Your search keyword '"Poaceae virology"' showing total 4 results

1. De novo generation of helper virus-satellite chimera RNAs results in disease attenuation and satellite sequence acquisition in a host-dependent manner.

Author

Pyle JD and Scholthof KBG

Subjects

Brachypodium virology, Capsid Proteins genetics, Capsid Proteins metabolism, Genome, Viral, Panicum virology, Phylogeny, Poaceae virology, Recombination, Genetic, Helper Viruses genetics, Helper Viruses physiology, Host Specificity, Plant Diseases virology, RNA, Satellite genetics, RNA, Satellite metabolism, Satellite Viruses genetics, Satellite Viruses physiology, Tombusviridae genetics, Tombusviridae physiology

Abstract

Panicum mosaic virus (PMV) is a helper RNA virus for satellite RNAs (satRNAs) and a satellite virus (SPMV). Here, we describe modifications that occur at the 3'-end of a satRNA of PMV, satS. Co-infections of PMV+satS result in attenuation of the disease symptoms induced by PMV alone in Brachypodium distachyon and proso millet. The 375 nt satS acquires ~100-200 nts from the 3'-end of PMV during infection and is associated with decreased abundance of the PMV RNA and capsid protein in millet. PMV-satS chimera RNAs were isolated from native infections of St. Augustinegrass and switchgrass. Phylogenetic analyses revealed that the chimeric RNAs clustered according to the host species from which they were isolated. Additionally, the chimera satRNAs acquired non-viral "linker" sequences in a host-specific manner. These results highlight the dynamic regulation of viral pathogenicity by satellites, and the selective host-dependent, sequence-based pressures for driving satRNA generation and genome compositions., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2018

2. Efficient and stable expression of GFP through Wheat streak mosaic virus-based vectors in cereal hosts using a range of cleavage sites: formation of dense fluorescent aggregates for sensitive virus tracking.

Author

Tatineni S, McMechan AJ, Hein GL, and French R

Subjects

Genetic Variation, Genetic Vectors, Green Fluorescent Proteins genetics, Poaceae genetics, Potyviridae genetics, Triticum, Gene Expression Regulation, Viral physiology, Gene Transfer Techniques, Green Fluorescent Proteins metabolism, Poaceae metabolism, Poaceae virology, Potyviridae metabolism

Abstract

A series of Wheat streak mosaic virus (WSMV)-based expression vectors were developed by engineering a cycle 3 GFP (GFP) cistron between P1 and HC-Pro cistrons with several catalytic/cleavage peptides at the C-terminus of GFP. WSMV-GFP vectors with the Foot-and-mouth disease virus 1D/2A or 2A catalytic peptides cleaved GFP from HC-Pro but expressed GFP inefficiently. WSMV-GFP vectors with homologous NIa-Pro heptapeptide cleavage sites did not release GFP from HC-Pro, but efficiently expressed GFP as dense fluorescent aggregates. However, insertion of one or two spacer amino acids on either side of NIb/CP heptapeptide cleavage site or deletion in HC-Pro cistron improved processing by NIa-Pro. WSMV-GFP vectors were remarkably stable in wheat for seven serial passages and for 120 days postinoculation. Mite transmission efficiencies of WSMV-GFP vectors correlated with the amount of free GFP produced. WSMV-GFP vectors infected the same range of cereal hosts as wild-type virus, and GFP fluorescence was detected in most wheat tissues., (Published by Elsevier Inc.)

Published

2011

3. Functional replacement of Wheat streak mosaic virus HC-Pro with the corresponding cistron from a diverse array of viruses in the family Potyviridae.

