Your search keyword '"Davies, JW"' showing total 12 results

1. Interaction of the movement and coat proteins of Maize streak virus: implications for the transport of viral DNA.

Author

Liu H, Boulton MI, Oparka KJ, and Davies JW

Subjects

Biological Transport, Cell Nucleus metabolism, Escherichia coli genetics, Plant Viral Movement Proteins, Plants, Toxic, Protein Binding, Recombinant Proteins biosynthesis, Nicotiana virology, Vaccinia virus genetics, Viral Proteins genetics, Capsid metabolism, DNA, Viral metabolism, Geminiviridae metabolism, Viral Proteins metabolism, Zea mays virology

Abstract

We have shown previously that the movement protein (MP) and coat protein (CP) of Maize streak virus (MSV) are both required for systemic infection. Towards understanding the roles of these two proteins in virus movement, each was expressed in E: coli and interactions of the MP with viral DNA or CP were investigated using south-western, gel overlay and immunoprecipitation assays. Unlike the CP, the MP did not bind to viral DNA but it interacted with the CP in vitro and an MP-CP complex was detected in extracts from MSV-infected maize, indicating the potential for an interaction in vivo. Microinjection showed that the MP could prevent the nuclear transport of an MSV CP-DNA complex in maize and tobacco cells. These results are consistent with a model in which the MP diverts a CP-DNA complex from the nucleus (where viral DNA replication takes place) to the cell periphery, and in co-operation with the CP, mediates the cell-to-cell movement of the viral DNA. In this respect, the MSV MP and CP have functional analogy with the BC1 and BV1 proteins, respectively, of the BEGOMOVIRUS: genus of the GEMINIVIRIDAE:

Published

2001

2. Adaptation of the geminivirus bean yellow dwarf virus to dicotyledonous hosts involves both virion-sense and complementary-sense genes.

Author

Liu L, Pinner MS, Davies JW, and Stanley J

Subjects

Adaptation, Physiological, Amino Acid Sequence, Base Sequence, Chimera genetics, Chimera physiology, DNA Primers genetics, DNA Replication, DNA, Viral genetics, Fabaceae virology, Open Reading Frames, Plants, Medicinal, Plants, Toxic, Species Specificity, Nicotiana virology, Virus Replication, Geminiviridae genetics, Geminiviridae physiology, Genes, Viral

Abstract

Bean yellow dwarf virus (BeYDV) and maize streak virus (MSV) belong to the geminivirus genus Mastrevirus and have host ranges confined to dicotyledonous and monocotyledonous species, respectively. To investigate viral determinants of host range specificity, chimeras were constructed by exchanging their coding and non-coding regions. BeYDV chimeras containing MSV ORF V1, ORF V2 or small intergenic region sequences, either individually or in various sequential combinations, replicated and produced virus particles in Nicotiana tabacum protoplasts. BeYDV chimeras containing MSV ORFs C1 and C2 and/or the large intergenic region were unable to replicate. None of the chimeras was able to systemically infect either N. benthamiana or maize. Complementation experiments using BeYDV chimeras containing MSV ORF V1 and/or ORF V2 suggest that expression of MSV movement protein and/or coat protein prevents BeYDV movement. The results demonstrate that factors involved in both viral DNA replication and virus movement are exclusively adapted to either monocotyledonous or dicotyledonous host backgrounds.

Published

1999

3. Mutational analysis of bean yellow dwarf virus, a geminivirus of the genus Mastrevirus that is adapted to dicotyledonous plants.

Author

Liu L, Davies JW, and Stanley J

Subjects

Base Sequence, Conserved Sequence, DNA Primers genetics, DNA, Viral genetics, Datura stramonium virology, Fabaceae virology, Geminiviridae physiology, Open Reading Frames, Phenotype, Plants, Medicinal, Plants, Toxic, Protoplasts virology, Nicotiana virology, Virulence genetics, Virus Replication genetics, Geminiviridae genetics, Geminiviridae pathogenicity, Mutation, Plants virology

