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1. Virus-Induced Gene Silencing in Chrysanthemum seticuspe Using the Tomato Aspermy Virus Vector

Author

Hirotomo Murai and Tomofumi Mochizuki

Subjects
chrysanthemum, virus-induced gene silencing, tomato aspermy virus, Botany, QK1-989
Abstract

Chrysanthemum is one of the most economically important flowers globally due to its high ornamental value. In recent years, a large percentage of the Chrysanthemum seticuspe genome has been determined, making this species useful as a model chrysanthemum plant. To fully utilize the genome’s information, efficient and rapid gene functional analysis methods are needed. In this study, we optimized the tomato aspermy virus (TAV) vector for virus-induced gene silencing (VIGS) in C. seticuspe. Conventional plant virus inoculation methods, such as the mechanical inoculation of viral RNA transcripts and agroinoculation into leaves, did not achieve successful TAV infections in C. seticuspe, but vacuum infiltration into sprouts was successful without symptoms. The TAV vector harboring 100 nucleotides of the phytoene desaturase (PDS) gene caused photobleaching phenotypes and a reduction in CsPDS expression in C. seticuspe. To our knowledge, this is the first report of VIGS in chrysanthemums.

Published
2022
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2. Novel Fusari- and Toti-like Viruses, with Probable Different Origins, in the Plant Pathogenic Oomycete Globisporangium ultimum

Author

Miki Fukunishi, Shinsaku Sasai, Motoaki Tojo, and Tomofumi Mochizuki

Subjects
codon usage bias, convergent evolution, fusarivirus, Globisporangium ultimum, oomycete virus, Pythium, Microbiology, QR1-502
Abstract

To further classify the oomycete viruses that have been discovered in recent years, we investigated virus infection in the plant-parasitic oomycete Globisporangium ultimum in Japan. Double-stranded RNA detection, high-throughput sequencing, and RT-PCR revealed that the G. ultimum isolate UOP226 contained two viruses related to fusarivirus and totivirus, named Pythium ultimum RNA virus 1 (PuRV1) and Pythium ultimum RNA virus 2 (PuRV2), respectively. Phylogenetic analysis of the deduced amino acid sequence of the RNA-dependent RNA polymerase (RdRp) showed that fusari-like PuRV1 belonged to a different phylogenetic group than Plasmopara viticola lesion-associated fusari virus (PvlaFV) 1–3 from oomycete Plasmopara viticola. Codon usage bias of the PuRV1 RdRp gene was more similar to those of fungi than Globisporangium and Phytophthora, suggesting that the PuRV1 ancestor horizontally transmitted to G. ultimum ancestor from fungi. Phylogenetic analysis of the deduced amino acid sequence of the RdRp of toti-like PuRV2 showed a monophyletic group with the other toti-like oomycete viruses from Globisporangium, Phytophthora, and Pl. viticola. However, the nucleotide sequences of toti-like oomycete viruses were not so homologous, suggesting the possibility of convergent evolution of toti-like oomycete viruses.

Published
2021
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3. Effect of dicer-like proteins2 and 4 and RNA-dependent RNA polymerase1 as RNA silencing components on cyclic mosaic symptom development in tobacco infected with the Cucumber mosaic virus

Author

Anurag Sunpapao, Tomofumi Mochizuki, and Satoshi T. Ohki

Subjects
dicer-like proteins, RNA-dependent RNA polymerase, RNA silencing, Cucumber mosaic virus, mosaic symptom, Technology, Technology (General), T1-995, Science, Science (General), Q1-390
Abstract

The Nicotiana tabacum genome contains four Dicer-like proteins (DCLs) and six RNA-dependent RNA polymerase (RDR) homologues involved in the RNA silencing mechanism employed against viral infection. DCL1 synthesizes 18-21 nt-long microRNA, whereas DCL2, DCL3 and DCL4 produce 22 nt, 24 nt and 21 nt-long siRNA, respectively, in the RNA silencing process. This study aimed to clarify which components among these are involved in changes in the amount of virus and the development of symptoms in Cucumber mosaic virus (CMV)-infected tobacco. Infected transgenic tobacco lines with a single down-regulation of DCL2, DCL4, RDR1 or a double down-regulation of both DCL2 and 4 were analyzed. The amounts of viral RNA in young developing leaves in transgenic tobacco lines were examined by Northern blot analysis. Most transgenic plants inoculated with CMV Pepo, a virulent strain, exhibited cyclic mosaic symptoms. The amount of viral RNA in single down-regulated lines varied based on leaf position in a similar manner to that noted in non-transgenic tobacco, while that of the double down-regulated line did not. Furthermore, the expression of RNA-silencing-related genes during high and low CMV infection did not differ among the transgenic plants. These results suggested that (i) changes in the amounts of the virus in the developing leaves of all the single down-regulated lines were associated with cyclic symptom expression in fully expanded leaves, and (ii) the lower expression of DCL2, DCL4 and RDR1 may be sufficient to establish cyclic symptom development.

Published
2014

4. First characterisation of chrysanthemum virus B infecting chrysanthemum in Thailand and development of colourimetric RT-LAMP for rapid and sensitive detection

Author

Salit Supakitthanakorn, Tomofumi Mochizuki, Kanjana Vichittragoontavorn, Kaewalin Kunasakdakul, Pilunthana Thapanapongworakul, and On-Uma Ruangwong

Subjects
Horticulture
Abstract

Chrysanthemum is among the world's most important ornamental plants because of its high economic and cultural value. Our report is the first to describe the detection of chrysanthemum virus B (CVB) in chrysanthemum leaf samples collected from Thailand, which showed yellowing and mild mottling symptoms. The coat protein sequences of CVB isolated in this study share 95.15% identity with previously characterised CVB isolates. Biological indexing found that CVB induced both local and systemic symptoms in tobacco plants, while petunia displayed systemic symptoms. To improve the rapidity and sensitivity of CVB detection, the loop-mediated isothermal amplification (LAMP) technique was developed. LAMP detection was found to be optimal when incubation was conducted at 65 °C for 45 min, wherein the LAMP reaction demonstrated 106 times higher sensitivity than polymerase chain reaction. To simplify the interpretation of results, we designed the method such that a positive result is clearly indicated based on a change of colour (colourimetry), from pink to yellow, as observed visually and via gel electrophoresis. To our best knowledge, this is the first report on the characterisation of molecular, biological and morphological characteristics of CVB infecting chrysanthemum in Thailand, along with the development of colourimetric RT-LAMP for improving detection efficiency.

Published
2022

5. Plant viruses and viroids in Japan

Author

Shin-ichi Fuji, Tomofumi Mochizuki, Mitsuru Okuda, Shinya Tsuda, Satoshi Kagiwada, Ken-Taro Sekine, Masashi Ugaki, Keiko T. Natsuaki, Masamichi Isogai, Tetsuo Maoka, Minoru Takeshita, Nobuyuki Yoshikawa, Kazuyuki Mise, Takahide Sasaya, Hideki Kondo, Kenji Kubota, Yasuyuki Yamaji, Toru Iwanami, Kazusato Ohshima, Kappei Kobayashi, Tatsuji Hataya, Teruo Sano, and Nobuhiro Suzuki

Subjects
viruses, Plant Science, Agronomy and Crop Science
Abstract

An increasing number of plant viruses and viroids have been reported from all over the world due largely to metavirogenomics approaches with technological innovation. Herein, the official changes of virus taxonomy, including the establishment of megataxonomy and amendments of the codes of virus classification and nomenclature, recently made by the International Committee on Taxonomy of Viruses were summarized. The continued efforts of the plant virology community of Japan to index all plant viruses and viroids occurring in Japan, which represent 407 viruses, including 303 virus species and 104 unclassified viruses, and 25 viroids, including 20 species and 5 unclassified viroids, as of October 2021, were also introduced. These viruses and viroids are collectively classified into 81 genera within 26 families of 3 kingdoms (Shotokuvirae, Orthornavirae, Pararnavirae) across 2 realms (Monodnaviria and Riboviria). This review also overviewed how Japan’s plant virus/viroid studies have contributed to advance virus/viroid taxonomy.

