Similarities in the genomic sequence and coat protein structure of plant virsuses

The genomic sequences of several RNA plant viruses including cucumber mosaic virus, brome mosaic virus, alfalfa mosaic virus and tobacco mosaic virus have become available recently. The former two viruses are icosahedral while the latter two are bullet and rod shaped, respectively in particle morphology. The non-structural 3a proteins of cucumber mosaic virus and brome mosaic virus have an amino acid sequence homology of 35% and hence are evolutionarily related. In contrast, the coat proteins exhibit little homology, although the circular dichroism spectrum of these viruses are similar. The non-coding regions of the genome also exhibit variable but extensive homology. Comparison of the brome mosaic virus and alfalfa mosaic virus sequences reveals that they are probably related although with a much larger evolutionary distance. The polypeptide folds of the coat protein of three biologically distinct isometric plant viruses, tomato Bushy stunt virus, southern bean mosaic virus and satellite tobacco necrosis virus have been shown to display a striking resemblance. All of them consist of a topologically similar 8-standard β-Barrel. The implications of these studies to the understanding of the evolution of plant viruses will be discussed.     

Homology between the proteins encoded by tobacco mosaic virus and two tricornaviruses

Summary A comparison was made of the amino acid sequences of the proteins encoded by RNAs 1 and 2 of alfalfa mosaic virus (A1MV) and brome mosaic virus (BMV), and the 126K and 183K proteins encoded by tobacco mosaic virus (TMV). Three blocks of extensive homology of about 200 to 350 amino acids each were observed. Two of these blocks are located in the A1MV and BMV RNA 1 encoded proteins and the TMV encoded 126K protein; they are situated at the N-terminus and C-terminus, respectively. The third block is located in the A1MV and BMV RNA 2 encoded proteins and the C-terminal part of the TMV encoded 183K protein. These homologies are discussed with respect to the functional equivalence of these putative replicase proteins and a possible evolutionary connection between A1MV, BMV and TMV.     

Translation of the RNAs of brome mosaic virus: The monocistronic nature of RNA1 and RNA2

Each of the two largest brome mosaic virus RNAs, RNA1 and RNA2, directs the synthesis of a large protein in cell-free extracts derived from wheat embryo. The size of each protein represents the translation of almost the entire length of the corresponding RNA. It was shown previously that brome mosaic virus RNA4 directs the synthesis of the coat protein and that brome mosaic virus RNA3, although it also contains the coat protein cistron, is translated mostly into a single product unrelated to the coat protein (Shih & Kaesberg, 1973). Thus, the brome mosaic virus genome encodes a total of four proteins.     

Investigation of Ukrainian isolates of cucumber green mottle mosaic virus

Abstract

Isolates of cucumber green mottle mosaic virus (CGMMV) obtained from three greenhouses in Ukraine have been identified. The rabbit antisera have been generated for these isolates. These antisera can be used for diagnostics of CGMMV in plant material by indirect ELISA. Analysis of cDNA sequences of capsid protein of these viruses confirmed that they may be grouped into novel strain of CGMMV.     

Comparison of the nucleotide sequences of cucumber mosaic virus and brome mosaic virus

Cucumber mosaic virus (CMV) and brome mosaic virus (BMV) are isometric plant viruses. Although biologically distinct, they share many common chemical properties. An analysis of the partial genomic RNA sequence available for these two viruses reveals that they are evolutionarily related. Different segments of the genome exhibit different evolutionary rates. The coat proteins, which serve as carriers of genetic material, possess little or no homology. In contrast, the 3a proteins show over 35% homology. The non-coding regions of the genome also exhibit extensive but variable homology suggesting the functional importance of the nucleic acid.     

The complete sequence of a sugarcane mosaic virus isolate causing maize dwarf mosaic disease in China

The complete sequence of a potyvirus from maize in Zhejiang Province was determined. The RNA was 9596 nucleotides long, excluding the 3′-poly (A) tail, and there was a single long open reading frame (ORF) of 9192 nts encoding a 346.1 ku polyprotein. The polyprotein had substantial amino acid sequence homology with those encoded by the RNAs of a Chinese isolate of sorghum mosaic virus (SrMV-C) and a Bulgarian isolate of maize dwarf mosaic virus, but it was most closely related to sugarcane mosaic virus (SCMV) isolates, for which only partial sequences have been published. According to the published criteria for distinguishing potyviruses, the sequence reported here is clearly a strain of SCMV, but it also showed a surprisingly high amino acid homology with SrMV-C in the HC-Pro, P3 and Cl proteins.     