Abstract

Bean yellow dwarf virus (BeYDV) is an atypical member of the geminivirus genus Mastrevirus that infects dicotyledonous plants. BeYDV DNA contains six open reading frames (ORFs) with the capacity to encode proteins in excess of 10 kDa. Two virion-sense ORFs (V1 and V2) and two complementary-sense ORFs (C1 and C2) have homologues in all mastreviruses, while ORFs C3 and C4 are not conserved. To investigate their functions, each of the ORFs has been truncated by either frame-shifting or the introduction of a stop codon. We demonstrate that an ORF V1 mutant replicated efficiently in Nicotiana tabacum protoplasts but was unable to systemically infect Phaseolus vulgaris and Datura stramonium, consistent with a role for V1 protein in virus movement. However, the mutant was able to systemically infect Nicotiana benthamiana although the onset of symptoms was appreciably delayed in comparison with wild-type virus. Disruption of ORF V2, encoding the coat protein, prevented systemic infection of all three hosts but the mutant replicated in protoplasts. Both ORF C1 and ORF C2 were essential for replication in protoplasts. Modification of the complementary-sense splice donor and acceptor sequences also prevented replication. Removal of the intron prevented systemic infection, although the intronless mutant was able to produce functional replication-associated protein (Rep) and replicated efficiently in protoplasts. ORFs C3 and C4 were not required for systemic infection. Our results indicate that four ORFs are spatially and functionally conserved in mastreviruses that infect both monocotyledonous and dicotyledonous plants.

Published

1998

4. Molecular characterization of a subgroup I geminivirus from a legume in South Africa.

Author

Liu L, van Tonder T, Pietersen G, Davies JW, and Stanley J

Subjects

Cloning, Molecular, Geminiviridae classification, Genome, Viral, Molecular Sequence Data, Open Reading Frames, Phylogeny, Plants, Toxic, Sequence Alignment, Sequence Homology, Nucleic Acid, South Africa, Nicotiana virology, Fabaceae virology, Geminiviridae genetics, Geminiviridae isolation & purification, Plant Diseases virology, Plants, Medicinal

Abstract

A South African geminivirus for which we propose the name bean yellow dwarf virus (BeYDV) has been isolated from French bean (Phaseolus vulgaris cv. Bonus) showing stunting, chlorosis and leaf curl symptoms. A full-length cloned copy of the viral genome produced characteristic symptoms of the disease when reintroduced into French bean by agroinoculation, and was systemically infectious in Nicotiana benthamiana, N. tabacum, Lycopersicon esculentum, Datura stramonium and Arabidopsis thaliana. BeYDV resembles subgroup I geminiviruses which infect monocotyledonous plants in having a single DNA component, two non-overlapping virion-sense (V1 and V2) and two overlapping complementary-sense (C1 and C2) coding regions, and an intron within the complementary-sense coding regions that is excised to produce a C1C2 fusion protein. It is most closely related to tobacco yellow dwarf virus from Australia, the only subgroup I geminivirus previously known to infect dicotyledonous plants, although it is sufficiently dissimilar (65% nucleotide sequence identity) to be considered a distinct virus.

Published

1997

5. Maize streak virus coat protein binds single- and double-stranded DNA in vitro.

Author

Liu H, Boulton MI, and Davies JW

Subjects

Animals, Binding Sites, Escherichia coli genetics, Rabbits, Capsid metabolism, DNA, Single-Stranded metabolism, DNA, Viral metabolism, Geminiviridae chemistry, Zea mays virology

Abstract

Maize streak virus (MSV) coat protein (CP) is required for virus movement within the plant. Deletion or mutation of MSV CP does not prevent virus replication in single cells or protoplasts but leads to a loss of infectivity in the inoculated plant. The mechanism by which MSV CP mediates the transfer of MSV DNA from cell to cell and through the vascular bundle is still unknown. Towards understanding the role of MSV CP in virus movement, the interaction of the CP with viral DNA was investigated using the 'south-western' assay. Wild-type and truncated MSV CPs were expressed in E. coli and the expressed CPs were used to investigate interactions with single-stranded (ss) and double-stranded (ds) DNA. The results showed that MSV CP bound ss and ds viral and plasmid DNA in a sequence non-specific manner. The binding domain was mapped to within the 104 N-terminal amino acids of the MSV CP. We propose that the binding of CP to MSV DNA is involved in viral DNA nuclear transport as well as encapsidation and thus may have a role in intra- and inter-cellular movement as well as systemic infection.