Published
2022

6. Effect of mutations in the 2b protein of tomato aspermy virus on RNA silencing suppressor activity, virulence, and virus-induced gene silencing

Author

Hirotomo Murai, Kenta Atsumaru, and Tomofumi Mochizuki

Subjects
Virulence, Virology, Mutation, Tobacco, RNA, Viral, RNA Interference, General Medicine, Cucumovirus, Plant Diseases
Abstract

Tomato aspermy virus (TAV) and cucumber mosaic virus (CMV) belong to the genus Cucumovirus in the family Bromoviridae. The cucumovirus 2b protein is one of the first identified viral suppressors of RNA silencing (VSR). The cucumovirus 2b protein contains a conserved amino acid motif consisting of several highly conserved amino acid residues. Here, we demonstrate that the TAV 2b protein N-terminal region, Arg46, Ser40, and Ser42 as well as the CMV 2b protein are essential for VSR activity, virulence, and viral RNA accumulation. Furthermore, we developed the first TAV-induced gene silencing (VIGS) vector. In contrast to other cucumovirus vectors, such as CMV and peanut stunt virus, the TAV vector did not induce a silencing phenotype in Nicotiana benthamiana when 2b protein VSR activity was retained. These findings suggest that the cucumovirus 2b proteins share amino acid residues for VSR activity but may have different roles in VIGS induction.

Published
2022

10. Novel Fusari- and Toti-like Viruses, with Probable Different Origins, in the Plant Pathogenic Oomycete Globisporangium ultimum

Author

Tomofumi Mochizuki, Motoaki Tojo, Shinsaku Sasai, and Miki Fukunishi

Subjects
Oomycete, Genetics, biology, Phylogenetic tree, viruses, codon usage bias, transmission, RNA virus, Pythium, biology.organism_classification, totivirus, Microbiology, QR1-502, Pythium ultimum, Infectious Diseases, oomycete virus, Virology, Plasmopara viticola, fusarivirus, Phytophthora, convergent evolution, Globisporangium ultimum, Gene, Totivirus
Abstract

To further classify the oomycete viruses that have been discovered in recent years, we investigated virus infection in the plant-parasitic oomycete Globisporangium ultimum in Japan. Double-stranded RNA detection, high-throughput sequencing, and RT-PCR revealed that the G. ultimum isolate UOP226 contained two viruses related to fusarivirus and totivirus, named Pythium ultimum RNA virus 1 (PuRV1) and Pythium ultimum RNA virus 2 (PuRV2), respectively. Phylogenetic analysis of the deduced amino acid sequence of the RNA-dependent RNA polymerase (RdRp) showed that fusari-like PuRV1 belonged to a different phylogenetic group than Plasmopara viticola lesion-associated fusari virus (PvlaFV) 1–3 from oomycete Plasmopara viticola. Codon usage bias of the PuRV1 RdRp gene was more similar to those of fungi than Globisporangium and Phytophthora, suggesting that the PuRV1 ancestor horizontally transmitted to G. ultimum ancestor from fungi. Phylogenetic analysis of the deduced amino acid sequence of the RdRp of toti-like PuRV2 showed a monophyletic group with the other toti-like oomycete viruses from Globisporangium, Phytophthora, and Pl. viticola. However, the nucleotide sequences of toti-like oomycete viruses were not so homologous, suggesting the possibility of convergent evolution of toti-like oomycete viruses.

Published
2021
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11. A novel toti-like virus from a plant pathogenic oomycete Globisporangium splendens

Author

Chiharu Hatta, Tomofumi Mochizuki, Kazuki Shiba, Satoshi T. Ohki, Shinsaku Sasai, and Motoaki Tojo

Subjects
viruses, Pythium splendens, Sequence Homology, Virus, Microbiology, Open Reading Frames, 03 medical and health sciences, Japan, Virology, Pythium, ORFS, Phylogeny, Plant Diseases, Totiviridae, 030304 developmental biology, Oomycete, 0303 health sciences, biology, 030302 biochemistry & molecular biology, High-Throughput Nucleotide Sequencing, food and beverages, RNA virus, RNA-Dependent RNA Polymerase, biology.organism_classification, RNA silencing, Oomycetes, Totivirus
Abstract

We investigated virus infection in the plant pathogenic oomycete Globisporangium splendens, formerly classified as Pythium splendens, in Japan. From 12 strains investigated, three strains contained virus-like double-stranded (dsRNA). Next-generation sequencing revealed that the G. splendens strain MAFF 425508 and MAFF 305867 contained a virus related to toti-like viruses, that we named Pythium splendens RNA virus 1 (PsRV1). PsRV1 has a ca. 5700 nt-length genome encoding two overlapping open reading frames (ORFs). The ORF2 encodes an RNA-dependent RNA polymerase (RdRp). Phylogenetic analysis with deduced RdRp amino acid sequences indicated that PsRV1 was closely related to Pythium polare RNA virus 1 (PpRV1) from G. polare infecting mosses in the Arctic. PsRV1 was vertically transmitted through the hyphal swellings, vegetative organs of G. splendens, in a temperature-dependent manner. Also, we showed that PsRV1 infected in a symptomless manner.

Published
2019

12. Distribution of chrysanthemum chlorotic mottle viroid in shoot meristem and flower buds of chrysanthemum

Author

Yosuke Matsushita, Tomofumi Mochizuki, Mami Ebata, and Masayuki Morimoto

Subjects
0106 biological sciences, 0301 basic medicine, Bract, Gynoecium, Viroid, viruses, fungi, Stamen, food and beverages, Plant Science, Horticulture, Biology, Meristem, biology.organism_classification, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Shoot, Petal, Primordium, Agronomy and Crop Science, 010606 plant biology & botany
Abstract

Detailed information on viroid invasion of the shoot apical meristem is important for the efficient production of viroid-free plants by meristem tip culture. Additionally, knowledge on viroid distribution in plant reproductive tissues, especially the embryo, is crucial to assess seed transmission of viroids. In this study, we analyzed histochemically the distribution of chrysanthemum chlorotic mottle viroid (CChMVd) in the shoot meristems and flower buds of CChMVd-infected chrysanthemum plants (cv. ‘Okayama-heiwa’). In situ hybridization revealed that CChMVd invaded the shoot apical meristems and leaf primordia in the shoot meristem at a high frequency (ca. 70%). In flower buds, CChMVd was found in the bract, receptacle vascular, petals, ovules, and immature stamens and pistils. Furthermore, we showed that seed transmission of CChMVd occurred at a high frequency when CChMVd-infected plants were used as female parents (♀). Overall, our findings suggest that CChMVd infection of ovules in flower buds is involved in seed transmission of the viroid.

Published
2019

14. A novel non-segmented double-stranded RNA virus from an Arctic isolate of Pythium polare

Author

Keisuke Tamura, Satoshi T. Ohki, María-Luz Herrero, Tomofumi Mochizuki, Tamotsu Hoshino, Motoaki Tojo, and Shinsaku Sasai

Subjects
0301 basic medicine, viruses, Sequence Homology, Pythium, Genome, Viral, Virus, Open Reading Frames, 03 medical and health sciences, chemistry.chemical_compound, Virology, RNA polymerase, RNA Viruses, Phylogeny, RNA, Double-Stranded, Totiviridae, Genetics, biology, Arctic Regions, High-Throughput Nucleotide Sequencing, RNA, RNA virus, Sequence Analysis, DNA, RNA-Dependent RNA Polymerase, biology.organism_classification, Stop codon, RNA silencing, Open reading frame, 030104 developmental biology, chemistry, RNA, Viral, Double-stranded RNA viruses
Abstract

We investigated virus infection in the oomycete Pythium polare from the Arctic. From 39 isolates investigated, 14 contained virus-like double-stranded RNA (dsRNA). Next generation sequencing revealed that the P. polare isolate OPU1176 contained three different virus-like sequences. We determined the full-length genome sequence of one of them. The 5397 nt-length genome had two overlapped open reading frames (ORFs) consistent with a toti and toti-like viruses, that we named Pythium polare RNA virus 1 (PpRV1). The ORF2 encoded an RNA-dependent RNA polymerase (RdRp). The shifty heptamer motif and RNA pseudoknot were predicted near the stop codon of ORF1, implying that the RdRp could be translated as a fusion protein with the ORF1 protein. Phylogenetic analysis with deduced RdRp amino acid sequences indicated that oomycete virus PpRV1 was closely related to the unclassified arthropod toti-like viruses. The comparison of PpRV1-free and -infected lines suggested that PpRV1 infected in a symptomless manner.

