Virion protein sequence variation among Australian isolates of turnip yellow mosaic tymovirus.

The virion protein genes, and 3' untranslated regions, of six variants of turnip yellow mosaic tymovirus (TYMV) that produced different symptoms in their native host Cardamine robusta and in Chinese cabbage plants, have been sequenced. The sequences have been compared with each other, and with the same region of the pBL-16 clone of the Blue Lake isolate of TYMV. The sequences of the virion protein genes differed by a mean of 1.89% (range 0-2.82%), and the encoded proteins by a mean of 1.71% (range 0-3.17%). The nucleotide differences were confined to the 5'-most 60% of the gene, whereas there were amino acid differences only among residues 12 to 29 and residue 102 (numbered from the N-terminus) of the virion protein involving only hydrophobic residues at the surface of the protein. The amino acid and nucleotide differences between the seven isolates did not correlate with differences in the symptoms they caused, but confirmed earlier estimates of genetic variability in the wild populations of the virus.

A century of tobamovirus evolution in an Australian population of Nicotiana glauca.

The evolution over the past century of two tobamoviruses infecting populations of the immigrant plant Nicotiana glauca in New South Wales (NSW), Australia, has been studied. This plant species probably entered Australia in the 1870s. Isolates of the viruses were obtained from N. glauca specimens deposited in the NSW Herbarium between 1899 and 1972, and others were obtained from living plants in 1985 and 1993. It was found that the NSW N. glauca population was infected with tobacco mosaic tobamovirus (TMV) and tobacco mild green mosaic tobamovirus (TMGMV) before 1950 but only with TMGMV after that date. Half the pre-1950 infections were mixtures of the two viruses, and one was a recombinant. Remarkably, sequence analyses showed no increase in the genetic diversity among the TMGMV isolates over the period. However, for TMV, the genetic diversity of synonymous (but not of nonsynonymous) differences between isolates varied and was correlated with their time of isolation. TMV accumulated to smaller concentrations than TMGMV in N. glauca plants, and in mixed experimental infections, the accumulation of TMV, but not of TMGMV, was around 1/10 that in single infections. However, no evidence was found of isolate-specific interaction between the viruses. We conclude that although TMV may have colonized N. glauca in NSW earlier or faster than TMGMV, the latter virus caused a decrease of the TMV population below a threshold at which deleterious mutations were eliminated. This phenomenon, called Muller's ratchet, or a "mutational meltdown," probably caused the disappearance of TMV from the niche.

Genome segment 5 of rice ragged stunt virus encodes a virion protein.

The complete nucleotide sequence of the genome segment 5 (S5) of a Thai isolate of rice ragged stunt virus (RRSV) was determined. The 2682 nucleotide sequence contains a single long open reading frame capable of encoding a polypeptide with a molecular mass of approximately 91 kDa. Polypeptides encoded by various truncated cDNAs of S5 were expressed using the pGEX fusion protein vector and the highest level of fusion protein was obtained from a construct encoding a hydrophilic region of S5 protein. Antibodies raised against this fusion protein recognized a minor polypeptide, with a molecular mass of approximately 91 kDa, that was present in purified preparations of RRSV particles, infected insect vectors and infected rice plants. This indicates that RRSV S5 encodes a minor structural protein. Comparing the RRSV S5 sequence with sequences of other reoviruses did not reveal any significant sequence similarities.

Papaya ringspot potyvirus: isolate variability and the origin of PRSV type P (Australia).

We have sequenced the coat protein gene of nine isolates of papaya ringspot virus (PRSV) including six Australian and three Asian isolates and compared these with four previously reported sequences of PRSV. There was up to 12% sequence variation between isolates at the nucleotide level. However, there was no significant difference between the sequences obtained from Australian isolates irrespective of whether they were PRSV type P (cucurbit or papaya infecting) or PRSV type W (cucurbit infecting) and these isolates were more closely related to one another than to any other isolate. These results imply that PRSV-P, first recorded in Australia in 1991, arose locally from PRSV-W (first recorded in Australia in 1978) rather than being introduced. Further, there was no consistent sequence difference between PRSV-P and PRSV-W isolates that would obviously account for their host range difference.

Infectious eggplant mosaic tymovirus and ononis yellow mosaic tymovirus from cloned cDNA.

