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1.
M. Sakamoto R. Tomita H. Hamada Y. Iwadate I. Munemura K. Kobayashi 《Plant pathology》2008,57(5):825-833
2.
Hiroyuki Hamada Shigeharu Takeuchi Akinori Kiba Shinya Tsuda Kazumi Suzuki Yasufumi Hikichi Tetsuro Okuno 《Journal of General Plant Pathology》2005,71(1):90-94
Amino acid changes in Pepper mild mottle virus (PMMoV) coat protein (CP) that enhance, decrease, or nullify the resistance-inducing activity in Capsicum plants carrying the L
3
gene have been identified. In this study, molecular events underlying the L
3
-gene-mediated resistance were analyzed through the expression of hypersensitive response (HR)-related genes, HSR203J-Cc and HIN1-Cc, and defense-related genes, PR1-Cc and PR4b-Cc, upon infection with PMMoV CP mutants. The expression kinetics of the genes correlated with the degree of restriction of virus distribution in the inoculated leaves. The results suggest that the timing and extent of HR are critical factors to restrict virus spread both locally and systemically in L
3
-gene-mediated resistance.The nucleotide sequence data reported are available in the DDBJ/GenBank/EMBL databases under accession numbers AB162220 (HSR203J-Cc), AB162221 (HIN1-Cc), AB162222 (PR1-Cc), and AB162223 (PR4b-Cc) 相似文献
3.
ABSTRACT The Capsicum spp. L genes (L(1) to L(4)) confer resistance to tobamoviruses. Currently, the L(4) gene from Capsicum chacoense is the most effective resistance gene and has been used widely in breeding programs in Japan which have developed new resistant cultivars against Pepper mild mottle virus (PMMoV). However, in 2004, mild mosaic symptoms began appearing on the leaves of commercial pepper plants in the field which possessed the L(4) resistance gene. Serological and biological assays on Capsicum spp. identified the causal virus strain as a previously unreported pathotype, P(1,2,3,4). PMMoV sequence analysis of the virus and site-directed mutagenesis using a PMMoV-J of the P(1,2) pathotype revealed that two amino acid substitutions in the coat protein, Gln to Arg at position 46 and Gly to Lys at position 85, were responsible for overcoming the L(4) resistance gene. 相似文献
4.
Takashi KOBORI Manabu MIYAGAWA Kunihiro NISHIOKA Satoshi T OHKI Takeshi OSAKI 《Journal of General Plant Pathology》2002,68(1):81-88
Local symptom expression and systemic movement of Cucumber mosaic virus (CMV) in Tetragonia expansa, Momordica charantia and Physalis floridana were mapped to the amino acid at position 129 of CMV coat protein (CP), using pseudorecombinants, chimeric RNAs, a site-directed
mutant of RNA 3 and four strains of CMV : pepo-, SO-, MY17- and Y-CMV. Local and systemic symptoms caused by three strains,
pepo-, SO- and MY17-CMV, and those by Y-CMV differed in the three host species. The three strains expressed local chlorotic
spots at 24°C and systemic chlorotic spots and ringspots at 36°C, whereas Y-CMV developed local necrotic spots at 24°C but
no systemic symptoms at 36°C in T. expansa. In M. charantia the three strains caused systemic chlorotic spots, whereas Y-CMV caused local necrotic spots. The three caused systemic mosaic
and Y-CMV systemic necrosis in P. floridana. With pseudorecombinants combined with pepo- and Y-CMV RNAs, CMV RNA 3 was responsible for symptom expression and systemic
infection. Inoculation with Y-CMV RNA 1, RNA 2 and chimeric RNA 3s exchanged CP gene fragments between pepo- and Y-CMV showed
that NruI-XhoI fragment of CP was essential for symptom expression. Comparative analysis of the NruI-XhoI fragments revealed that only the amino acid at position 129 was common among the three strains but different from that of
Y-CMV. Inoculation with a point mutant constructed by substituting one nucleotide resulting in an amino acid change from Ser
to Pro at position 129 in Y-CMV CP verified the previous experiments. These results indicate that the amino acid at position
129 of CMV CP is the determinant for local symptom expression and systemic movement in the three host species. CMV CP containing
Ser at position 129 may induce resistant responses in these plants.