Published
2018

15. Rapid and low-cost diagnosis of Japanese yam mosaic virus infection in Chinese yam (Dioscorea polystachya) leaves by a print-capture RT-PCR

Author

Itsuki Iwamoto, Satoshi T. Ohki, Aya Atarashi, Hiroyuki Kikukawa, and Tomofumi Mochizuki

Subjects
0106 biological sciences, 0301 basic medicine, Diagnostic methods, biology, Japanese yam mosaic virus, RNA, Plant Science, biology.organism_classification, 01 natural sciences, Virology, Dioscorea polystachya, 03 medical and health sciences, 030104 developmental biology, Real-time polymerase chain reaction, Agronomy and Crop Science, Nested polymerase chain reaction, 010606 plant biology & botany
Abstract

A rapid diagnostic method for Japanese yam mosaic virus (JYMV) infection in Chinese yam (Dioscorea polystachya) by a print-capture RT-PCR was developed. The cut surface of a rolled leaf of a JYMV-infected Chinese yam was stamped onto a nitrocellulose membrane. The clipped membrane was boiled in eluting solution to elute the RNA for use as the template in RT-nested PCR. Although JYMV RNA was detectable in most infected plants in the first PCR of the print-capture RT-PCR, it was detected from all samples in the nested PCR. The tissue-printed membranes could be preserved for at least 3 months at 4 °C for JYMV detection.

Published
2017

16. Genome sequence of a novel partitivirus identified from the oomycete Pythium nunn

Author

Satoshi T. Ohki, Shinsaku Sasai, Chiharu Hatta, Motoaki Tojo, Kazuki Shiba, and Tomofumi Mochizuki

Subjects
0301 basic medicine, viruses, Molecular Sequence Data, 030106 microbiology, Pythium, Genome, Viral, Fungal Viruses, Genome, Virus, Viral Proteins, 03 medical and health sciences, chemistry.chemical_compound, Phylogenetics, Virology, RNA polymerase, RNA Viruses, Phylogeny, Oomycete, Whole genome sequencing, chemistry.chemical_classification, Base Sequence, biology, Phylogenetic tree, General Medicine, biology.organism_classification, Amino acid, 030104 developmental biology, chemistry
Abstract

The mycoparasitic oomycete Pythium nunn isolate UZ415 contains two double-stranded RNAs (dsRNAs) of different sizes. The 1707-nt dsRNA1 and the 1475-nt dsRNA2 potentially encode an RNA-dependent RNA polymerase (RdRp) and a coat protein (CP), respectively, with sequence similarity to the RdRp and CP of gammapartitiviruses (< 57% and < 36%). Phylogenetic analysis of the deduced RdRp amino acid sequences indicated that the virus identified from P. nunn is classifiable as a distinct member of the genus Ganmmapartitivirus in the family Partitiviridae. This virus isolate is hereby named Pythium nunn virus 1 (PnV1).

Published
2018

17. Unfolded protein-independent IRE1 activation contributes to multifaceted developmental processes in Arabidopsis

Author

Kei-ichiro Mishiba, Atsushi Matsumura, Nanami Nishioka, Rikako Hirata, Yuji Iwata, Nozomu Koizumi, and Tomofumi Mochizuki

Subjects
0106 biological sciences, 0301 basic medicine, Glycerol, Health, Toxicology and Mutagenesis, RNA Stability, Protein domain, Mutant, Arabidopsis, Plant Science, medicine.disease_cause, 01 natural sciences, Biochemistry, Genetics and Molecular Biology (miscellaneous), 03 medical and health sciences, Protein Domains, Gene Expression Regulation, Plant, medicine, Gene, Research Articles, Regulation of gene expression, Gametogenesis, Plant, Mutation, Messenger RNA, Ecology, biology, Chemistry, Arabidopsis Proteins, Endoplasmic reticulum, Intracellular Signaling Peptides and Proteins, Gene Expression Regulation, Developmental, biology.organism_classification, Cell biology, 030104 developmental biology, RNA, Plant, RNA splicing, biological sciences, Unfolded protein response, Unfolded Protein Response, Pollen, Genes, Lethal, Protein Kinases, 010606 plant biology & botany, Research Article
Abstract

The Arabidopsis unfolded protein response transducer IRE1 contributes to male gametophyte development using an alternative activation mechanism bypassing the unfolded protein-sensing domain., In Arabidopsis, the IRE1A and IRE1B double mutant (ire1a/b) is unable to activate cytoplasmic splicing of bZIP60 mRNA and regulated IRE1-dependent decay under ER stress, whereas the mutant does not exhibit severe developmental defects under normal conditions. In this study, we focused on the Arabidopsis IRE1C gene, whose product lacks a sensor domain. We found that the ire1a/b/c triple mutant is lethal, and heterozygous IRE1C (ire1c/+) mutation in the ire1a/b mutants resulted in growth defects and reduction of the number of pollen grains. Genetic analysis revealed that IRE1C is required for male gametophyte development in the ire1a/b mutant background. Expression of a mutant form of IRE1B that lacks the luminal sensor domain (ΔLD) complemented a developmental defect in the male gametophyte in ire1a/b/c haplotype. In vivo, the ΔLD protein was activated by glycerol treatment that increases the composition of saturated lipid and was able to activate regulated IRE1-dependent decay but not bZIP60 splicing. These observations suggest that IRE1 contributes to plant development, especially male gametogenesis, using an alternative activation mechanism that bypasses the unfolded protein-sensing luminal domain.

Published
2019

18. The entry of cucumber mosaic virus into cucumber xylem is facilitated by co-infection with zucchini yellow mosaic virus

Author

Miho Nishimura, Satoshi T. Ohki, Shinya Nobuhara, Masaki Naoe, Bo-Song Ryang, Yoshitaka Kosaka, Tadashi Matsumoto, and Tomofumi Mochizuki

Subjects
0301 basic medicine, Guttation, Potyvirus, Enzyme-Linked Immunosorbent Assay, Phloem, Cucumovirus, Cucumber mosaic virus, 03 medical and health sciences, Xylem, Virology, Vascular tissue, Zucchini yellow mosaic virus, biology, Coinfection, fungi, food and beverages, General Medicine, Virus Internalization, biology.organism_classification, Immunohistochemistry, Plant Leaves, 030104 developmental biology, Cucumis sativus
Abstract

We investigated the synergistic effects of co-infection by zucchini yellow mosaic virus (ZYMV) and cucumber mosaic virus (CMV) on viral distribution in the vascular tissues of cucumber. Immunohistochemical observations indicated that ZYMV was present in both the phloem and xylem tissues. ZYMV-RNA was detected in both the xylem wash and guttation fluid of ZYMV-inoculated cucumber. Steam treatment at a stem internode indicated that ZYMV enters the xylem vessels and moves through them but does not cause systemic infection in the plant. CMV distribution in singly infected cucumbers was restricted to phloem tissue. By contrast, CMV was detected in the xylem tissue of cotyledons in plants co-infected with CMV and ZYMV. Although both ZYMV-RNA and CMV-RNA were detected in the xylem wash and upper internodes of steam-treated, co-infected cucumbers grown at 24 °C, neither virus was detected in the upper leaves using an ELISA assay. Genetically modified CMV harboring the ZYMV HC-Pro gene was distributed in the xylem and phloem tissues of singly inoculated cucumber cotyledons. These results indicate that the ZYMV HC-Pro gene facilitates CMV entry into the xylem vessels of co-infected cucumbers.

