The Rx gene confers resistance to a range of potexviruses in transgenic Nicotiana plants

Rx-mediated resistance was analyzed in Rx-expressing transgenic Nicotiana plants. The infection outcome of nine Potato virus X isolates mutated at amino acid positions 121 and 127 of the coat protein (CP) confirmed the key role of these amino acids but provided a more complex picture than previously reported. In particular, in Rx-expressing Nicotiana spp., eliciting activity modulated by amino acid 121 was conditioned by the nature of amino acid 127. These results suggest that the specificity of recognition might be modulated by host factors that are somehow subtly modified between Rx-expressing potato and Rx-expressing transgenic Nicotiana plants. Moreover, the CP of three Potexviruses, Narcissus mosaic virus (NMV), White clover mosaic virus (WClMV), and Cymbidium mosaic virus (CymMV), are all recognized by the Rx-based machinery and able to trigger an Rx-dependant hypersensitive response. A smaller elicitor of 90 amino acids was identified in the CP of NMV and WClMV, which contains the previously identified key positions 121 and 127. This elicitor is only weakly conserved (approximately 40% identity) among the CP of the various recognized viruses, suggesting that the Rx molecular machinery targets a conserved structural element of the Potexvirus CP rather than a conserved amino acid motif.     

Determination of the complete amino acid sequence for the coat protein of brome mosaic virus by time-of-flight mass spectrometry. Evidence for mutations associated with change of propagation host

Time-of-flight mass spectrometry (TOFMS) has been applied to determine the complete coat protein amino acid sequences of a number of distinct brome mosaic virus (BMV) isolates. Ionization was carried out by both electrospray ionization and matrix-assisted laser desorption/ionization (MALDI). After determining overall coat protein masses, the proteins were digested with trypsin or Lys-C proteinases, and the digestion products were analyzed in a MALDI QqTOF mass spectrometer. The N terminus of the coat protein was found to be acetylated in each BMV isolate analyzed. In one isolate (BMV-Valverde), the amino acid sequence was identical to that predicted from the cDNA sequence of the "type" isolate, but deviations from the predicted amino acid sequence were observed for all the other isolates analyzed. When isolates were propagated in different host taxa, modified coat protein sequences were observed in some cases, along with the original sequence. Sequencing by TOFMS may therefore provide a basis for monitoring the effects of host passaging on a virus at the molecular level. Such TOFMS-based analyses assess the complete profiles of coat protein sequences actually present in infected tissues. They are therefore not subject to the selection biases inherent in deducing such sequences from reverse-transcribed viral RNA and cloning the resulting cDNA.     

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.     

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.     

Biological and Molecular Characterization of Melon-Infecting Kyuri Green Mottle Mosaic Virus in Indonesia

Melon (Cucumis melo L.) plants showing fruit deformation and mosaic symptoms were found in Java, Indonesia, in 2001. Leaf dips of the symptomatic melon tissue revealed rod‐shaped viral particles 300 × 18 nm in size. Biological and serological data described in this study indicate that the virus belonged to the genus tobamovirus and was related to the kyuri green mottle mosaic virus (KGMMV). The genome of the virus has been completely sequenced, consisting of 6512 nucleotides and was compared in detail with KGMMV‐C1 and KGMMV‐Y. The sequence of their 5′‐ and 3′‐ non‐coding regions (NCRs) were 91% and 94% identical to KGMMV‐C1, and only 82% and 95% identical to KGMMV‐Y respectively. The amino acid sequence of the shorter and longer RNA replicase components, movement protein and coat protein were 94%, 91%, 95% and 94% identical to KGMMV‐C1 and 93%, 89%, 91% and 85% identical of KGMMV‐Y respectively. The results from phylogenetic analysis of the coding regions revealed that KGMMV‐YM is a new strain of KGMMV. This is the first report of the complete nucleotide sequence and analysis of genome organization for KGMMV isolated in anywhere in South‐East Asia.     