Received 29 June 2001/ Accepted in revised form 28 August 2001 相似文献
5.
Yoshikatsu Genda Kyoko Sato Osamu Nunomura Tetsuo Hirabayashi Shinya Tsuda 《Journal of General Plant Pathology》2011,77(3):201-208
The location of Pepper mild mottle virus (PMMoV) within seeds as they developed on inoculated seedlings of pepper (Capsicum annuum) was followed over time by detecting the viral coat protein using immunofluorescence microscopy. Seedlings were inoculated
with PMMoV when the flower buds on the first and second branching nodes were in bloom. Fluorescence indicating the presence
of PMMoV was first observed around immature seeds and placentas in the ovaries on the fourth branching node at 20 days post-anthesis
(20 DPA), which corresponded to 39 days post-inoculation (39 DPI). The area with fluorescence gradually expanded from the
placenta into the integument and the parenchyma, and finally reached the tip of the immature seeds by 34 DPA (53 DPI). The
embryo or endosperm beyond the endothelium never fluoresced during the experiment [i.e., ending at 81 DPA (102 DPI)]. For
visualizing viral routes of invasion from seeds into new seedlings, PMMoV-infected C. annuum seeds that were heterozygous for the L
3
tobamovirus-resistance gene were sown in soil at 30°C. After ~2 weeks, the cotyledon developed virally induced necrosis.
These findings shed light on the infection cycle of PMMoV through vertical transmission in C. annuum. 相似文献
6.
Yoshikatsu Genda Kyoko Sato Osamu Nunomura Tetsuo Hirabayashi Jun Ohnishi Shinya Tsuda 《Journal of General Plant Pathology》2005,71(3):238-242
To clarify the mechanism of seed transmission of Pepper mild mottle virus (PMMoV), the virus was immunolocalized in Capsicum annuum seeds using fluorescence microscopy. Two distinct patterns were observed: In the first, PMMoV was present in the epidermis and parenchyma but not in the endosperm or embryo; in the second, the virus was restricted to the surface of the epidermis and parenchyma. These findings shed light on the fundamental mechanisms of seed transmission of tobamoviruses and may aid in the design of new methods to prevent the spread of seedborne virus diseases. 相似文献
7.
辣椒上烟草轻型绿花叶病毒的鉴定 总被引:2,自引:0,他引:2
辣椒源自南美洲,属于茄科辣椒属(Capsicum L.),为重要经济作物。病毒病是影响辣椒生产的主要病害,侵染辣椒的病毒有40余种[1],烟草轻型绿花叶病毒(Tobacco mild green mosaic virus, TMGMV)是近年来在辣椒上发生和危害报道较多的病毒之一。TMGMV是McKinney[2]于1935年在烟草属植物(Nicotiana gluanca)上首次发现的,为烟草花叶病毒属(Tobamovirus)成员。除辣椒外,番茄[3]、凤仙花、蓝眼菊和矮牵牛也是TMGMV的自然寄主。 相似文献
8.
Jun Ohnishi Katsuyuki Hirai Ayami Kanda Tomio Usugi Tetsuo Meshi Shinya Tsuda 《Journal of General Plant Pathology》2009,75(4):297-306
The L11Y strain of Tomato mosaic virus (ToMV) causes severe chlorosis on infected tobacco leaves. Sequencing analysis for the genome showed that L11Y contained multiple nucleotide changes and that some led to amino acid substitutions, when compared with that of the common
L strain of ToMV. The chimeric virus, which has the CP of L11Y in the context of the L strain RNA genome, caused severe chlorosis on infected tobacco plants, suggesting that the CP of
L11Y containing three amino acid changes (E33S, A86T and E97K) was the determinant of the chlorosis. Two of these amino acid
changes (A86T and E97K) were associated with the induction of chlorosis when present together in the CP. Severe destruction
and deformation of chloroplasts and the formation of discrete dark-staining materials adjacent to chloroplasts were observed
with electron microscopy in L11Y-infected plants. Fewer virus particles accumulated in the cytoplasm of L11Y-infected plant cells. The level of accumulation of CP subgenomic RNA and CP in the infected protoplasts was similar between
L and L11Y. Fewer virus particles accumulated in L11Y-infected protoplasts, and many of them were shorter-than-full-length.