Published
2016

19. Large-Scale Synonymous Substitutions in Cucumber Mosaic Virus RNA 3 Facilitate Amino Acid Mutations in the Coat Protein

Author

Tomofumi Mochizuki, Marilyn J. Roossinck, and Rie Ohara

Subjects
0301 basic medicine, Viral protein, viruses, Immunology, Genome, Viral, Biology, medicine.disease_cause, Microbiology, Cucumovirus, Evolution, Molecular, 03 medical and health sciences, Virology, Tobacco, medicine, Amino Acid Sequence, Gene, Silent Mutation, Plant Diseases, RNA, RNA virus, Viral Load, biology.organism_classification, 030104 developmental biology, RNA viral genome, Genetic Diversity and Evolution, Amino Acid Substitution, Insect Science, Viral evolution, Nucleic acid, RNA, Viral, Capsid Proteins, Synonymous substitution
Abstract

The effect of large-scale synonymous substitutions in a small icosahedral, single-stranded RNA viral genome on virulence, viral titer, and protein evolution were analyzed. The coat protein (CP) gene of the Fny stain of cucumber mosaic virus (CMV) was modified. We created four CP mutants in which all the codons of nine amino acids in the 5′ or 3′ half of the CP gene were replaced by either the most frequently or the least frequently used synonymous codons in monocot plants. When the dicot host (Nicotiana benthamiana) was inoculated with these four CP mutants, viral RNA titers in uninoculated symptomatic leaves decreased, while all mutants eventually showed mosaic symptoms similar to those for the wild type. The codon adaptation index of these four CP mutants against dicot genes was similar to those of the wild-type CP gene, indicating that the reduction of viral RNA titer was due to deleterious changes of the secondary structure of RNAs 3 and 4. When two 5′ mutants were serially passaged in N. benthamiana, viral RNA titers were rapidly restored but competitive fitness remained decreased. Although no nucleic acid changes were observed in the passaged wild-type CMV, one to three amino acid changes were observed in the synonymously mutated CP of each passaged virus, which were involved in recovery of viral RNA titer of 5′ mutants. Thus, we demonstrated that deleterious effects of the large-scale synonymous substitutions in the RNA viral genome facilitated the rapid amino acid mutation(s) in the CP to restore the viral RNA titer. IMPORTANCE Recently, it has been known that synonymous substitutions in RNA virus genes affect viral pathogenicity and competitive fitness by alteration of global or local RNA secondary structure of the viral genome. We confirmed that large-scale synonymous substitutions in the CP gene of CMV resulted in decreased viral RNA titer. Importantly, when viral evolution was stimulated by serial-passage inoculation, viral RNA titer was rapidly restored, concurrent with a few amino acid changes in the CP. This novel finding indicates that the deleterious effects of large-scale nucleic acid mutations on viral RNA secondary structure are readily tolerated by structural changes in the CP, demonstrating a novel part of the adaptive evolution of an RNA viral genome. In addition, our experimental system for serial inoculation of large-scale synonymous mutants could uncover a role for new amino acid residues in the viral protein that have not been observed in the wild-type virus strains.

Published
2018

20. Inducible transgenic tobacco system to study the mechanisms underlying chlorosis mediated by the silencing of chloroplast heat shock protein 90

Author

Chika Tateda, Sachin Ashok Bhor, Masamichi Nishiguchi, Takashi Yaeno, Ken-Taro Sekine, Tomofumi Mochizuki, Kappei Kobayashi, and Naoto Yamaoka

Subjects
0106 biological sciences, 0301 basic medicine, Genetics, Chlorosis, biology, Viroid, RNA, biology.organism_classification, 01 natural sciences, Small hairpin RNA, 03 medical and health sciences, RNA silencing, 030104 developmental biology, Infectious Diseases, Virology, Heat shock protein, Gene silencing, Original Article, Peach latent mosaic viroid, 010606 plant biology & botany
Abstract

Chlorosis is one of the most common symptoms of plant diseases, including those caused by viruses and viroids. Recently, a study has shown that Peach latent mosaic viroid (PLMVd) exploits host RNA silencing machinery to modulate the virus disease symptoms through the silencing of chloroplast-targeted heat shock protein 90 (Hsp90C). To understand the molecular mechanisms of chlorosis in this viroid disease, we established an experimental system suitable for studying the mechanism underlying the chlorosis induced by the RNA silencing of Hsp90C in transgenic tobacco. Hairpin RNA of the Hsp90C-specific region was expressed under the control of a dexamethasone-inducible promoter, resulted in the silencing of Hsp90C gene in 2 days and the chlorosis along with growth suppression phenotypes. Time course study suggests that a sign of chlorosis can be monitored as early as 2 days, suggesting that this experimental model is suitable for studying the molecular events taken place before and after the onset of chlorosis. During the early phase of chlorosis development, the chloroplast- and photosynthesis-related genes were downregulated. It should be noted that some pathogenesis related genes were upregulated during the early phase of chlorosis in spite of the absence of any pathogen-derived molecules in this system.

Published
2017

21. Artificial induction of a plant virus protein in transgenic tobacco provides a synchronous system for analyzing the process of leaf chlorosis

Author

Naoto Yamaoka, Takashi Yaeno, Emran Ali, Ken-Taro Sekine, Tomofumi Mochizuki, Go Atsumi, Sumyya Waliullah, Kappei Kobayashi, and Masamichi Nishiguchi

Subjects
Chlorosis, biology, Transgene, food and beverages, Plant Science, biology.organism_classification, Virology, Cell biology, Chloroplast, Transactivation, Plant virus, Thylakoid, Genetics, Cauliflower mosaic virus, Gene
Abstract

The underlying molecular mechanism of chlorosis, a typical symptom of plant viral diseases, remains poorly understood. To establish an experimental system to determine the molecular changes during chlorosis, especially in the early phase, we generated transgenic tobacco plants expressing Cauliflower mosaic virus Transactivator/viroplasmin (Tav) under the control of a chemically inducible promoter. Induction of Tav resulted in visible chlorosis in ten days, a statistically significant decrease in chlorophyll content in two days, decreased expression of chloroplast protein genes, and abnormal thylakoid stacks, indicating that this system reproduces the common features of chlorosis in virus-infected plants.

Published
2014

22. Synthesis and Characterization of Ag/Graphene Nanocomposites by Solid-Liquid Sonochemical Reactions

Author

Jun Fukushima, Tomofumi Mochizuki, Yamato Hayashi, and Hirotsugu Takizawa

Subjects
Materials science, Graphene, Mechanical Engineering, Sonication, Oxide, Nanoparticle, Nanotechnology, Graphite oxide, Condensed Matter Physics, law.invention, chemistry.chemical_compound, chemistry, Chemical engineering, Mechanics of Materials, law, General Materials Science, Graphite, Silver oxide, Graphene oxide paper
Abstract

In this study, Graphite Oxide (GO) and Ag/Graphene nanocomposites were synthesized by solid-liquid sonochemical reactions easily and briefly. GO was synthesized by means of Hummers method using sonication or stirring. From XRD patterns and FT-IR spectra, chemical and physical effects of ultrasound promoted the oxidation of Graphite. Ag/graphene nanocomposites were synthesized from GO and silver oxide by sonication. UV-vis spectra showed the peaks of Graphene oxide and Ag nanoparticle plasmon resonance absorption. EDX images and electron diffraction patterns confirmed Ag nanoparticles were decorated on Graphene sheets by ultrasound. Using sonication, GO and Ag/Graphene nanocomposites could be synthesized easily in short time.

Published
2014

23. Pollen Transmission of Asparagus virus 2 (AV-2) May Facilitate Mixed Infection by Two AV-2 Isolates in Asparagus Plants

Author

Chikara Masuta, Hanako Shimura, Tomofumi Mochizuki, Satoshi T. Ohki, and Ryusuke Kawamura

Subjects
Sequence analysis, Cross Protection, Meristem, Nicotiana benthamiana, Flowers, Plant Science, Ilarvirus, Biology, medicine.disease_cause, Virus, law.invention, law, Pollen, Tobacco, Botany, medicine, Asparagus, Pollination, In Situ Hybridization, Plant Diseases, food and beverages, biology.organism_classification, Immunohistochemistry, Transmission (mechanics), Seedlings, Host-Pathogen Interactions, Seeds, Asparagus Plant, Agronomy and Crop Science, Plant Shoots, Mixed infection
Abstract

Asparagus virus 2 (AV-2) is a member of the genus Ilarvirus and thought to induce the asparagus decline syndrome. AV-2 is known to be transmitted by seed, and the possibility of pollen transmission was proposed 25 years ago but not verified. In AV-2 sequence analyses, we have unexpectedly found mixed infection by two distinct AV-2 isolates in two asparagus plants. Because mixed infections by two related viruses are normally prevented by cross protection, we suspected that pollen transmission of AV-2 is involved in mixed infection. Immunohistochemical analyses and in situ hybridization using AV-2-infected tobacco plants revealed that AV-2 was localized in the meristem and associated with pollen grains. To experimentally produce a mixed infection via pollen transmission, two Nicotiana benthamiana plants that were infected with each of two AV-2 isolates were crossed. Derived cleaved-amplified polymorphic sequence analysis identified each AV-2 isolate in the progeny seedlings, suggesting that pollen transmission could indeed result in a mixed infection, at least in N. benthamiana.

