice, William J, Stokes, David L, Katz, A, Morgan, David Gene, and Gottlieb, Paul

Subjects

Pseudomonas syringae, Bacteriophages, Cystoviridae, Virion, Nucleocapsid, Capsid, Viral Envelope Proteins, RNA, Double-Stranded, RNA, Viral, Cryoelectron Microscopy, Molecular Conformation, Protein Conformation, Genome, Viral, RNA, Double-Stranded, Viral, Genome, General Science & Technology

Abstract

BackgroundBacteriophage phi12 is a member of the Cystoviridae, a unique group of lipid containing membrane enveloped bacteriophages that infect the bacterial plant pathogen Pseudomonas syringae pv. phaseolicola. The genomes of the virus species contain three double-stranded (dsRNA) segments, and the virus capsid itself is organized in multiple protein shells. The segmented dsRNA genome, the multi-layered arrangement of the capsid and the overall viral replication scheme make the Cystoviridae similar to the Reoviridae.Methodology/principal findingsWe present structural studies of cystovirus phi12 obtained using cryo-electron microscopy and image processing techniques. We have collected images of isolated phi12 virions and generated reconstructions of both the entire particles and the polymerase complex (PC). We find that in the nucleocapsid (NC), the phi12 P8 protein is organized on an incomplete T = 13 icosahedral lattice where the symmetry axes of the T = 13 layer and the enclosed T = 1 layer of the PC superpose. This is the same general protein-component organization found in phi6 NC's but the detailed structure of the entire phi12 P8 layer is distinct from that found in the best classified cystovirus species phi6. In the reconstruction of the NC, the P8 layer includes protein density surrounding the hexamers of P4 that sit at the 5-fold vertices of the icosahedral lattice. We believe these novel features correspond to dimers of protein P7.Conclusions/significanceIn conclusion, we have determined that the phi12 NC surface is composed of an incomplete T = 13 P8 layer forming a net-like configuration. The significance of this finding in regard to cystovirus assembly is that vacancies in the lattice could have the potential to accommodate additional viral proteins that are required for RNA packaging and synthesis.

Published

2009

3. Three-Dimensional Structure of the Enveloped Bacteriophage Φ12: An Incomplete T = 13 Lattice Is Superposed on an Enclosed T = 1 Shell

Author

Wei, Hui, Cheng, R Holland, Berriman, John, Rice, William J, Stokes, David L, Katz, A, Morgan, David Gene, and Gottlieb, Paul

Subjects

Plant Biology, Biological Sciences, Infectious Diseases, 2.2 Factors relating to the physical environment, Aetiology, Infection, Bacteriophages, Capsid, Cryoelectron Microscopy, Cystoviridae, Genome, Viral, Molecular Conformation, Nucleocapsid, Protein Conformation, Pseudomonas syringae, RNA, Double-Stranded, RNA, Viral, Viral Envelope Proteins, Virion, General Science & Technology

Abstract

BackgroundBacteriophage phi12 is a member of the Cystoviridae, a unique group of lipid containing membrane enveloped bacteriophages that infect the bacterial plant pathogen Pseudomonas syringae pv. phaseolicola. The genomes of the virus species contain three double-stranded (dsRNA) segments, and the virus capsid itself is organized in multiple protein shells. The segmented dsRNA genome, the multi-layered arrangement of the capsid and the overall viral replication scheme make the Cystoviridae similar to the Reoviridae.Methodology/principal findingsWe present structural studies of cystovirus phi12 obtained using cryo-electron microscopy and image processing techniques. We have collected images of isolated phi12 virions and generated reconstructions of both the entire particles and the polymerase complex (PC). We find that in the nucleocapsid (NC), the phi12 P8 protein is organized on an incomplete T = 13 icosahedral lattice where the symmetry axes of the T = 13 layer and the enclosed T = 1 layer of the PC superpose. This is the same general protein-component organization found in phi6 NC's but the detailed structure of the entire phi12 P8 layer is distinct from that found in the best classified cystovirus species phi6. In the reconstruction of the NC, the P8 layer includes protein density surrounding the hexamers of P4 that sit at the 5-fold vertices of the icosahedral lattice. We believe these novel features correspond to dimers of protein P7.Conclusions/significanceIn conclusion, we have determined that the phi12 NC surface is composed of an incomplete T = 13 P8 layer forming a net-like configuration. The significance of this finding in regard to cystovirus assembly is that vacancies in the lattice could have the potential to accommodate additional viral proteins that are required for RNA packaging and synthesis.