The nucleotide sequence data reported is available in DDBJ/EMBL/GenBank databases as accession AB355139. 相似文献
9.
Kenji Kubota Tomio Usugi Yasuhiro Tomitaka Yosuke Matsushita Miyako Higashiyama Yoshitaka Kosaka Shinya Tsuda 《Journal of General Plant Pathology》2012,78(1):43-48
In 2010, severe necrotic mosaic disease and fruit distortion were observed on greenhouse-grown chili pepper (Capsicum annuum cv. Fushimi-amanaga) plants in Kyoto Prefecture, Japan. Electron microscopic imaging and genomic RNA sequencing indicated
that the virus responsible was a new isolate of Rehmannia mosaic virus (ReMV), which had not been previously reported in Japan.
Although ReMV systemically infected many Solanaceae species, including chili pepper and tomato (Solanum lycopersicum), tobamovirus-resistance genes from species of Capsicum (L
1a
, L
2
, L
3
, and L
4
) and tomato (Tm-1, Tm-2, and Tm-2
a
) conferred resistance against ReMV. 相似文献
10.
Hideki TAKAHASHI Mitsuhiro SUGIYAMA SUKAMTO Akira KARASAWA Shuu HASE Yoshio EHARA 《Journal of General Plant Pathology》2000,66(4):335-344
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 in vitro 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).
Received 15 December 1999/ Accepted in revised form 18 April 2000 相似文献
11.
Two important sources of Capsicum annuum (bell pepper) resistance were evaluated for their response to inoculation with two isolates of Tobacco etch virus strain NW (TEV‐NW, genus Potyvirus). The resistant cultivars were CA4 and Dempsey, which contain the pvr1 and pvr12 resistance genes, respectively. TEV‐NW was maintained by mechanical passage in the susceptible pepper cultivar Early Calwonder and Nicotiana tabacum cv. Kentucky 14. In initial experiments, the TEV‐NW isolate maintained in Early Calwonder infected two of seven CA4 plants; however, none of the CA4 plants inoculated with the TEV‐NW isolate maintained in Kentucky 14 were infected. The infected CA4 plants had low virus titres in non‐inoculated leaves and did not develop visible symptoms. When the infected CA4 plants were used as inoculum of additional CA4 plants, all newly inoculated plants became infected, developed systemic symptoms and accumulated virus in non‐inoculated leaves more quickly than the originally infected CA4 plants. This new NW isolate, referred to as NW‐CA4, was shown to overcome the resistances expressed by both CA4 (pvr1) and Dempsey (pvr12). The potyviral VPg is believed to be the determinant for pvr1 and pvr12 resistance genes, both of which are eIF4E‐encoding genes. The VPg amino acid sequence for NW‐CA4 was determined and compared with that of NW isolates and different TEV strains. No amino acid variation was identified that explained the infectivity of NW‐CA4 in CA4 and Dempsey plants. 相似文献
12.
An accession of Camelina microcarpa suspected to be resistant to sulfonylurea herbicides was identified in Oregon in 1998 field experiments. Greenhouse research confirmed that the putative resistant biotype was resistant to chlorsulfuron and metsulfuron on a whole plant level. Compared with the resistant (R) biotype, the susceptible (S) biotype was 1000 and 10 000‐fold more sensitive to metsulfuron and chlorsulfuron respectively. The R biotype was also resistant to other sulfonylurea, sulfonylaminocarbonyl‐triazolinone, imidazolinone and triazolopyrimidine herbicides. An in vivo enzyme assay indicated that acetolactate synthase (ALS) from the R plants required 111 times more chlorsulfuron to inhibit activity by 50% compared with the amount required to have a similar effect on ALS from S plants. Analysis of the nucleotide and amino acid sequences demonstrated that a single‐point mutation from G to T in the als1 gene conferred the change from the amino acid tryptophan to leucine at position 572 in the resistant biotype. This research confirmed that ALS inhibitor resistance in an Oregon accession of C. microcarpa is based on an altered target site conferred by a single‐point mutation. 相似文献
13.
14.