Published
2014

24. Coat protein mutations in an attenuated Cucumber mosaic virus encoding mutant 2b protein that lacks RNA silencing suppressor activity induces chlorosis with photosynthesis gene repression and chloroplast abnormalities in infected tobacco plants

Author

Ryota Yamazaki, Tomofumi Mochizuki, Satoshi T. Ohki, and Tomoya Wada

Subjects
Viral suppressor, Chloroplasts, Virulence Factors, 2b Protein, Mutant, Virulence, Biology, Chloroplast, Cucumovirus, Virus, Cucumber mosaic virus, Viral Proteins, Chlorosis, Virology, Tobacco, Photosynthesis, Gene, Plant Diseases, Coat protein, food and beverages, Molecular biology, RNA silencing, Host-Pathogen Interactions, Capsid Proteins, Mutant Proteins
Abstract

In tobacco plants, the Cucumber mosaic virus (CMV) pepo strain induces mosaic symptoms, including pale green chlorosis and malformed tissues. Here, we characterized the involvement of 2b protein and coat protein (CP) in the development of mosaic symptoms. A 2b mutant (R46C) that lacks viral suppressor of RNA silencing (VSR) activity showed an asymptomatic phenotype with low levels of virus accumulation. Tomato spotted wilt virus NSs protein did not complement the virulence of the R46C, although it did restore high-level virus accumulation. However, R46C mutants expressing mutated CP in which the amino acid P129 was mutated to A, E, C, Q, or S induced chlorosis that was associated with reduced expression of chloroplast and photosynthesis related genes (CPRGs) and abnormal chloroplasts with fewer thylakoid membranes. These results suggest that the CP of the CMV pepo strain acquires virulence by amino acid mutations, which causes CPRG repression and chloroplast abnormalities.

Published
2014
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25. Inducible expression of magnesium protoporphyrin chelatase subunit I (CHLI)-amiRNA provides insights into cucumber mosaic virus Y satellite RNA-induced chlorosis symptoms

Author

Takashi Yaeno, Naoto Yamaoka, Sachin Ashok Bhor, Masamichi Nishiguchi, Ken-Taro Sekine, Tomofumi Mochizuki, Chika Tateda, and Kappei Kobayashi

Subjects
0106 biological sciences, 0301 basic medicine, Genetics, Chlorosis, biology, Nicotiana tabacum, RNA, biology.organism_classification, 01 natural sciences, Cell biology, Chloroplast, Cucumber mosaic virus, 03 medical and health sciences, 030104 developmental biology, Infectious Diseases, Virology, microRNA, Gene silencing, Original Article, Gene, 010606 plant biology & botany
Abstract

Recent studies with Y satellite RNA (Y-sat) of cucumber mosaic virus have demonstrated that Y-sat modifies the disease symptoms in specific host plants through the silencing of the magnesium protoporphyrin chelatase I subunit (CHLI), which is directed by the Y-sat derived siRNA. Along with the development of peculiar yellow phenotypes, a drastic decrease in CHLI-transcripts and a higher accumulation of Y-sat derived siRNA were observed. To investigate the molecular mechanisms underlying the Y-sat—induced chlorosis, especially whether or not the reduced expression of CHLI causes the chlorosis simply through the reduced production of chlorophyll or it triggers some other mechanisms leading to the chlorosis, we have established a new experimental system with an inducible silencing mechanism. This system involves the expression of artificial microRNAs targeting of Nicotiana tabacum CHLI gene under the control of chemically inducible promoter. The CHLI mRNA levels and total chlorophyll content decreased significantly in 2 days, enabling us to analyze early events in induced chlorosis and temporary changes therein. This study revealed that the silencing of CHLI did not only result in the decreased chlorophyll content but also lead to the downregulation of chloroplast and photosynthesis-related genes expression and the upregulation of defense-related genes. Based on these results, we propose that the reduced expression of CHLI could activate unidentified signaling pathways that lead plants to chlorosis.

Published
2016

27. Quantitative transcriptional changes associated with chlorosis severity in mosaic leaves of tobacco plants infected withCucumber mosaic virus

Author

Tomofumi Mochizuki, Yuki Hirata, Satoshi T. Ohki, and Yoshiyuki Ogata

Subjects
Chlorosis, Nuclear gene, Inoculation, Mutant, Soil Science, Virulence, Plant Science, Biology, Virology, Cucumber mosaic virus, Gene expression, Agronomy and Crop Science, Molecular Biology, Gene
Abstract

Cucumber mosaic virus (CMV) causes mosaic disease in inoculated tobacco plants. Coat protein (CP) is one of the major virulence determinants of CMV, and an amino acid substitution at residue 129 in CP alters the severity of chlorosis, such as pale green chlorosis and white chlorosis, in symptomatic tissues of mosaic leaves of infected tobacco. In this study, we compared the transcriptomes of chlorotic tissues infected with the wild-type pepo strain of CMV and two strains carrying CP mutants with diverse chlorosis severity. Differential gene expression analysis showed that CMV inoculation appeared to have similar effects on the transcriptional expression profiles of the symptomatic chlorotic tissues, and only the magnitude of expression differed among the different CMVs. Gene ontology analysis with biological process and cellular component terms revealed that many nuclear genes related to abiotic stress responses, including responses to cadmium, heat, cold and salt, were up-regulated, whereas chloroplast- and photosynthesis-related genes (CPRGs) were down-regulated, in the chlorotic tissues. Interestingly, the level of CPRG down-regulation was correlated with the severity of chlorosis. These results indicate that CP mutation governs the repression level and mRNA accumulation of CPRGs, which are closely associated with the induction of chlorosis.

Published
2013

28. Comparisons of ribosomal DNA-internal transcribed spacer sequences and biological features among Olpidium bornovanus isolates from Cucurbitaceae-cultivating soil in Japan

Author

Masato Kawabe, Tomofumi Mochizuki, Ayami Hojo-Kanda, Takehiro Ohki, and Shinya Tsuda

Subjects
biology, Obligate, Phylogenetic tree, Melon necrotic spot virus, Botany, Parasite hosting, Plant Science, Fungus, Internal transcribed spacer, biology.organism_classification, Agronomy and Crop Science, Ribosomal DNA, Cucurbitaceae
Abstract

The chytrid fungus Olpidium bornovanus is an obligate plant parasite that acts as a vector to transmit Melon necrotic spot virus in cultivated soil. Here, we conducted a molecular phylogenetic analysis of 16 isolates of O. bornovanus taken from soil in which Cucurbitaceae plants had been grown in various locations throughout Japan. The ribosomal DNA and internal transcribed spacer region sequences of the 16 O. bornovanus isolates were divided into four molecular phylogenetic groups, designated O.bor-A to O.bor-D. Biological features of O. bornovanus isolates such as host specificity varied consistently with their molecular phylogenetic groups.

Published
2011

29. Cucumber mosaic virus: viral genes as virulence determinants

Author

Tomofumi Mochizuki and Satoshi T. Ohki

Subjects
Infectivity, Untranslated region, biology, Nucleic acid sequence, Soil Science, Cucumovirus, RNA, Plant Science, biology.organism_classification, Virology, Cucumber mosaic virus, Tomato aspermy virus, Peanut stunt virus, Agronomy and Crop Science, Molecular Biology
Abstract

SUMMARY Taxonomic relationships:Cucumber mosaic virus (CMV) is the type species of the genus Cucumovirus in the family Bromoviridae, which also encompasses the Peanut stunt virus (PSV) and the Tomato aspermy virus (TAV). Nucleotide sequence similarity among these three cucumoviruses is 60%–65%. CMV strains are divided into three subgroups, IA, IB and II, based on the sequence of the 5′ untranslated region of the genomic RNA 3. Overall nucleotide sequence similarity among CMV strains is approximately 70%–98%. Geographical distribution, host range and symptomatology: CMV is distributed worldwide, primarily in temperate to tropical climate zones. CMV infects more than 1200 species of 100 plant families, including monocot and dicot plants. Symptoms caused by CMV infection vary with the host species and/or CMV strain, and include mosaic, stunt, chlorosis, dwarfing, leaf malformation and systemic necrosis. CMV disease is spread primarily by aphid transmission in a nonpersistent manner. Physical properties: In tobacco sap, the thermal inactivation point of the viral infectivity is approximately 70 °C (10 min), the dilution end-point is approximately 10−4 and viral infectivity is lost after a few days of exposure to 20 °C. Viral infectivity can be retained in freeze-dried tissues and in the form of virions purified using 5 mm sodium borate, 0.5 mm ethylenediaminetetraacetic acid and 50% glycerol (pH 9.0) at −20 °C. CMV particles are isometric, approximately 28–30 nm in diameter and are composed of 180 capsid subunits arranged in pentamer–hexamer clusters with T= 3 symmetry. The sedimentation coefficient (s20,w) is c. 98 S and the particle weight is (5.8–6.7) × 106 Da. The virions contain 18% RNA. The RNA–protein interactions that stabilize the CMV virions are readily disrupted by sodium dodecylsulphate or neutral chloride salts. Genomic properties: The genomic RNAs are single-stranded messenger sense RNAs with 5′ cap and 3′ tRNA-like structures containing at least five open reading frames. The viral RNA consists of three genomic RNAs, RNA 1 (c. 3.3 kb), RNA 2 (c. 3.0 kb) and RNA 3 (c. 2.2 kb), and two subgenomic RNAs, RNA 4 (c. 1.0 kb) and RNA 4A (c. 0.7 kb). The 3′ untranslated regions are conserved across all viral RNAs. CMV is often accompanied by satellite, noncoding, small, linear RNA that is nonhomologous to the helper CMV. Useful websites:http://www.dpvweb.net/dpv/showdpv.php?dpvno=400 (general information); http://www.rcsb.org/pdb/explore/explore.do?pdbId=1f15 (structure).

