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1.
Lettuce mosaic virus 总被引:10,自引:1,他引:10
Lettuce mosaic virus (LMV) is an economically significant virus of lettuce and endive. The virus has spread world-wide due to the exchange of seed of lettuce varieties. A very high proportion of infected plants may result from a low level of infected seed, because of very efficient transmission by a number of aphid species. The symptoms are characteristic but the diagnosis can be difficult, particularly on lettuce, because numerous viruses may coinfect this species. A very reliable and sensitive method by ELISA has been established for diagnosis and detection, which gives a good estimation ofthe contamination level in a seed batch. The use of virus-free seed, preventive cultural practices and the use of tolerant varieties were shown to be good methods for control if rigorously applied. Up to now, strains able to overcome the genes g and mo, considered to be identical, were shown to be non-seed-transmissible. Studies carried out with several virulent isolates have shown that genes mo and g are different and probably allelic, and that one strain infects seed at a very high level on susceptible and tolerant genotypes. These features have necessitated the production of virus-free seed, including systematic checks on all cultivars, and have stimulated research on new sources of resistance. Recent molecular studies have provided clones for detection and strain differentiation. Assays to introduce different LMV genes into lettuce seem promising. 相似文献
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The response to infection with lettuce mosaic virus (LMV) of 16 lettuce cultivars, known to possess the Momo gene for resistance to LMV, was studied in field trials over a 2-year period. Some cultivars developed negligible mosaic symptoms following virus inoculation and had a low virus content as measured by ELISA, while others had more severe symptoms and a higher virus content. Resistant cultivars differed significantly in the effect of LMV upon yield and the correlation between cultivar rankings for yield depression and symptom severity was low. 相似文献
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Krause-Sakate R Le Gall O Fakhfakh H Peypelut M Marrakchi M Varveri C Pavan MA Souche S Lot H Zerbini FM Candresse T 《Phytopathology》2002,92(5):563-572
ABSTRACT Lettuce mosaic virus (LMV) causes an economically important seedborne and aphid-transmitted disease of lettuce and ornamental crops worldwide. The genetic diversity among 73 LMV isolates was examined based on a 216-nucleotide sequence at the variable region encoding the NIb-coat protein junction. Three clusters of LMV isolates were distinguished: LMV-Yar, LMV-Greek, and LMV-RoW. In the latter cluster, two subgroups of isolates, LMV-Common and LMV-Most, accounted for a large proportion of the LMV isolates analyzed. These two subgroups included the seedborne isolates, consistent with this property contributing a selective advantage and resulting in widespread distribution. In addition to being seedborne, LMV-Most isolates overcome the two resistance genes commonly used in lettuce, mo1(1) and mo1(2), and thus represent a potential threat to lettuce cultivation. The complete sequence of an LMV-Most isolate (LMV-AF199) was determined, allowing a better definition of the genetic relationships among LMV-Most, LMV-Common, and an additional isolate of the LMV-RoW cluster. 相似文献
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Differentiation of pathotypes of lettuce mosaic virus 总被引:2,自引:0,他引:2
Differential interactions between six crisphead cultivars of lettuce and five isolates of lettuce mosaic virus (LMV) have identified a novel resistance factor in the cultivar Ithaca. The LMV isolates could be grouped into three pathotypes, two of which have not been identified previously. One of these, pathotype III represented by an isolate from Spain, was virulent on all of the cultivars. There were differences in aggressiveness between isolates of the same pathotype. 相似文献
5.
The interaction of beet western yellows virus (BWYV), lettuce mosaic virus (LMV) and cucumber mosaic virus (CMV) has been studied in lettuce cultivars Little Gem and Saladin. LMV infection alone or in combination with BWYV and or CMV caused the most severe symptoms and yield losses in both cultivars. BWYV caused more severe reactions in Little Gem than in Saladin; the reactions caused by CMV were mild in both cultivars. The interaction between BWYV and CMV infection resulted in a significantly greater yield loss in both cultivars than that caused by BWYV or CMV infection alone. 相似文献
6.