M. S. Kim M. J. Kim J. S. Hong J. K. Choi K. H. Ryu 《European journal of plant pathology / European Foundation for Plant Pathology》2010,127(1):53-61
The patterns and progress of disease caused by multiple infections of Cucumber mosaic virus (CMV), Pepper mild mottle virus (PMMoV) and Pepper mottle virus (PepMoV) and their effects on growth of pepper plants (Capsicum annuum L.) were investigated in this study. Each virus induced distinct symptoms, but more severe symptoms, including reduced growth
rates, were observed when pepper plants were simultaneously infected by more than one virus. When CMV was included in multiple
viral inoculations, co-inoculations and sequential inoculations, PepMoV and PMMoV symptoms were observed but the symptoms
characteristic of CMV were not masked, even though CMV titre did not increase greatly. In multiple viral infections, PepMoV
titre and CMV did not increase significantly, but PMMoV titre gradually increased in most cases. Growth rates of pepper plants
were greatly reduced during the 30 to 40-day post-inoculation period under both single-infection and multiple-infection conditions,
but multiple viral infections of CMV pre-inoculated peppers were affected to a greater extent. A significant reduction in
fruit size and fruit number was observed in single and multiple viral inoculations, and fruit malformation rates were high
in CMV single-infection and multiple viral infections with CMV. 相似文献
15.
16.
辣椒轻斑驳病毒(Pepper mild mottle virus,PMMoV)属于烟草花叶病毒属,是辣椒的重要病毒种类之一。将PMMoV的外壳蛋白(cp)基因克隆至原核表达载体pET32a(+)中,转化大肠杆菌BL21(DE3),经IPTG诱导,重组PMMoV CP蛋白以可溶形式表达,纯化后获得分子量约35 kDa的融合CP蛋白。以该重组蛋白为抗原免疫新西兰兔制备了PMMoV CP特异性抗血清。Western blot检测结果表明该抗血清与重组CP蛋白发生强烈的免疫反应,间接酶联免疫吸附测定(ID-ELISA)结果显示该抗血清针对重组CP蛋白的效价达1∶25 600,针对PMMoV病汁液的效价达1∶4 000,检测灵敏度为1∶3 200,且该抗血清不与PMMoV同属或不同属的其它6种病毒汁液发生免疫反应,具有较好的特异性。利用该抗血清对42份田间辣椒病样进行检测,阳性率达38%,与进口商品化试剂盒检测结果一致,说明该抗血清可用于PMMoV的ELISA诊断。 相似文献
17.
Takahide SASAYA Gabriela DUJOVNY Hiroki KOGANEZAWA 《Journal of General Plant Pathology》2000,66(3):251-253
The 2326 nucleotides of the 3′-terminal region of Carnation vein mottle virus (CVMV) RNA, which included part of the nuclear inclusion b gene, the complete coat protein (CP) gene and the entire 3′-noncoding
region (3′-NCR) were determined. The region encoding the CP gene is 843 nucleotides long and the deduced protein consists
of 280 amino acids. A search of the EMBL and PIR databases showed that the amino acid sequence of CVMV CP most resembled that
of Plum pox virus with a similarity of 67.9%. The 3′-NCR of CVMV RNA is 541 nucleotides long, second longest in the genus Potyvirus. These results indicate that CVMV is closely related to Plum pox virus but is a distinct species in the genus Potyvirus.
Received 8 October 1999/ Accepted in revised form 9 January 2000 相似文献
18.