Published

1997

6. The nucleotide sequence and genome structure of the geminivirus miscanthus streak virus.

Author

Chatani M, Matsumoto Y, Mizuta H, Ikegami M, Boulton MI, and Davies JW

Subjects

Amino Acid Sequence, Base Sequence, Blotting, Southern, Cloning, Molecular, DNA, Viral, Molecular Sequence Data, Mutation, Poaceae microbiology, Sequence Alignment, Genome, Viral, Plant Viruses genetics

Abstract

A tandem dimer of miscanthus streak virus (MiSV) DNA was inserted into the T-DNA of the binary plasmid vector pBIN19 and agroinoculated into several monocotyledonous plants (monocots) using Agrobacterium tumefaciens or A. rhizogenes. Disease symptoms and geminate particles were produced in maize and Panicum milaceum plants, and MiSV-specific double-stranded and single-stranded DNAs were found in these plants. The nucleotide sequence of the infectious MiSV clone, consisting of 2672 nucleotides, was determined. Four open reading frames (ORFs) for proteins of Mr greater than 10K were identified, two (V0 and V2) in the virus (+) sense and two (C1 and C2) in the complementary (-) sense, although C2 did not have an ATG start codon. Unlike other geminiviruses infecting monocots, complementary-sense ORFs did not overlap. Potential splicing donor and acceptor sites were identified in the sequence of the border region between the C terminus of ORF C1 and the N terminus of ORF C2. Amino acid sequences predicted from three (V2, C1 and C2) of these ORFs showed significant homology with the corresponding ORFs of other geminiviruses infecting monocots. A fifth ORF (V1), which showed some homology with ORF V1 of other monocot-infecting geminiviruses despite having a coding capacity for a product of Mr 8.8K, was found just upstream of ORF V2 as observed in those geminiviruses. ORF V0 showed no significant homology with ORFs present in any other geminiviruses. A mutation of V0 indicated that the C-terminal 30% of this ORF was not necessary for infection in maize, but that sequences around the mutated LspI site might have some regulatory role.

Published

1991

7. A model for the generation of tobacco rattle virus (TRV) anomalous isolates: pea early browning virus RNA-2 acquires TRV sequences from both RNA-1 and RNA-2.

Author

Goulden MG, Lomonossoff GP, Wood KR, and Davies JW

Subjects

Base Sequence, Molecular Sequence Data, Sequence Homology, Nucleic Acid, Plant Viruses genetics, RNA, Viral chemistry

Abstract

Comparison of the 5'-terminal sequences of several tobraviruses suggests that the RNA-2 molecule of the tobacco rattle virus (TRV) anomalous isolate TCM arose from pea early browning virus (PEBV) RNA-2 by acquisition of 3' and 5' sequences from TRV RNA-1 and RNA-2 molecules, respectively. We have identified a region of homology in the RNA-2 molecules of PEBV, TRV and pepper ringspot virus which could have facilitated this recombination.

Published

1991

8. Rice tungro bacilliform virus DNA independently infects rice after Agrobacterium-mediated transfer.

Author

Dasgupta I, Hull R, Eastop S, Poggi-Pollini C, Blakebrough M, Boulton MI, and Davies JW

Subjects

Microscopy, Electron, Plant Viruses pathogenicity, Plant Viruses ultrastructure, Plasmids, Restriction Mapping, DNA, Viral genetics, Oryza microbiology, Plant Diseases, Plant Viruses genetics, Rhizobium genetics, Transfection

Abstract

In nature, rice tungro disease is caused by an RNA and a DNA virus complex, but we have obtained an independently infectious clone of rice tungro bacilliform virus (RTBV) DNA. Infectivity could be demonstrated only when a more than unit-length copy was cloned in the Agrobacterium binary vector Bin 19 and agroinoculated into rice plants. Rice plants thus agroinfected with cloned RTBV DNA showed typical symptoms of tungro disease, presence of viral DNA and bacilliform particles, and could be used as a source of virus to infect healthy plants by the green leafhopper (Nephotettix virescens). The importance of this infectious clone in understanding the molecular biology of RTBV and the rice tungro disease is discussed.