Host ranges, symptoms and amino acid compositions of eight potexviruses

The host ranges, symptom expression and coat protein compositions of eight definitive potexviruses are described and compared. Only limited host range similarity was observed: clover yellow mosaic virus and white clover mosaic virus shared 11 of the 28 host species tested; foxtail mosaic virus and narcissus mosaic virus infected monocotyledons; barrel cactus virus and viola mottle virus had narrow host ranges but had eight of the host species in common. Amino acid analyses of coat proteins showed some similarity among the viruses tested, but little correlation with the different host range types. There was more variation of structurally important amino acids such as lysine, arginine, leucine and proline than might have been expected, but high alanine and low tyrosine, tryptophan, cysteine and methionine were typical of plant virus coat proteins.     

Analysis of six new genes encoding lysis proteins and coat proteins in Escherichia coli group A RNA phages

Group A RNA phages consist of four genes-maturation protein, coat protein, lysis protein and replicase genes. We analyzed six plasmids containing lysis protein genes and coat protein genes of Escherichia coli group A RNA phages and compared their amino acid sequences with the known proteins of E. coli(group A), Pseudomonas aeruginosa(PP7) RNA phages and Rg-lysis protein from Qbeta phage. The size of lysis proteins was different by the groups but the coat proteins were almost the same size among phages. The phylogenetic analysis shows that the sub-groups A-I and A-II of E. coli RNA phages were clearly dispersed into two clusters.     

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.     

烟草花叶病毒（普通株中国分离物）及其弱毒苗—N14（番茄株）组织 …

用双脱氧未端经终止法对侵染性烟草共现毒普通株中国分离物（ＴＭＶ－ｖｉｒｌｇａｒ,Ｃｈｉｎｅｓｅ ｌｓｏｂｌａｔｅ,ＴＭＶ－Ｃｖ）和番茄株弱毒轩ＴＭＶ－Ｎ１４（Ａｔｔｅｎｕａｔｅｄ ＴＭＶ ｖａｃｃｉｎｅ ｓｔｒａｉｎ）基因组ｃＤＮＡｓ的核苷酸全序列进行了测定,并分析和比较了其基因组的结构和特征。结果表明：普通株基因组（Ｇｅｎｂａｎｋ接收号：ＡＦ１６５１９０）为６３９５个核苷酸：４个功能性开放阅读框     

Replicase-mediated resistance

Transformation of a plant with a DNA sequence derived from a gene encoding a viral replicase can endow it with a high level of resistance to the virus. To date, plants have been made resistant to tobacco mosaic virus, pea early browning virus, cucumber mosaic virus and potato virus X. It is considered that expression of replicase-derived sequences at the protein level interferes with normal functioning and/or assembly of viral replicase enzyme complexes leading to a general, marked inhibition of viral replication in the cells of these transgenic plants. Analogous studies of animal viruses in tissues culture cells indicate that mutants of viral-encoded replication-associated proteins can act as inhibitors of virus replication. This paper discusses the present status and future prospects for the control of virus disease using sequences derived from viral genes encoding replicase and replication-associated proteins.     

Amino acid sequence analysis of barley stripe mosaic viral proteins: tentative identification of viral serine proteases

Analysis of amino acid sequences of barley stripe mosaic virus (BSMV) proteins revealed the pentapeptide GDSGG, the sequence unique for catalytic centers of serine chymotrypsin-like proteases, in protein p14 encoded by open reading frame 4 of RNA beta. Computer-assisted comparisons revealed a statistically significant similarity between amino acid sequences of p14 and chymotrypsin-like proteases. The catalytic His and Asp residues tentatively identified in p14 together with the Ser residue of the GDSGG sequence, presumably, constitute the "catalytic triad" characteristic of chymotrypsin-like proteases. Based on these observations and on the presence of a potential N-proximal transmembrane domain in p14, this protein may be suggested to be a serine protease involved in processing of the replicase precursor within a membrane-bound replication complex of BSMV.     

Coat proteins of strains of two RNA viruses: comparison of their amino acid sequences

Summary The amino acid sequences of four strains of tobacco mosaic virus isolated in different parts of the world are compared. The differences between the strains are discussed with respect to special proteinchemical features (such as beginning of the chain, deletion of amino acids, number of different amino acids, sizes and distribution of regions with invariable amino acids) and with respect to the possibility of deducing the most probable nucleotide sequence for the coat protein cistron of tobacco mosaic virus.The complete amino acid sequences of the two RNA bacteriophage strains fr and f₂ are compared. According to their coat proteins three groups of phages can be formed: 1) MS 2, f₂ M 12 and R 17, 2) fr and 3) Q.     