Hashim S Jan A Sunohara Y Hachinohe M Ohdan H Matsumoto H 《Pest management science》2012,68(3):422-429
BACKGROUND: Trifluralin‐resistant biotypes of water foxtail (Alopecurus aequalis) have been identified in wheat fields from northern Kyushu, Japan. Water foxtail is a winter‐annual grassy weed, causing substantial crop losses. This study reports on mutation in α‐tubulin (TUA) genes from water foxtail, the site of action of trifluralin. RESULTS: Two trifluralin‐sensitive (S) Chikugo and Ukiha biotypes and four trifluralin‐resistant (R) Asakura‐1, Asakura‐2, Tamana and Tosu biotypes of water foxtail were used for herbicide resistance analysis. R biotypes showed 5.7–30.7‐fold trifluralin resistance compared with the S biotypes. No differences in the uptake and translocation of 14C‐trifluralin were observed between Chikugo (S) biotype and Asakura‐1 (R) biotype. Most of the 14C detected in the plant material was in the root tissue, and no substantial increases were noted in shoot tissues. Comparative TUA sequence analysis revealed two independent single amino acid changes: change of Val into Phe at position 202 in TUA1 and change of Leu into Met at position 125 in TUA3 in Asakura‐1 biotype. In the Tamana (R) biotype, two amino acid changes of Leu to Phe at position 136 and Val to Phe at position 202 were observed in the predicted amino acid sequence of TUA1, compared with Chikugo (S) biotype. CONCLUSION: The results provide preliminary molecular explanation for the resistance of water foxtail to trifluralin, a phenomenon that has arisen as a result of repeated exposure to this class of herbicide. This is the first report of α‐tubulin mutation in water foxtail and for any Alopecurus species reported in the literature. Copyright © 2011 Society of Chemical Industry 相似文献
19.
Effect of temperature on resistance to Potato virus Y in potato cultivars carrying the resistance gene Rychc 
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下载免费PDF全文 The effect of cultivation temperatures on the resistance reaction to three Potato virus Y strains (PVYO, PVYN and PVYNTN) in potato cultivars carrying Rychc was examined. When potato plants carrying Rychc were cultivated at 22 °C, a few small necrotic spots developed on inoculated leaves by 5 days after mechanical inoculation (dpi), and systemic infection of a few symptomless plants was confirmed at 28 dpi by IC‐RT‐PCR. At 28 °C, distinct necrotic spots developed on inoculated leaves by 5 dpi, and systemic symptoms occasionally appeared at 28 dpi. Thus, high temperature weakens Rychc‐conferred resistance. However, the incidence of systemic infection and the titre of virus in resistant cultivars at 28 °C were lower than in a susceptible cultivar. In graft inoculation under high summer temperatures, some plants developed necrosis on the leaves and stem, but PVY was barely detected by RT‐PCR in leaves on potato carrying Rychc. When seedlings from progeny tubers of plants that were inoculated with PVY and grown in a greenhouse at >30 °C in the daytime were examined by ELISA and IC‐RT‐PCR, PVY was not detected in cultivars carrying Rychc. These results show that Rychc confers an extreme resistance to PVY strains occurring in Japan. 相似文献
20.
Distribution and molecular characterization of Corynespora cassiicola isolates resistant to boscalid
T. Miyamoto H. Ishii G. Stammler A. Koch T. Ogawara Y. Tomita J. M. Fountaine S. Ushio T. Seko S. Kobori 《Plant pathology》2010,59(5):873-881
A total of 618 isolates of corynespora leaf spot fungus (Corynespora cassiicola) collected from 24 commercial cucumber greenhouses in 12 cities in Ibaraki Prefecture, Japan, were tested for their sensitivity to boscalid. Boscalid‐resistant isolates were detected in 17 out of 19 greenhouses with a history of use of this fungicide and detection frequencies of the resistant isolates exceeded 47% in nine greenhouses. Frequencies of very highly resistant (VHR) isolates with 50% effective concentration (EC50) values of boscalid exceeding 30 μg mL?1 were higher than those of moderately resistant (MR) isolates with EC50 ranging from 2·0 to 5·9 μg mL?1 in 11 greenhouses. Additionally, highly resistant (HR) isolates with EC50 from 8·9 to 10·7 μg mL?1 were first detected. Furthermore, molecular characterization of genes encoding succinate dehydrogenase (SDH) subunits (SdhA, SdhB, SdhC and SdhD) was carried out to elucidate the amino acid substitution responsible for the resistance to boscalid. All 23 VHR isolates had the same mutation from CAC to TAC in the SdhB gene leading to the substitution of histidine with tyrosine at amino acid position 278 (B‐H278Y). At the same position, the substitution to arginine conferred by a mutation to CGC (B‐H278R) was detected in all four HR isolates. Some MR isolates showed a substitution from serine to proline at position 73 in SdhC (C‐S73P), from serine to proline or from glycine to valine at position 89 (D‐S89P) and 109 (D‐G109V), respectively, in SdhD. There was no common mutation in SDH genes of all MR isolates. 相似文献