Characterization of cymbidium mosaic virus coat protein gene and its expression in transgenic tobacco plants

Cymbidium mosaic virus (CyMV) is the most prevalent virus infecting orchids. Here, we report the isolation of partial cDNA clones encoding the genomic RNA of CyMV. Like most of the polyadenylated monopartite positive-strand RNA viruses, the open reading frame (ORF) coding for the viral coat protein (CP) is located at the 3 end. The ORF predicts a polypeptide chain of 220 amino acids with a molecular weight of 23 600. Sequence comparison of this ORF to the CP sequences of potato virus X(PVX) and white clover mosaic virus (WCIMV) revealed a strong amino acid homology in the mid-portion of the CP, but the overall homology was low. The CyMV CP gene was placed downstream of a cauliflower mosaic virus 35S promoter and the chimaeric gene was transferred into Nicotiana benthamiana. Transgenic plants expressing the CyMV CP were protected against CyMV infection.     

The complete sequence of a sugarcane mosaic virus isolate causing maize dwarf mosaic disease in China

The complete sequence of a potyvirus from maize in Zhejiang Province was determined. The RNA was 9596 nucleotides long, excluding the 3'-poly (A) tail, and there was a single long open reading frame (ORF) of 9192 nts encoding a 346.1 ku polyprotein. The polyprotein had substantial amino acid sequence homology with those encoded by the RNAs of a Chinese isolate of sorghum mosaic virus (SrMV-C) and a Bulgarian isolate of maize dwarf mosaic virus, but it was most closely related to sugarcane mosaic virus (SCMV) isolates, for which only partial sequences have been published. According to the published criteria for distinguishing potyviruses, the sequence reported here is clearly a strain of SCMV, but it also showed a surprisingly high amino acid homology with SrMV-C in the HC-Pro, P3 and Cl proteins.     

Nucleotide sequence of cucumber mosaic virus RNA. 1. Presence of a sequence complementary to part of the viral satellite RNA and homologies with other viral RNAs

The nucleotide sequence of the 3389 residues of RNA 1 (Mr 1.15 X 10(6) of the Q strain of cucumber mosaic virus (CMV) was determined, completing the primary structure of the CMV genome (8617 nucleotides). CMV RNA 1 was sequenced by the dideoxy-chain-termination method using M13 clones carrying RNA 1 sequences as well as synthetic oligonucleotide primers on RNA 1 as a template. At the 5' end of the RNA there are 97 noncoding residues between the cap structure and the first AUG (98-100), which is the start of a single long open-reading frame. This reading frame encodes a translation product of 991 amino acid residues (Mr 110791) and stops 319 nucleotide residues from the 3' end of RNA 1. In addition to the conserved 3' region present in all CMV RNAs (307 residues in RNA 1), RNAs 1 and 2 have highly homologous 5' leader sequences, a 12-nucleotide segment of which is also conserved in the corresponding RNAs of brome mosaic virus (BMV). CMV satellite RNA can form stable base pairs with a region of CMV RNAs 1 and 2 including this 12-nucleotide sequence, implying a regulatory function. This conserved sequence is part of a hairpin structure in RNAs 1 and 2 of CMV and BMV and in CMV satellite RNA. The entire translation products of RNA 1 of CMV and BMV could be aligned with significant homology. Less prominent homologies were found with alfalfa mosaic virus RNA 1 translation product and with tobacco mosaic virus Mr-126000 protein.     

Nucleotide sequence of the brome mosaic virus genome and its implications for viral replication

The nucleotide sequences of brome mosaic virus (BMV) RNAs 1 (3234 bases) and 2 (2865 bases) have been determined, completing the primary structure of the 8200 base tripartite BMV genome. cDNA clones covering 99% of BMV RNA1 and a full-length cDNA clone of BMV RNA2 were isolated in the course of this work. Extensive sequence homology and known interaction with several proteins suggest that the 3' ends of the BMV RNAs are the major regulatory regions of the genome. Smaller regions at the 5' ends of RNAs 1 and 2 show strong homology to each other and lesser homology to RNA3. These and other features of the sequences are discussed in relation to replication, regulation and evolution of the BMV genome.     