Published

1991

9. Rice tungro disease is caused by an RNA and a DNA virus.

Author

Jones MC, Gough K, Dasgupta I, Rao BL, Cliffe J, Qu R, Shen P, Kaniewska M, Blakebrough M, and Davies JW

Subjects

Capsid isolation & purification, DNA Viruses genetics, DNA, Viral isolation & purification, Genes, Viral, Plant Viruses genetics, RNA Viruses genetics, RNA, Viral isolation & purification, Restriction Mapping, DNA Viruses isolation & purification, Oryza microbiology, Plant Diseases, Plant Viruses isolation & purification, RNA Viruses isolation & purification

Abstract

We present evidence that rice tungro spherical virus (RTSV) has a genome of polyadenylated single-stranded RNA of about 10 kb whereas rice tungro bacilliform virus (RTBV) contains double-stranded circular DNA. RTBV DNA has been mapped and shown to have two discontinuities, one in each strand, at specific sites; it thus resembles that of the caulimoviruses. Gel electrophoresis of RTSV preparations revealed two protein bands (Mr 35K and 26K). RTBV yielded two major protein bands of 37K and 33K together with several minor species of higher and lower Mr which react with antiviral serum.

Published

1991

10. Synthesis of Sendai virus polypeptides by a cell-free extract from wheat germ.

Author

Davies JW, Portner A, and Kingsbury DW

Subjects

Cell-Free System, Glycopeptides biosynthesis, Leucine metabolism, Mosaic Viruses metabolism, Plant Extracts, Protein Biosynthesis, RNA, Messenger metabolism, RNA, Viral metabolism, Triticum, Parainfluenza Virus 1, Human metabolism, Peptide Biosynthesis, Viral Proteins biosynthesis

Abstract

The '18S' RNA population from Sendai virus-infected cells efficiently directed the synthesis of three virus-specific polypeptides P, NP and M, in wheat germ cell-free extracts. In agreement with previous results obtained with a reticulocyte extract, there was little or no production of virus glycopolypeptides. Analyses of tryptic peptides revealed close correspondence between the primary structures of NP and M made in vitro and the authentic virus polypeptides.

Published

1976

11. Mutational analysis of the virion-sense genes of maize streak virus.

Author

Boulton MI, Steinkellner H, Donson J, Markham PG, King DI, and Davies JW

Subjects

Amino Acid Sequence, Base Sequence, Capsid genetics, Chromosome Deletion, DNA Transposable Elements, Genes, Molecular Sequence Data, Plasmids, Rhizobium genetics, Genes, Viral, Mutation, Plant Viruses genetics, Virion genetics

Abstract

Insertion and deletion mutagenesis of the two virion-sense genes, V1 and V2, of maize streak virus (MSV) prevents symptomatic infections following Agrobacterium-mediated 'agroinoculation' of maize seedlings. These genes code for an Mr 10900 protein and for coat protein, respectively. Mutants containing insertions or deletions in the coat protein gene, V2, were able to replicate to low levels, producing dsDNA although virion ssDNA was not detected and symptoms were not observed. Hence, unlike the bipartite geminiviruses, MSV requires coat protein to produce symptomatic systemic infection. Mutations in gene V1 which considerably shortened the Mr 10900 protein (V1 gene) resulted either in low levels of replication, in which all the DNA forms associated with a wild-type infection were produced, or in no infection, in which case coat protein production may also have been affected. A V1 mutant generated in vivo with 11 of the 14 N-terminal amino acids altered, was viable and produced symptoms typical of a wild-type infection. Infectivity, assessed by replication and symptom expression, was restored by co-inoculating constructs containing single mutations in different open reading frames, thus rescue can occur by trans-complementation of gene products. The experiments showed that the mutations did not affect the nucleotide sequence requirements for replication and that in all cases intermolecular recombination eventually resulted in dominant wild-type virus.

Published

1989

12. Translation of virus mRNA: protein synthesis directed by several virus RNAs in a cell-free extract from wheat germ.

Author

Davies JW and Kaesberg P

Subjects

Amino Acids metabolism, Avian Leukosis Virus metabolism, Carbon Radioisotopes, Cell-Free System, Electrophoresis, Polyacrylamide Gel, Leucine metabolism, Magnesium pharmacology, Molecular Weight, Mosaic Viruses metabolism, Peptide Biosynthesis, Picornaviridae metabolism, Plant Extracts, Plant Viruses metabolism, Potassium pharmacology, Triticum metabolism, Tritium, Protein Biosynthesis, RNA, Messenger metabolism, RNA, Viral metabolism, Viral Proteins biosynthesis

Published

1974