Eggplant mosaic virus (EMV) and ononis yellow mosaic virus (OYMV) are two tymoviruses that have ssRNA genomes of about 6.2 kb and 6.3 kb, and which infect solanaceous and leguminous hosts, respectively. Full-length cDNA clones of these viruses were constructed with a T7 promoter adjacent to the 5' terminus of the DNA copy of the viral genome, and with unique restriction endonuclease sites at the 3' terminus. This allowed RNA to be transcribed from the DNA encoding the genome. The transcript RNA was infectious when inoculated to Nicotiana glutinosa (for EMV) and Pisum sativum (for OYMV). These clones, together with clones of turnip yellow mosaic tymovirus, which infects brassicas, have been used to construct hybrids in which the virion protein gene was exchanged between EMV or OYMV and turnip yellow mosaic virus. These and other hybrids are being used to investigate the molecular basis for host range differences in tymoviruses.

NS 1 gene sequences from eight dengue-2 viruses and their evolutionary relationships with other dengue-2 viruses.

The nucleotide sequences of the NS 1 genes from five Thai and three Sri Lankan dengue-2 viruses were determined by sequencing the viral RNA using synthetic oligonucleotide primers. The results were shown to be similar to four published dengue-2 NS 1 sequences and the classification of these genes was compared with the one obtained for the envelope genes of the same viruses. The classification was similar and showed that the Thai isolates could be divided into two separate groups and that the Sri Lankan isolates were distinct. We found no correlation between disease severity, serological response (1 degree or 2 degrees), or year of isolation and various aspects of NS 1 protein sequence variation; and no particular amino acid changes were correlated with virulence. The sequences were combined with those published and classified elsewhere to provide a comprehensive E/NS 1 gene taxonomy of dengue-2 virus isolates.

Variation of the nucleotide and encoded amino acid sequences of the envelope gene from eight dengue-2 viruses.

The nucleotide sequences of the envelope genes from five Thai and three Sri Lankan dengue-2 viruses were determined by sequencing the viral RNA using synthetic oligonucleotide primers. The results were compared with the four published dengue-2 envelope sequences to obtain a classification of these viruses, which showed that the Thai isolates could be divided into two separate groups while the Sri Lankan isolates were distinct. There was no correlation between disease severity and envelope protein sequence, or between year of isolation and sequence. No particular amino acid changes were associated with virulence or a change in hydrophilic region which could perhaps act as an epitope.

Fowlpox virus thymidine kinase: nucleotide sequence and relationships to other thymidine kinases.

The thymidine kinase (TK) gene of fowlpox virus (FPV) is located in a 2.2-kb HindIII-ClaI fragment derived from a 5.5-kb EcoR1 fragment of the FPV genome. The TK gene was mapped to the region of a 700-bp XbaI fragment contained within this HindIII-ClaI fragment. Nucleotide sequence analysis of this region revealed an open reading frame of 183 codons. Identification of this region as the FPV TK gene was confirmed by its homology with the vaccinia virus TK at both the nucleotide and amino acid levels. The derived FPV TK polypeptide has a calculated molecular weight of 20,380 and is six amino acids larger than the vaccinia virus TK gene product. We have reported previously that the FPV TK gene operates in vaccinia virus without the requirement for a vaccinia virus promoter. The sequence homologies between the two TK promoters substantiated this observation. Northern blot analysis of RNAs from cells infected with a vaccinia virus recombinant expressing the FPV TK gene showed major (700 nucleotide) and minor (1000 nucleotide) transcripts from the FPV TK gene. The deduced amino acid sequence of the FPV TK has significant homology with the TKs from chicken, man, and three other poxviruses, but shows no homology with herpes simplex virus TK. Comparisons of the homologous sequences indicated that the "core" of the enzyme has probably evolved in poxviruses four times as quickly as in vertebrates. Characterization of the FPV TK gene may facilitate the construction of recombinant FPVs as vehicles for the delivery of vaccine antigens to poultry and other avian species.

A method for assessing the size of a protein from its composition: a correction.

A previous report in this Journal of a computer method for assessing the size of a protein from its amino acid composition, and its application to virus protein data, contained an error in the published arithmetical formula. Persons using the incorrect formula would not have obtained incorrect estimates of possible protein sizes, but would have obtained a more equivocal set of possible sizes.