L. Bos N. Huijberts C. Cuperus 《European journal of plant pathology / European Foundation for Plant Pathology》1994,100(5):293-314
Two potyvirus isolates from endive, originating from southern France (Ls252) and from the Netherlands (Ls265), that were highly and poorly pathogenic on lettuce, respectively, were compared with a common isolate (Ls1) of lettuce mosaic virus (LMV) and with two highly deviant Greek isolates fromHelminthia (Picris) echioides (Gr4) and endive (Gr5), earlier recognized as LMV. The isolates could not be distinguished by particle morphology and serology, and were all identified as LMV. Leaf curling, plant stunting and necrosis were more characteristic of the virus than mosaic. The isolates studied varied considerably on differential host species and a range of lettce cultivars including pathotype differentials of Pink et al. [1992b]. Ls1 and Ls265 reacte largely as pathotype II, including the common strain of the virus, but Ls265 was least pathogenic on lettuce. Ls252 fitted pathotype IV and was very similar to LMV-E (the Spanish strain). The Greek isolates were very similar to each other in causing very severe symptoms on some non-lettuce hosts and a number of lettuce cultuvars. In lettuce variectal reaction Gr4 resembled pathotype I, but Gr5 severely affected Salinas 88, resistant to pathotypes I, II and III, and it appears to be a novel pathotype. Genetic interaction between lettuce and LMV is not following a simple yes-or-no pattern, and it is not a mere matter of resistance versus susceptibility. Adoption of a more realistic resistance terminology is proposed. None of the lettuce cultivars tested was resistant to the most pathogenic isolate Ls252, but resistance to it was found in 2 out of 12 wildLactuca species tested (Lactuca perennis andL. tatarica) while the symptomless plants ofL. perennis clearly reacted in ELISA. 相似文献
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S. Dinant C. Kusiak B. Cailleteau J.L. Verrier M.C. Chupeau Y. Chupeau Thi Anh Hong Le R. Delon J. Albouy 《European journal of plant pathology / European Foundation for Plant Pathology》1998,104(4):377-382
Commercial tobacco cultivars BB16 (burley) and PBD6 (dark air cured) were transformed with the coat protein gene of lettuce mosaic potyvirus (LMV). Transgenic BB16 plants showed resistance to potato virus Y (PVY) infection, against the necrotic strain PVY-N Versailles, as well as the resistance breaking necrotic strain PVY-N 107. Transgenic PBD6, which carries the recessive va gene conferring resistance to PVY, was also protected against PVY-N 107. In the progenies of most BB16 and PBD6 transformants, 45% to 100% of the inoculated plants were immune to PVY infection. The rest of the plants were tolerant, with atypical attenuated non necrotic symptoms and reduced virus accumulation. No recovery was observed in the tolerant plants, which stably expressed detectable level of LMV coat protein. This suggested a protein-mediated mechanism of heterologous protection. 相似文献
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H. Huttinga W. H. M. Mosch 《European journal of plant pathology / European Foundation for Plant Pathology》1974,80(1):19-27
The buoyant densities of bean yellow mosaic virus (BYMV) B25, pea mosaic virus (PMV) E198, lettuce mosaic virus (LMV), and potato virus YN (PVYN) were 1.318, 1.321, 1.330, and 1.326 g/ml, respectively. Their S values were 143, 140, 143, and 145 S. The particle morphology of BYMV B25, PMV E198, and LMV could reversibly be changed by magnesium ions. PVYN particles were broken in the presence of magnesium ions. The molecular weight of the coat protein subunit of the four viruses was 34,000 daltons. In many preparations also a 28,000 daltons component was present. This must be considered to be a breakdown product, derived from the 34,000 daltons component by proteolytic activity.Samenvatting De zweefdichtheden van het bonescherpmozaiekvirus (BYMV) B25, het erwtemozaiekvirus (PMV) E198, het slamozaïekvirus (LMV) en het aardappelvirus YN (PVYN) bedroegen respectievelijk 1,318, 1,321, 1,330 en 1,326 g/ml. Hun sedimentatiecoëfficiënten waren 143, 140, 143 en 145 S. De deeltjesvorm van BYMV B25, PMV E198 en LMV kon reversibel worden veranderd door toevoeging en verwijdering van magnesium-ionen. Deze induceerden het optreden van breuken in de deeltjes van PVYN. Het molecuulgewicht van de manteleiwiteenheid van de vier virussen bedroeg 34.000 daltons. In veel preparaten was bovendien een component van 28.000 daltons aanwezig. Deze moet worden beschouwd, als een proteolytisch afbraakprodukt dat ontstaat uit de component van 34.000 daltons. 相似文献
