Strawberry Vein Banding Virus—Definitive Member of the Genus Caulimovirus

  title={Strawberry Vein Banding Virus—Definitive Member of the Genus Caulimovirus},
  author={K. Petrzik and V. Bene{\vs} and I. Mraz and J. Honet{\vs}legrov{\'a}-Fr{\'a}nov{\'a} and W. Ansorge and J. {\vS}pak},
  journal={Virus Genes},
The complete DNA sequence (7876 nucleotides) of strawberry vein banding virus (SVBV) has been determined. Seven open reading frames are detected that potentially code for proteins of calculated weight 37.8; 18.3; 16.6; 56.0; 81.1; 59.0 and 12.6 kDa, respectively. Their position on the viral genome is the same as that of the corresponding proteins on the cauliflower mosaic virus (CaMV) genome. Phylogenetic analysis based on the amino acid sequence of this protein shows a closer relationship of… Expand
Variability in sequence of Strawberry vein banding virus
No variability at all could be found in the annealing regions of primers and probes used for molecular detection of SVBV for these isolates and a comparison to a sequence of a Chinese isolate revealed a much higher DNA sequence difference of this isolate. Expand
Strawberry vein banding virus isolates in eastern Canada are molecularly divergent from other isolates
The complete sequence of a strawberry vein banding virus (SVBV) isolate collected in Nova Scotia, Canada, and designated NS8, demonstrated that SVBV is more divergent than previously reported. Expand
First report of the complete genomic sequences of strawberry mild yellow edge virus and strawberry vein banding virus isolated in Japan
This is the first report describing the complete genome sequences of SVBV and SMYev isolated in Japan, and constructed an infectious SMYEV clone, which induced mild yellowing on inoculated strawberry plants. Expand
Phylogenetic Comparison Among Caulimoviruses
The focus of this article is to touch up on the molecular biology and genetics of Strawberry vein banding virus (SVBV) and the distinctions among members of Caulimoviruses. Mode of virus transmissionExpand
Nucleotide sequence, genome organization and phylogenetic analysis of Strawberry pallidosis associated virus, a new member of the genus Crinivirus
Phylogenetic analyses reveal that SPaV is related most closely to Abutilon yellows virus and Beet pseudo-yellows virus, another virus that has been identified recently to cause identical symptoms on strawberry indicator plants as SPa V. Expand
Agroinoculation of Strawberry Vein Banding Caulimovirus: Molecular Mechanism
The focus of this review article is to touch up on the history and biology of Caulimoviruses and provide the necessity and molecular mechanisms involved in Agroinoculation of SVBV. Unlike otherExpand
Complete nucleotide sequence of strawberry vein banding virus Chinese isolate and infectivity of its full-length DNA clone
This is the first report describing an infectious clone of SVBV-CN, and that vacuum infiltration can be potentially used as a new and highly efficient means for inoculation of strawberry plants. Expand
Infectivity of recombinant strawberry vein banding virus DNA.
Infectivity of the cloned DNA genome of strawberry vein banding virus (SVBV) was demonstrated by particle bombardment of 4-week-old strawberry plants with gold particles coated with the putative full-length 7.9 kb viral DNA. Expand
Partial Molecular Characterization of Dahlia mosaic virus and Its Detection by PCR.
The nucleotide sequence confirmed the classification of DMV as a member of genus Caulimovirus since it was similar to a region covering partly open reading frames (ORFs) IV and V found in caulimoviruses. Expand
Strawberry Vein Banding Virus P6 Protein Is a Translation Trans-Activator and Its Activity Can be Suppressed by FveIF3g
It is determined that the P6 protein is the only trans-activator (TAV) encoded by SVBV, and can efficiently trans-activate the translation of downstream gfp mRNA in a bicistron derived from the SVV. Expand


Sequence of figwort mosaic virus DNA (caulimovirus group).
A 16 nucleotide sequence, complementary to the 3' terminus of methionine initiator tRNA (tRNAimet) and presumed to be the primer binding site for initiation of reverse transcription to produce minus strand DNA, was found in the FMV genome near the discontinuity in the minus strand. Expand
The complete sequence of soybean chlorotic mottle virus DNA and the identification of a novel promoter.
The complete nucleotide sequence of an infectious clone of soybean chlorotic mottle virus (SoyCMV) DNA was determined and compared with those of three other caulimoviruses, cauliflower mosaic virusExpand
An analysis of the sequence of an infectious clone of rice tungro bacilliform virus, a plant pararetrovirus.
The DNA sequence reveals features which strongly support the belief that RTBV is a pararetrovirus, including sequences at the mapped positions of two discontinuities in the virion DNA which are complementary to tRNA metinit and purine-rich, and may be the priming sites for minus- and plus-strand DNA synthesis respectively. Expand
Nonlinear ribosome migration on cauliflower mosaic virus 35S RNA
It is concluded that the central portion of cauliflower mosaic virus 35S RNA can be by-passed (shunted) by the scanning complex and was also observed in trans between two separate RNA molecules. Expand
Nucleotide sequence of cauliflower mosaic virus DNA
The findings suggest, but do not prove, that the DNA sequence of the open reading frames is colinear with viral protein sequences, which is consistent with other evidence that only the alpha strand is transcribed. Expand
The cauliflower mosaic virus gene III product is a non-sequence-specific DNA binding protein.
The results suggest that gene III product which showed DNA binding activity is a structural protein of the viral particle. Expand
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