Published
2011

30. Relationship between viral distribution in the leaf primordia/young developing leaves and symptom severity in the fully expanded leaves of tobacco plants infected with Cucumber mosaic virus

Author

Satoshi T. Ohki, Anurag Sunpapao, and Tomofumi Mochizuki

Subjects
Cucumber mosaic virus, Fully developed, biology, Inoculation, Nicotiana tabacum, fungi, Botany, Symptom severity, food and beverages, Primordium, Plant Science, biology.organism_classification
Abstract

Tobacco plants inoculated with the Cucumber mosaic virus pepo strain (CMV) induced cyclic mosaic symptom expression; mosaic and mottled leaves appeared first among the newly developing leaves (L7-9) above inoculated leaf (L0). Next, symptomless leaves developed (L10-11), and then mosaic leaves appeared again (L12-14). To clarify the formation of the cyclic symptoms by CMV, the relationships between viral amounts and distributions in the leaf primordia (2 to 3 mm) or young developing leaves (1 to 2 cm) and symptom severity in the fully expanded leaves were analyzed. Large amounts of CMV were detected in most cells of the young developing leaves in the early infection periods, which later led to the development of mosaic and mottled leaves. Virtually no signals were detected in the leaf primordia/young developing leaves for L11, which developed into symptomless leaves. However, CMV was already distributed in the young developing leaves at L13 in the later mosaic leaves. The relationship between the viral distributions in the leaf primordia/young developing leaves and the symptoms in the fully developed leaves in CMV-infected tobacco is discussed.

Published
2011

31. Single amino acid substitutions at residue 129 in the coat protein of cucumber mosaic virus affect symptom expression and thylakoid structure

Author

Satoshi T. Ohki and Tomofumi Mochizuki

Subjects
chemistry.chemical_classification, Chlorosis, Virulence Factors, Cucumovirus, General Medicine, Biology, biology.organism_classification, Thylakoids, Virology, Virus, Amino acid, Chloroplast, Cucumber mosaic virus, Amino Acid Substitution, chemistry, Thylakoid, Tobacco, Capsid Proteins, Mutant Proteins, Proline, Plant Diseases
Abstract

The symptomatic effect of the amino acid type at residue 129 in the coat protein of cucumber mosaic virus was investigated in tobacco using coat protein mutants of the pepo strain in which proline 129 was substituted with 19 other amino acids. These mutants caused six types of symptoms: white mosaic, pale green mosaic, veinal chlorosis, veinal necrosis, systemic necrosis, and necrotic local lesions. Transmission electron microscopy revealed that the chloroplasts of plants showing the three former types of symptoms contained few thylakoid membranes. Cytopathic effects characteristic of cells from plants showing the three latter symptom types were not observed.

Published
2011

32. The 2b protein of cucumber mosaic virus is essential for viral infection of the shoot apical meristem and for efficient invasion of leaf primordia in infected tobacco plants

Author

Fang Dong, Satoshi T. Ohki, Tomofumi Mochizuki, Anurag Sunpapao, and Takashi Nakai

Subjects
Virulence, biology, Meristem, fungi, food and beverages, Cucumovirus, biology.organism_classification, Virology, Plant Leaves, Cucumber mosaic virus, Viral Proteins, RNA silencing, Plant virus, Tobacco, Shoot, RNA, Viral, Primordium, RNA, Small Interfering, Plant Shoots, Solanaceae, Plant Diseases
Abstract

It has been reported previously that a 2b protein-defective mutant of the cucumber mosaic virus (CMV) Pepo strain (Delta 2b) induces only mild symptoms in systemically infected tobacco plants. To clarify further the role of the 2b protein as an RNA silencing suppressor in mosaic symptom expression during CMV infection, this study monitored the sequential distribution of Delta 2b in the shoot meristem and leaf primordia (LP) of inoculated tobacco. Time-course histochemical observations revealed that Delta 2b was distributed in the shoot meristem at 7 days post-inoculation (p.i.), but could not invade shoot apical meristem (SAM) and quickly disappeared from the shoot meristem, whereas wild-type (Pepo) transiently appeared in SAM from 4 to 10 days p.i. In LP, Delta 2b signals were detected only at 14 and 21 days p.i., whereas dense Pepo signals were observed in LP from 4 to 18 days p.i. Northern blot analysis showed that small interfering RNA (siRNA) derived from Delta 2b RNA accumulated earlier in the shoot meristem and LP than that of Pepo. However, a similar amount of siRNA was detected in both Pepo- and Delta 2b-infected plants at late time points. Tissue printing analysis of the inoculated leaves indicated that the areas infected by Pepo increased faster than those infected by Delta 2b, whereas accumulation of Delta 2b in protoplasts was similar to that of Pepo. These findings suggest that the 2b protein of the CMV Pepo strain determines virulence by facilitating the distribution of CMV in the shoot meristem and LP via prevention of RNA silencing and/or acceleration of cell-to-cell movement.

Published
2009

33. Tobacco ringspot virus persists in the shoot apical meristem but not in the root apical meristem of infected tobacco

Author

Tomofumi Mochizuki, Satoshi T. Ohki, and Fang Dong

Subjects
biology, Nicotiana tabacum, fungi, food and beverages, Plant Science, Horticulture, Meristem, biology.organism_classification, Virology, Plant virus, Shoot, Nepovirus, Tobacco ringspot virus, Primordium, Agronomy and Crop Science, Solanaceae
Abstract

We analysed the kinetics of virus distribution in Tobacco ringspot virus (TRSV)-infected tobacco. Infected plants developed asymptomatic leaves above the symptomatic leaves that exhibited ringspots. We detected virus in the shoot apical meristem (SAM). Time-course immunohistochemical microscopy showed that TRSV continuously distributed in the centres of the SAM and in leaf primordia. In contrast, TRSV infection was transient in the root meristem. In western blot and RT-PCR analyses, TRSV infection occurred only within and around the ringspot tissues of the symptomatic leaf; however, TRSV was not or hardly detected in the asymptomatic leaves of inoculated tobacco plants. These results indicate that TRSV persists in the SAM, but that TRSV infection is transient in the root meristem and asymptomatic leaves.

Published
2009

34. A New Strain ofMelon necrotic spot virusthat Is Unable to Systemically InfectCucumis melo

Author

Isamu Sako, Ayami Kanda, Tomofumi Mochizuki, Yohachiro Honda, Shinya Tsuda, and Takehiro Ohki

Subjects
Melon, Immunoblotting, Genome, Viral, Plant Science, Polymerase Chain Reaction, Virus, Microbiology, Citrullus, Viral Proteins, Cucumis melo, biology, Spots, Melon necrotic spot virus, Carmovirus, food and beverages, Protoplast, Blotting, Northern, biology.organism_classification, Virology, Cucurbitaceae, Microscopy, Electron, Tombusviridae, RNA, Viral, Capsid Proteins, Agronomy and Crop Science, Cucumis
Abstract

We report a new strain of Melon necrotic spot virus (MNSV) that is unable to systemically infect Cucumis melo. A spherical virus (W-isolate), about 30 nm in diameter like a carmovirus, was isolated from watermelons with necrotic symptoms. The W-isolate had little serological similarity to MNSV, and it did not cause any symptoms in six melon cultivars susceptible to MNSV; however, the host range of the W-isolate was limited exclusively to cucurbitaceous plants, and transmission by O. bornovanus was confirmed. Its genomic structure was identical to that of MNSV, and its p89 protein and coat protein (CP) showed 81.6 to 83.2% and 74.1 to 75.1% identity to those of MNSV, respectively. Analysis of protoplast showed that the W-isolate replicated in melons at the single-cell level. Furthermore, chimeric clones carrying the CP of MNSV induced necrotic spots in melons. These results suggested that the absence of symptoms in melons was due to a lack of ability of the W-isolate to move from cell to cell. In view of these findings, we propose that the new isolate should be classified as a novel MNSV watermelon strain.