Differential selection of genes of cucumber mosaic virus subgroups

Cucumber mosaic virus (CMV) has an extremely broad plant-host range, a large number of vector species, and a wide geographical distribution. CMV is, therefore, a model by which to understand plant virus adaptation. The selective constraints exerted on the five proteins expressed from the CMV genome were evaluated by application of newly developed maximum-likelihood algorithms to analyze sequences available in data banks. The ratio between nonsynonymous and synonymous substitution rates (omega) was used to detect positive selection on particular codon sites. Amino acid sequences were conserved with omega ranging from 0.07 to 0.60 in different proteins. However, a small proportion of amino acids in proteins 1a, 2a, and 3b, the coat protein (CP), were positively selected (omega > 1). Moreover, the evolution of the CP in the three subgroups of CMV strains revealed different selection profiles along the sequence and significantly different speed of evolution at many positions. Constraints exerted by aphid transmission, rather than plant adaptation, seemed to be responsible for these patterns of evolution in the CP.     

Open reading frame in the minus strand of two plus type RNA viruses

Inspection of the nucleotide sequences of the RNAs complementary to the coat protein mRNAs from two plant viruses with a tripartite genome: alfalfa mosaic virus and brome mosaic virus, showed the presence of open reading frames for 138 and 118 amino acids, respectively. A third virus (cowpea chlorotic mottle virus) from the same family (1) does not show this phenomenon. This suggests that if a protein is coded for by the open reading frames it may be not essential for virus multiplication. Alternatively the open reading frames have no coding function but result from structural requirements of the RNAs.     

Analysis of nucleotide sequence of wheat yellow mosaic virus genomic RNAs

Wheat yellow mosaic virus (WYMV) isolate HC was used for viral cDNA synthesis and sequencing. The results show that the viral RNA1 is 7629 nueleotides encoding a polyprotein with 2407 amino acids, from which seven putative proteins may be produced by an autolytie cleavage processing besides the viral coat protein. The RNA2 is 3639 nueleotides and codes for a polypretein of 903 amino acids, which may contain two putative non-structural proteins. Although WYMV shares a similarity in genetic organization to wheat spindle streak mosaic virus (WSSMV), the identities in their nucleotide sequences or deduced amino acid sequences are as low as 70% and 75 % respectively. Based on this result, it is confirmed that WYMV and WSSMV are different species within Bymovirus.     

Similarity in structure and function of the 3′-terminal region of the four brome mosaic viral RNAs

A 3′-terminal fragment, about 160 nucleotides long, was cleaved by limited nuclease digestion from each of the four RNA components of brome mosaic virus, and purified by two cycles of gel electrophoresis. These fragments accepted tyrosine in reactions catalyzed by wheat germ aminoacyl-tRNA synthetase. Analyses of nuclease digests suggested that the sequences of the fragments from brome mosaic virus RNA 3 and 4 were identical and that the fragments from RNA 1 and 2 differed from that of RNA 4 only in the positions of two and one nucleotides, respectively. A fragment isolated in a similar way from cowpea chlorotic mottle virus was similar in size to the brome mosaic virus RNA fragments, accepted tyrosine in the presence of wheat germ aminoacyl-tRNA synthetase, but had a substantially different nucleotide sequence.     

Coat Protein Gene of Cymbidium mosaic virus from Vanilla fragrans in Reunion Island

Nucleotide and amino acid sequences of the coat protein (CP) of 12 isolates of Cymbidium mosaic virus from Vanilla fragrans in Reunion Island (CyMV‐R) were compared with each other and with those of previously described Asian strains. Alignment revealed that CyMV‐R isolates were highly homologous, suggesting that one strain is prevalent in Reunion. This strain also showed high homology with the Korean CyMV‐K2 and Singapore CyMV‐S2 strains, but nucleotide additions resulted in the carboxy‐terminal ends of the CP sequences differing from those of the Korean CyMV‐K1 and Singapore CyMV‐K1 strains.     

Genetic analysis of helper virus-specific selective amplification of cucumber mosaic virus satellite RNAs

Satellite RNAs (sat-RNAs) are small molecular parasites associated with a number of plant RNA viruses. The cucumber mosaic virus (CMV) sat-RNAs are ca. 335 nucleotides and have evolved to produce a large number of closely related sat-RNAs. Different cucumoviruses can act as helper viruses in the amplification of CMV sat-RNAs. We have found that different helper viruses show a preference for a particular sat-RNA in a mixed infection. In this study the specificity of WL47 sat-RNA amplification by LS-CMV and of D4 sat-RNA amplification by tomato aspermy virus in mixed infections was examined. Recombinant cDNA clones of D4 sat-RNA and WL47 sat-RNA were used to map the sat-RNA sequences responsible for the helper virus selection of a specific sat-RNA for amplification.Correspondence to: M.J. Roossinck