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J. W. L. Van Vuurde D. Z. Maat 《European journal of plant pathology / European Foundation for Plant Pathology》1985,91(1):3-13
Two modifications of ELISA and DIA were compared in relation to sensitivity of detection of two plant viruses and suitability for large-scale routine testing. DIA is a solid phase immuno assay like ELISA, in which the enzyme conjugate is replaced by a dye sol conjugate and substrate incubation is replaced by immediate dissolving of the dye molecules from the conjugate with an organic solvent. Sample and conjugate were incubated separately (ELISA 1, DIA 1) or simultaneously (ELISA 2, DIA 2). The seed-borne viruses viz. lettuce mosaic virus (LMV) and pea early-browning virus (PEBV) were subjected to the assays. DIA detected LMV in a purified extract ofNicotiana benthamiana. However, compounds present in crude virus-free and virus-containing plant extracts strongly interfered with DIA, necessitating adaptation of DIA to plant viruses in crude extracts.With the extracts of lettuce and pea seeds ELISA 2, in comparison with ELISA 1, resulted in equal (LMV) or slightly higher (PEBV) extinction values and in a higher ratio between extinction values of virus-containing and virus-free samples. The higher sensitivity of ELISA 2 in combination with its higher efficiency as a result of simultaneous sample and conjugate incubation, indicates the potential of this method for large-scale indexing.Samenvatting Twee modificaties van ELISA en DIA werden vergeleken met betrekking tot hun gevoeligheid voor het aantonen van twee plantevirussen en hun geschiktheid voor routinematige toepassing. DIA is een serologische toetsmethode die veel overeenkomst vertoont met ELISA, maar waarin het enzymconjugaat is vervangen door een conjugaat met gedispergeerde kleurstofdeeltjes en de incubatie met enzym-substraat door het direct oplossen van de kleurstofmoleculen van het conjugaat met een organisch oplosmiddel. Incubatie van monster en conjugaat vond zowel gescheiden (ELISA 1, DIA 1) als gelijktijdig (ELISA 2, DIA 2) plaats. Twee met zaad overgaande virussen, te weten slamozaïekvirus (LMV) en vroege-verbruiningsvirus van erwt (PEBV) werden bij het onderzoek betrokken. Met DIA kon LMV worden aangetoond in een gezuiverd extract vanNicotiana benthamiana. In ruwe planteëxtracten bleken echter stoffen voor te komen die in DIA sterke niet-specifieke reacties tot gevolg hadden. Verder onderzoek is dan ook noodzakelijk om DIA geschikt te maken voor het aantonen van plantevirussen in ruwe extracten van planten. Betere resultaten werden verkregen met de beide ELISA-modificaties. Met de extracten uit slazaad en erwtezaad gaf ELISA 2 vergelijkbare (LMV) of iets hogere (PEBV) extinctiewaarden dan ELISA 1. Bovendien was de verhouding tussen de extinctiewaarden van virusziek materiaal en die van virusvrij materiaal, bij ELISA 2 hoger dan bij ELISA 1. De grotere gevoeligheid van ELISA 2 en de grotere doelmatigheid ten gevolge van de gelijktijdige incubatie van monster en conjugaat duiden op de bijzondere geschiktheid van deze methode voor routinematige toepassing op grote schaal. 相似文献