Published
2008

35. Antiviral RNA Silencing Is Restricted to the Marginal Region of the Dark Green Tissue in the Mosaic Leaves of Tomato Mosaic Virus -Infected Tobacco Plants

Author

Tetsuo Meshi, Shinya Tsuda, Kenji Kubota, Tomofumi Mochizuki, and Katsuyuki Hirai

Subjects
Transgene, Molecular Sequence Data, Immunology, Biology, Microbiology, Virus, law.invention, law, Virology, Tobacco, Tobacco mosaic virus, Gene silencing, Tomato mosaic virus, RNA, Small Interfering, Tobamovirus, Sequence Analysis, DNA, Plants, Genetically Modified, biology.organism_classification, Potato virus X, Plant Leaves, Potexvirus, RNA silencing, Insect Science, Recombinant DNA, Pathogenesis and Immunity, RNA Interference
Abstract

Mosaic is a common disease symptom caused by virus infection in plants. Mosaic leaves of Tomato mosaic virus (ToMV)-infected tobacco plants consist of yellow-green and dark green tissues that contain large and small numbers of virions, respectively. Although the involvement of RNA silencing in mosaic development has been suggested, its role in the process that results in an uneven distribution of the virus is unknown. Here, we investigated whether and where ToMV-directed RNA silencing was established in tobacco mosaic leaves. When transgenic tobaccos defective in RNA silencing were infected with ToMV, little or no dark green tissue appeared, implying the involvement of RNA silencing in mosaic development. ToMV-related small interfering RNAs were rarely detected in the dark green areas of the first mosaic leaves, and their interior portions were susceptible to infection. Thus, ToMV-directed RNA silencing was not effective there. By visualizing the cells where ToMV-directed RNA silencing was active, it was found that the effective silencing occurs only in the marginal regions of the dark green tissue (∼0.5 mm in width) and along the major veins. Further, the cells in the margins were resistant against recombinant potato virus X carrying a ToMV-derived sequence. These findings demonstrate that RNA silencing against ToMV is established in the cells located at the margins of the dark green areas, restricting the expansion of yellow-green areas, and consequently defines the mosaic pattern. The mechanism of mosaic symptom development is discussed in relation to the systemic spread of the virus and RNA silencing.

Published
2008

36. Amino acid substitution in the coat protein of Melon necrotic spot virus causes loss of binding to the surface of Olpidium bornovanus zoospores

Author

Jun Ohnishi, Ayami Kanda, Shinya Tsuda, Takehiro Ohki, and Tomofumi Mochizuki

Subjects
Melon necrotic spot virus, Virion assembly, Zoospore, Amino acid substitution, Plant Science, Fungus, Coat protein, Biology, Olpidium, Ligand (biochemistry), biology.organism_classification, Agronomy and Crop Science, Virology
Abstract

Melon necrotic spot virus (MNSV) is transmitted by the fungus Olpidiumbornovanus. In this study, we used immunofluorescence microscopy to detect MNSV particles over the entire surface of the O. bornovanus zoospore; MNSV particles were not detected on the related fungus O. virulentus, which cannot transmit MNSV. The amino acid substitution Ile → Phe at position 300 in the MNSV coat protein resulted in loss of both specific binding and fungal transmission, while virion assembly and biological aspects were unaffected. Taken together, these results suggest that the MNSV coat protein acts as a ligand to the O. bornovanus zoospore as part of a fungal-vector transmission system.

Published
2008

37. High Temperatures Activate Local Viral Multiplication and Cell-to-Cell Movement ofMelon necrotic spot virusbut Restrict Expression of Systemic Symptoms

Author

Takehiro Ohki, Tomofumi Mochizuki, Leandra M. Knight, Shinya Tsuda, Tanaka C, Kido K, Jun Ohnishi, and Kenji Kubota

Subjects
Melon, Melon necrotic spot virus, Inoculation, Carmovirus, Temperature, food and beverages, Plant Science, Biology, Blotting, Northern, Virus Replication, biology.organism_classification, Virology, humanities, Virus, Plant Leaves, Cucurbitaceae, Tombusviridae, Viral replication, Agronomy and Crop Science, Plant Diseases
Abstract

Kido, K., Tanaka, C., Mochizuki, T., Kubota, K., Ohki, T., Ohnishi, J., Knight, L. M., and Tsuda, S. 2008. High temperatures activate local viral multiplication and cell-to-cell movement of Melon necrotic spot virus but restrict expression of systemic symptoms. Phytopathology 98:181-186. The infection of melon plants by Melon necrotic spot virus (MNSV) and the development of necrotic disease symptoms are a seasonal occurrence in Japan, which take place between winter and early summer, but not during mid-summer. In this paper we investigate the effect of three different temperatures (15, 20, and 25°C) on the local and systemic expression of MNSV in melon plants. Previously, the incidence of plants expressing systemic symptoms caused by MNSV and other viruses was found to be greater at temperatures less than 20°C. In this study, our temperature-shift experiments support previous studies that found the expression of systemic symptoms increases as temperature falls from 25 to 20°C and decreases as temperature rises from 20 to 25°C. However, MNSV replication in melon cells and local viral movement within leaves following the inoculation of melon protoplasts or cotyledons were more frequent at 25°C than at 15 or 20°C.

Published
2008

38. Functional degeneration of the resistance gene nsv against Melon necrotic spot virus at low temperature

Author

Kazutaka Kido, Takehiro Ohki, Shinya Tsuda, Kazutoshi Matsuo, Chika Tanaka, Tomofumi Mochizuki, and Kenji Kubota

Subjects
Melon, Melon necrotic spot virus, Inoculation, Carmovirus, fungi, food and beverages, Plant Science, Horticulture, Biology, Plant disease resistance, biology.organism_classification, Virology, humanities, Virus, Cultivar, Agronomy and Crop Science, Cucurbitaceae
Abstract

The single recessive gene, nsv, which confers resistance against Melon necrotic spot virus (MNSV), has recently been used to develop virus-resistant melon cultivars in Japan. However, the Chiba isolate of MNSV, a common isolate in Japan, infected resistant cultivars when inoculated melon plants were grown at 15°C. Viral RNAs accumulated in protoplasts from resistant cultivars at both 15 and 20°C. Mechanical inoculation of the cotyledons caused MNSV to spread throughout the leaves at 15°C, but not at 20°C. These results support our novel hypothesis that a temperature-sensitive inactivation of disease resistance genes occurs at the nsv locus in melon cultivars with the resistance gene grown at temperatures below 20°C.

Published
2007

39. Shoot meristem tissue of tobacco inoculated with Cucumber mosaic virus is infected with the virus and subsequently recovers from infection by RNA silencing

Author

Tomofumi Mochizuki and Satoshi T. Ohki

Subjects
Small interfering RNA, Inoculation, viruses, animal diseases, fungi, food and beverages, virus diseases, Plant Science, In situ hybridization, Biology, Meristem, Virology, Molecular biology, Virus, Cucumber mosaic virus, RNA silencing, Shoot, Agronomy and Crop Science
Abstract

Distribution of Cucumber mosaic virus (CMV) in shoot meristem tissue of CMV-inoculated tobacco was successively analyzed with immunohistochemical microscopy and in situ hybridization. CMV signals were detected in the tissue at 7 days postinoculation (dpi), but then they decreased and disappeared after 14 dpi. Detailed observation confirmed CMV invasion of shoot apical meristem at 6–8 dpi. Short interfering RNA corresponding to CMV RNAs was first detected at 7 dpi and was detected up to 24 dpi. These results suggest that the shoot meristem tissue is infected with CMV but subsequently recovers from the infection by RNA silencing.