Author

Stenger DC and French R

Subjects

Amino Acid Sequence, Cysteine Endopeptidases metabolism, Molecular Sequence Data, Mutagenesis, Insertional, Phylogeny, Plant Diseases virology, Poaceae virology, Potyviridae metabolism, Potyviridae pathogenicity, Potyvirus genetics, Potyvirus metabolism, Species Specificity, Viral Proteins metabolism, Virulence, Cysteine Endopeptidases genetics, Genes genetics, Potyviridae genetics, Potyvirus pathogenicity, Recombination, Genetic, Triticum virology, Viral Proteins genetics

Abstract

Helper component-proteinase (HC-Pro) of Wheat streak mosaic virus strain Sidney 81 (WSMV-Sidney 81) was systematically replaced with the corresponding cistron derived from four strains of WSMV (Type, TK1, CZ, and El Batán 3), the tritimovirus Oat necrotic mottle virus (ONMV), the rymoviruses Agropyron mosaic virus (AgMV) and Hordeum mosaic virus (HoMV), or the potyviruses Tobacco etch virus (TEV) and Turnip mosaic virus (TuMV). These HC-Pro proteins varied in amino acid sequence identity shared with HC-Pro of WSMV-Sidney 81 from high (strains of WSMV at approximately 86-99%) to moderate (ONMV at 70%) to low (rymoviruses and potyviruses at approximately 15-17%). Surprisingly, all chimeric viral genomes examined were capable of systemic infection of wheat upon inoculation with RNA transcripts produced in vitro. HC-Pro replacements derived from tritimoviruses did not alter host range relative to WSMV-Sidney 81, as each of these chimeric viruses was able to systemically infect wheat, oat, and corn line SDp2. These results indicate that differences in host range among tritimoviruses, including the inability of ONMV to infect wheat or the inability of WSMV strains Type and El Batán 3 to infect SDp2 corn, are not determined by HC-Pro. In contrast, all chimeric viruses bearing HC-Pro replacements derived from rymoviruses or potyviruses were unable to infect SDp2 corn and oat. Collectively, these results indicate that HC-Pro from distantly related virus species of the family Potyviridae are competent to provide WSMV-Sidney 81 with all functions necessary for infection of a permissive host (wheat) and that virus-host interactions required for systemic infection of oat and SDp2 corn are more stringent. Changes in symptom severity or mechanical transmission efficiency observed for some chimeric viruses further suggest that HC-Pro affects virulence in WSMV.

Published

2004

4. Similarity and divergence among viruses in the genus Furovirus.

Author

Shirako Y, Suzuki N, and French RC

Subjects

Base Sequence, Capsid chemistry, Capsid genetics, China, Cloning, Molecular, Edible Grain virology, Europe, Japan, Molecular Sequence Data, Plant Diseases virology, Plant Viruses classification, Plant Viruses enzymology, Poaceae virology, RNA Viruses classification, RNA Viruses enzymology, RNA, Viral genetics, Reassortant Viruses genetics, Sequence Alignment, Sequence Homology, Amino Acid, United States, Viral Proteins chemistry, Viral Proteins genetics, Conserved Sequence genetics, Genetic Variation genetics, Genome, Viral, Phylogeny, Plant Viruses genetics, RNA Viruses genetics

Abstract

Nucleotide sequences of RNAs 1 and 2 of a Japanese strain of soil-borne wheat mosaic virus (SBWMV), the type species of the genus Furovirus, and sorghum chlorotic spot virus (SCSV) were determined from cloned cDNA. The relationship among the Japanese and US strains of SBWMV, SCSV, oat golden stripe virus (OGSV), and recently proposed Chinese wheat mosaic and European wheat mosaic viruses (CWMV and EWMV) were examined at the nucleotide and amino acid levels. Pairwise comparisons of genome-encoded proteins among the six viruses showed that the US strains of SBWMV and CWMV were the most closely related pair in RNA 1 and the Japanese strains of SBWMV and EWMV were most closely related in RNA 2. SCSV was most distantly related to the other five viruses. Phylogenetic analysis indicated that there may have been an ancient reassortment between RNAs 1 and 2 of the four wheat-infecting viruses and OGSV, while SCSV was shown to have separated from the rest before the other five viruses diverged. The fact that CWMV and EWMV have almost identical biological properties as well as the sequence similarities to the two strains of SBWMV suggests that they be regarded as strains of SBWMV, considering that SBWMV consists of genetically diverged strains. OGSV and SCSV are distinct in biological properties in addition to genetic divergence in the genus Furovirus., (Copyright 2000 Academic Press.)

Published

2000