Shuu Hase

One Amino Acid Change in Cucumber Mosaic Virus RNA Polymerase Determines Virulent/Avirulent Phenotypes on Cowpea

ABSTRACT The elicitation of the hypersensitive response (HR) is known to depend on the interaction between a resistance gene of a host plant and a corresponding avirulence gene of a pathogen. The cv. Kurodane-Sanjaku of cowpea (Vigna unguiculata) has the Cry locus that confers resistance against cucumber mosaic virus strain Y (CMV-Y). The resistance is overcome by infection with a legume strain of CMV (CMV-L). RNA 2, which codes for the 2a protein, a subunit of the viral replicase components, has been known to control virulent/avirulent phenotypes. We generated chimeric constructs of full-length cDNA clones of RNA 2 of both strains and inoculated infectious transcripts to delimit the domain controlling symptoms. A 243-base pair fragment containing a coding region for the GDD RNA-dependent RNA polymerase core sequence was shown to be responsible for the phenotypic differences. From sequence alignment analysis, two amino acids (Phe631 and Ala641) of the HR-type 2a protein encoded in this fragment were specifically exchanged to Tyr and Ser, respectively, in the 2a proteins of resistance-breaking strains. Point mutations introduced into RNA 2 backgrounds of both strains that were designed to change the amino acid at position 631 resulted in a change of symptoms, indicating that a single nucleotide change determines the reactions elicited by both strains. Analysis for one additional mutant RNA 2 showed that symptom determination may be correlated with the nature of the lateral chain of amino acid 631.

Activation of defense-related gene expression and systemic acquired resistance in cucumber mosaic virus-infected tobacco plants expressing the mammalian 2'5'oligoadenylate system.

Summary. Tobacco plants expressing the mammalian 2′5′oligoadenylate system (2-5A system) exhibit resistance to cucumber mosaic virus (CMV). Here, to characterize the molecular aspect of the resistance to CMV in 2-5A system-expressing tobaccos, the activation of defense-related genes and systemic acquired resistance (SAR) as the markers for the hypersensitive resistance (HR), were elucidated. Northern hybridization analysis indicated that the expression of four pathogenesis-related (PR) protein genes and five HR-related genes were induced in CMV-infected tobaccos expressing 2-5A system. Furthermore, the induction of SAR against Pseudomonas syringae pv. tabaci as second challenge, was observed on CMV-inoculated tobaccos expressing 2-5A system. These results suggested that the resistance to CMV in tobacco expressing 2-5A system is associated with the establishment of an HR-like response.

A Variant of Cucumber mosaic virus Is Restricted to Local Lesions in Inoculated Tobacco Leaves with a Hypersensitive Response

A variant of Cucumber mosaic virus, CMV(Y/GM2), was isolated from a tobacco plant with mild green mosaic symptoms that was regenerated in vitro from a yellow strain of CMV [CMV(Y)]-infected tobacco leaves by tissue culture. CMV(Y/GM2) has two amino acid substitutions at 36 and 111 positions in the coat protein encoded on RNA3. CMV, assembled by mixing invitro transcribed CMV(Y) RNA1 and RNA2 plus infectious RNA3 transcribed in vitro from cDNA to RNA3 of CMV(Y/GM2), was prepared and designated as CMV(Y/GM2)tr. When tobacco (Nicotiana tabacum cv. Xanthi nc) plants were inoculated with CMV(Y/GM2)tr, large necrotic local lesions in which the virus was localized, developed on the inoculated leaves. This host response unique to CMV(Y/GM2)tr was similar to the hypersensitive response (HR), which is a common resistance response to avirulent pathogens and was observed in five cultivars of Nicotiana tabacum and eight Nicotiana species. The revertant virus, however, accumulated to quite different levels in the various hosts. CMV(Y/GM2)tr induced pathogenesis-related 1 (PR-1) protein accumulation and systemic acquired resistance (SAR) which were generally observed in the HR. However, when tobaccos were inoculated with CMV(S36P)tr and CMV(V111I)tr, which have an amino acid substitution at either the 36 or 111 position in the coat protein of CMV(Y), respectively, CMV(S36P)tr was restricted to the primary infection site without necrotic local lesion formation and PR-1 protein and SAR induction. CMV(V111I)tr, however, systemically spread and induced mild green mosaic symptoms, while the host had the HR to CMV(Y/GM2)tr. The localization of CMV(Y/GM2)tr at the primary infection site may not only be caused by the HR, but also by the restriction of virus systemic movement resulting from the amino acid substitution at position 36 in the coat protein of CMV(Y).

Stimulated ethylene production in tobacco (Nicotiana tabacum L. cv. Ky 57) leaves infected systemically with cucumber mosaic virus yellow strain

Ethylene production was stimulated in the leaves of tobacco (Nicotiana tabacum L. cv. Ky 57) infected systemically with cucumber mosaic virus yellow strain (CMV-Y). A transient peak of ethylene production per fresh-weight base appeared 2 weeks after inoculation when the mosaic symptoms of green, yellow and white sectors covered about 40% or the leaf area. The increase in ethylene production was accompanied by the increase in 1-aminocyclopropane-1-carboxylate (ACC) content and activities of ACC synthase and ACC oxidase in systemically-infected leaves. Application of aminooxyacetic acid or 1,10-phenanthroline suppressed the multiplication of the virus and development of mosaic symptoms besides ethylene production, suggesting a causal relationship of the stimulated ethylene production in the symptoms development. A partial cDNA encoding a putative ethylene receptor was isolated by RT-PCR from virus-infected tobacco leaves. The abundance of mRNA corresponding to the cDNA increased during mosaic symptoms development in tobacco leaves after systemic infection with the virus.

Isolation of molecular markers linked to the Cry locus conferring resistance to cucumber mosaic cucumovirus infection in cowpea.

We previously demonstrated that cowpea [Vigna unguiculata (L.) Walp.] cultivar Kurodane-Sanjaku contains the Cry gene, which confers resistance against Cucumber mosaic cucumovirus infection. In this paper, randomly amplified polymorphic DNA (RAPD) analysis was carried out to tag the Cry locus. Bulked segregant analysis for RAPD resulted in many polymorphisms in amplified DNA patterns. Candidates were further screened using parental and/or F2 cowpea DNAs. As a result, we obtained three RAPD markers, D13/E14-350, WA3-850 and OPE3-500, flanking the Cry locus. In addition, we amplified cowpea sequences coding for the putative nucleotide-binding site (NBS). Degenerate primers based on NBS sequences of tobacco N and Arabidopsis RPS2 disease resistance genes were used for polymerase chain reaction, and resultant products were cloned and sequenced. Among eight independent clones, cowpea resistance gene analog (CRGA) 5 showed a distinct polymorphism when used as a probe for restriction fragment length polymorphism analysis against the susceptible cowpea cultivar PI 189375 and a near-isogenic line for the Cry. Linkage analyses of these molecular markers showed that genetic distances of CRGA5, D13/E14-350, WA3-850 and OPE3-500 to the Cry locus were 0.7, 5.2, 11.5 and 24.5 cM, respectively.