Published
2004

40. Detection of plant virus in meristem by immunohistochemistry and in situ hybridization

Author

Tomofumi, Mochizuki and Satoshi T, Ohki

Subjects
Paraffin Embedding, Meristem, Tobacco, Immunohistochemistry, In Situ Hybridization, Plant Viruses
Abstract

Most plant viruses do not infect the shoot apical meristem (SAM) of a host plant, and this virus-free region of meristem tissue has been used to obtain virus-free clones by meristem tip culture. Thus, the validation of viral distribution in meristem tissues is important for ensuring the appropriate excision of virus-free meristem tips. Although immunohistochemical microscopy and in situ hybridization are classical techniques, they allow us to determine the presence or absence of plant viruses in the shoot meristem tissues of a host plant. Briefly, meristem tissues are excised from infected plants, fixed, embedded in paraffin medium, and prepared in semithin sections (10-15 μm). By treating these sections with an antibody against viral protein or with a probe complementary to viral RNA, the viral distribution in the meristem tissue can be clearly observed. Importantly, these procedures are broadly applicable to most virus (and viroid) and host plant combinations.

Published
2014

41. Large-scale codon de-optimisation of the p29 replicase gene by synonymous substitutions causes a loss of infectivity of melon necrotic spot virus

Author

Satoshi T. Ohki, Atsushi Usami, Tomofumi Mochizuki, and Shinya Tsuda

Subjects
Molecular Sequence Data, Arabidopsis, RNA-dependent RNA polymerase, Biology, Viral Proteins, Virology, Arabidopsis thaliana, Amino Acid Sequence, Codon, Gene, Plant Diseases, Genetics, Infectivity, chemistry.chemical_classification, Base Sequence, Melon necrotic spot virus, food and beverages, General Medicine, Sequence Analysis, DNA, biology.organism_classification, RNA-Dependent RNA Polymerase, Amino acid, Cucurbitaceae, chemistry, Amino Acid Substitution, Codon usage bias, Carmovirus, Synonymous substitution
Abstract

The effect of synonymous substitutions in the melon necrotic spot virus p29 replicase gene on viral pathogenicity was investigated. The codons in the p29 gene were replaced by the least frequently used synonymous codons in Arabidopsis thaliana or melons. Mechanical inoculation of melon with p29 variants resulted in a loss of viral infectivity when all, one-half, or one-quarter of the gene was de-optimised. The effect of the de-optimisation in one-sixth of the gene was different depending on the de-optimised region. These results demonstrate that large-scale codon bias de-optimisation without amino acid substitutions of the p29 gene alter viral infectivity.

Published
2013

43. The protruding domain of the coat protein of Melon necrotic spot virus is involved in compatibility with and transmission by the fungal vector Olpidium bornovanus

Author

Takahide Sasaya, Shinya Tsuda, Tomofumi Mochizuki, Ayami Kanda, Takehiro Ohki, and Fusamichi Akita

Subjects
Models, Molecular, Melon necrotic spot virus, Zoospore, viruses, Virus Attachment, Biology, Virus, Microbiology, Protein structure, Plant virus, Virology, Gene, Recombination, Genetic, Coat protein, Strain (chemistry), Chimera, Spores, Fungal, Spore, Protein Structure, Tertiary, Cucurbitaceae, Chytridiomycota, Fungal transmission, Capsid Proteins, Carmovirus, Olpidium bornovanus
Abstract

The Chi and W strains of Melon necrotic spot virus (MNSV) are efficiently transmitted by isolates Y1 and NW1, respectively, of the fungal vector Olpidium bornovanus. Analysis of chimeric viruses constructed by switching the coat protein (CP) gene between the two strains unveiled the involvement of the CP in the attachment of MNSV to zoospores of a compatible isolate of O. bornovanus and in the fungal transmission of the virus. Furthermore, analysis of the chimeric virus based on the Chi strain with the protruding domain of the CP from strain W suggested the involvement of the domain in compatibility with zoospore. Comparison of the three-dimensional structures between the CP of the two MNSV strains showed that many of the differences in these amino acid residues are present on the surface of the virus particles, suggesting that these affects the recognition of fungal vectors by the virus.

Published
2009

44. Induction of necrosis via mitochondrial targeting of Melon necrotic spot virus replication protein p29 by its second transmembrane domain

Author

Tomofumi Mochizuki, Takehiro Ohki, Katsuyuki Hirai, Shinya Tsuda, Jun Ohnishi, and Ayami Kanda

Subjects
Virulence Factors, Genetic Vectors, Virulence, Pathogenesis, Biology, Cucumovirus, Cucumber mosaic virus, Necrosis, Viral Proteins, Microscopy, Electron, Transmission, Virology, Tobacco, Inner mitochondrial membrane, Integral membrane protein, Plant Diseases, Sequence Deletion, Melon necrotic spot virus, Molecular biology, Transmembrane protein, Mitochondria, Plant Leaves, Transmembrane domain, Protein Transport, Membrane protein, Mitochondrial Membranes, Carmovirus, MNSV, RNA replication protein
Abstract

The virulence factor of Melon necrotic spot virus (MNSV), a virus that induces systemic necrotic spot disease on melon plants, was investigated. When the replication protein p29 was expressed in N. benthamiana using a Cucumber mosaic virus vector, necrotic spots appeared on the leaf tissue. Transmission electron microscopy revealed abnormal mitochondrial aggregation in these tissues. Fractionation of tissues expressing p29 and confocal imaging using GFP-tagged p29 revealed that p29 associated with the mitochondrial membrane as an integral membrane protein. Expression analysis of p29 deletion fragments and prediction of hydrophobic transmembrane domains (TMDs) in p29 showed that deletion of the second putative TMD from p29 led to deficiencies in both the mitochondrial localization and virulence of p29. Taken together, these results indicated that MNSV p29 interacts with the mitochondrial membrane and that p29 may be a virulence factor causing the observed necrosis.

Published
2009

45. Functional degeneration of the resistance gene nsv against Melon necrotic spot virus at low temperature.

Author

Kazutaka Kido, Tomofumi Mochizuki, Kazutoshi Matsuo, Chika Tanaka, Kenji Kubota, Takehiro Ohki, and Shinya Tsuda

Abstract

Abstract  The single recessive gene, nsv, which confers resistance against Melon necrotic spot virus (MNSV), has recently been used to develop virus-resistant melon cultivars in Japan. However, the Chiba isolate of MNSV, a common isolate in Japan, infected resistant cultivars when inoculated melon plants were grown at 15°C. Viral RNAs accumulated in protoplasts from resistant cultivars at both 15 and 20°C. Mechanical inoculation of the cotyledons caused MNSV to spread throughout the leaves at 15°C, but not at 20°C. These results support our novel hypothesis that a temperature-sensitive inactivation of disease resistance genes occurs at the nsv locus in melon cultivars with the resistance gene grown at temperatures below 20°C. [ABSTRACT FROM AUTHOR]

Published
2008
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46. Pollen Transmission of Asparagus virus 2 (AV-2) May Facilitate Mixed Infection by Two AV-2 Isolates in Asparagus Plants.

Author

Ryusuke Kawamura, Hanako Shimura, Tomofumi Mochizuki, Satoshi T. Ohki, and Chikara Masuta

Subjects
*ASPARAGUS diseases & pests, *PLANT viruses, *VIRUS diseases of plants, *POLLEN dispersal, *SEED dispersal
Abstract

Asparagus virus 2 (AV-2) is a member of the genus Ilarvirus and thought to induce the asparagus decline syndrome. AV-2 is known to be transmitted by seed, and the possibility of pollen transmission was proposed 25 years ago but not verified. In AV-2 sequence analyses, we have unexpectedly found mixed infection by two distinct AV-2 isolates in two asparagus plants. Because mixed infections by two related viruses are normally prevented by cross protection, we suspected that pollen transmission of AV-2 is involved in mixed infection. Immunohistochemical analyses and in situ hybridization using AV-2-infected tobacco plants revealed that AV-2 was localized in the meristem and associated with pollen grains. To experimentally produce a mixed infection via pollen transmission, two Nicotiana benthamiana plants that were infected with each of two AV-2 isolates were crossed. Derived cleaved-amplified polymorphic sequence analysis identified each AV-2 isolate in the progeny seedlings, suggesting that pollen transmission could indeed result in a mixed infection, at least in N. benthamiana. [ABSTRACT FROM AUTHOR]

Published
2014
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