Published

2009

4. Three-dimensional structure of the enveloped bacteriophage phi12: an incomplete T = 13 lattice is superposed on an enclosed T = 1 shell

Author

Hui Wei, William J. Rice, Paul Gottlieb, Alvin Katz, John Berriman, David L. Stokes, David Gene Morgan, R. Holland Cheng, and Geraghty, Robert J

Subjects

Cystoviridae, Icosahedral symmetry, Protein Conformation, General Science & Technology, Molecular Conformation, lcsh:Medicine, Pseudomonas syringae, Genome, Viral, Cystovirus, Bacteriophage, 03 medical and health sciences, Double-Stranded, Protein structure, Capsid, Viral Envelope Proteins, 2.2 Factors relating to the physical environment, Bacteriophages, Viral, Aetiology, Virology/Virion Structure, Assembly, and Egress, lcsh:Science, Nucleocapsid, Polymerase, 030304 developmental biology, RNA, Double-Stranded, 0303 health sciences, Multidisciplinary, Genome, biology, 030302 biochemistry & molecular biology, lcsh:R, Cryoelectron Microscopy, Virion, RNA, biology.organism_classification, Virology, Virology/Virus Evolution and Symbiosis, Crystallography, Infectious Diseases, Viral replication, Biochemistry/Macromolecular Assemblies and Machines, biology.protein, RNA, Viral, lcsh:Q, Molecular Biology/RNA-Protein Interactions, Infection, Research Article

Abstract

Author(s): Wei, Hui; Cheng, R Holland; Berriman, John; Rice, William J; Stokes, David L; Katz, A; Morgan, David Gene; Gottlieb, Paul | Abstract: BackgroundBacteriophage phi12 is a member of the Cystoviridae, a unique group of lipid containing membrane enveloped bacteriophages that infect the bacterial plant pathogen Pseudomonas syringae pv. phaseolicola. The genomes of the virus species contain three double-stranded (dsRNA) segments, and the virus capsid itself is organized in multiple protein shells. The segmented dsRNA genome, the multi-layered arrangement of the capsid and the overall viral replication scheme make the Cystoviridae similar to the Reoviridae.Methodology/principal findingsWe present structural studies of cystovirus phi12 obtained using cryo-electron microscopy and image processing techniques. We have collected images of isolated phi12 virions and generated reconstructions of both the entire particles and the polymerase complex (PC). We find that in the nucleocapsid (NC), the phi12 P8 protein is organized on an incomplete T = 13 icosahedral lattice where the symmetry axes of the T = 13 layer and the enclosed T = 1 layer of the PC superpose. This is the same general protein-component organization found in phi6 NC's but the detailed structure of the entire phi12 P8 layer is distinct from that found in the best classified cystovirus species phi6. In the reconstruction of the NC, the P8 layer includes protein density surrounding the hexamers of P4 that sit at the 5-fold vertices of the icosahedral lattice. We believe these novel features correspond to dimers of protein P7.Conclusions/significanceIn conclusion, we have determined that the phi12 NC surface is composed of an incomplete T = 13 P8 layer forming a net-like configuration. The significance of this finding in regard to cystovirus assembly is that vacancies in the lattice could have the potential to accommodate additional viral proteins that are required for RNA packaging and synthesis.

Published

2009