Development of reverse transcription loop‐mediated isothermal amplification assay for sensitive and rapid detection of Hosta virus X

The one‐step real‐time turbidity loop‐mediated isothermal amplification assay (RealAmp) was developed to detect Hosta virus X (HVX), the most devastating threat to hosta industry. The reaction was performed in a single tube at 63°C for 15 min, and real‐time turbidimetry was used to monitor the amplification results. Specificity and sensitivity analyses demonstrated that this RealAmp method was sensitive as real‐time TaqMan RT‐PCR and about 100‐fold higher than conventional RT‐PCR with no cross‐reaction with other viral pathogens. Field samples detection showed that HVX could be identified effectively with this method. Overall, this RealAmp assay for HVX detection was simple, specific, sensitive, convenient and time‐saving and could assist in the quarantine measures for prevention and control of the disease caused by HVX.     

菊花R病毒杭白菊分离株全基因组序列测定与分析

杭白菊作为著名的中药“浙八味”之一,种植规模和产区不断扩大,但其病毒病的发生也日益严重,对其产量和品质造成严重影响。本研究利用双链RNA（double stranded RNA,dsRNA）和非序列依赖PCR扩增（sequence independent amplification,SIA）等方法,对感病杭白菊病原物进行鉴定,为杭白菊病毒病原的检测构建一套快速和简便的方法。结果表明,感病杭白菊被菊花R病毒（Chrysanthemum virus R,CVR）侵染,将其命名为CVR-TX。通过对其全基因组进行序列扩增与分析,获得其全长基因组为8 872 bp,编码6个ORF,具有Carlavirus属病毒的典型特征。基于全基因组核酸序列以及复制酶、外壳蛋白氨基酸的序列比对发现,CVR-TX与CVR-BJ同源性最高,分别为85.5%、96.0%和96.3%;与Carlavirus属其他病毒同源性分别在48.2%～54.4%、46.9%～55.3%和36.8%～59.5%,因此CVR被确定为一种新的Carlavirus属病毒。系统进化分析表明,基于全长基因组、复制酶（replicase）基因和外壳蛋白（coat protein,CP）基因与CVR-BJ聚为一簇,亲缘性最近。本研究获得了CVR-TX的全长基因组,丰富了CVR的基因组信息,通过生物信息学分析明确其种属关系和区域变化情况,从而为建立CVR可靠灵敏的分子检测手段和有效的防控措施提供理论基础。     

The interaction between bamboo mosaic virus replication protein and coat protein is critical for virus movement in plant hosts

Bamboo mosaic virus (BaMV) is a positive-sense RNA virus belonging to the genus Potexvirus. Open reading frame 1 (ORF1) encodes the viral replication protein that consists of a capping enzyme domain, a helicase-like domain (HLD), and an RNA-dependent RNA polymerase domain from the N to C terminus. ORF5 encodes the viral coat protein (CP) required for genome encapsidation and the virus movement in plants. In this study, application of a yeast-two hybrid assay detected an interaction between the viral HLD and CP. However, the interaction did not affect the NTPase activity of the HLD. To identify the critical amino acids of CP interacting with the HLD, a random mutational library of CP was created using error-prone PCR, and the mutations adversely affecting the interaction were screened by a bacterial two-hybrid system. As a result, the mutations A209G and N210S in CP were found to weaken the interaction. To determine the significance of the interaction, the mutations were introduced into a BaMV infectious clone, and the mutational effects on viral replication, movement, and genome encapsidation were investigated. There was no effect on accumulations of BaMV CP and genomic RNAs within protoplasts; however, the virus cell-to-cell movement in plants was restricted. Sequence alignment revealed that A209 of BaMV CP is conserved in many potexviruses. Mutation of the corresponding residue in Foxtail mosaic virus CP also reduced the viral HLD-CP interaction and restricted the virus movement, suggesting that interaction between CP and a widely conserved HLD in the potexviral replication protein is crucial for viral trafficking through plasmodesmata.