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In Germany the furovirus Soil-borne cereal mosaic virus (SBCMV) and the bymovirus Wheat spindle streak mosaic virus (WSSMV) occur often together particularly in several rye production areas. Soil-borne wheat mosaic virus (SBWMV), a wheat infecting furovirus, has so far been found only in one field near Heidelberg. Each of these viruses is transmitted by Polymyxa graminis. The cultivation of resistant varieties is the only promising measure to prevent yield losses caused by soil-borne viruses. Resistance of wheat against the bymovirus WSSMV is comparable to the immunity of barley to the bymoviruses Barley yellow mosaic virus and Barley mild mosaic virus. In case of immunity no virus multiplication is observed in resistant cultivars. In contrast, all wheat cultivars are hosts of the furoviruses. All cultivars – including the resistant ones – can be infected following mechanical inoculation with SBWMV and SBCMV. Resistance to furoviruses is based on reduced levels of virus multiplication in roots and on inhibition of virus movement from roots to leaves. Because of the inhibited virus movement from roots to aerial parts of plants this type of resistance is referred to as translocation resistance. In spite of the different resistance mechanisms the absence of virus symptoms on the leaves is a common selection criterion for both immunity and translocation resistance. Therefore, the symptom free development of plants on uniformly infested fields is the best criterion for selecting wheat lines with resistance to soil-borne viruses. The limited suitability of other selection methods is discussed. 相似文献
15.
Molecular and biological characterization of two potyviruses infecting lettuce in southeastern France 
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下载免费PDF全文 C. Desbiez A. Schoeny B. Maisonneuve K. Berthier I. Bornard C. Chandeysson F. Fabre G. Girardot P. Gognalons H. Lecoq H. Lot P. Millot K. Nozeran V. Simon M. Tepfer E. Verdin C. Wipf‐Scheibel B. Moury 《Plant pathology》2017,66(6):970-979
Several potyviruses affect lettuce (Lactuca sativa) and chicory (Cichorium spp.) crops worldwide and are important constraints for production because of the direct losses that they induce and/or because of their seed transmission. Here, the molecular and biological properties are described of two potyviruses that were recently isolated from lettuce plants showing mosaic or strong necrotic symptoms in an experimental field in southeastern France. The first potyvirus belongs to the species Endive necrotic mosaic virus and is present in a large number of wild plant species, especially Tragopogon pratensis. It is unable to infect lettuce cultivars with a resistance to Turnip mosaic virus that is present in many European cultivars and probably conferred by the Tu gene. The second potyvirus belongs to the tentative species lettuce Italian necrotic virus and was not observed in wild plants. It infected all tested lettuce cultivars. Wild accessions of Lactuca serriola, Lactuca saligna, Lactuca virosa and Lactuca perennis were identified as resistant to one or the other potyvirus and could be used for resistance breeding in lettuce. No resistance against these two potyviruses was observed in the tested Cichorium endivia cultivars. In contrast, all tested Cichorium intybus cultivars or accessions were resistant. 相似文献
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ABSTRACT Big-vein disease occurs on lettuce worldwide in temperate conditions; the causal agent has been presumed to be Lettuce big-vein virus (LBVV), genus Varicosavirus, vectored by the soilborne fungus Olpidium brassicae. Recently, the role of LBVV in the etiology of big-vein disease has been questioned because a second soilborne virus, Mirafiori lettuce virus (MiLV), genus Ophiovirus, has been found frequently in big-vein-affected lettuce. LBVV and MiLV, detectable and distinguishable by enzyme-linked immunosorbent assay using specific antisera, were tested for their ability to be transmitted from lettuce to lettuce by mechanical inoculation of sap extracts, or by zoospores of O. brassicae, and to cause big-vein disease. Both viruses were mechanically transmissible from lettuce to herbaceous hosts and to lettuce, but very erratically. LBVV was transmitted by O. brassicae but lettuce infected with only this virus never showed symptoms. MiLV was transmitted in the same manner, and lettuce infected with this virus alone consistently developed big-vein symptoms regardless of the presence or absence of LBVV. With repeated mechanical transmission, isolates of both viruses appeared to lose the ability to be vectored, and MiLV appeared to lose the ability to cause big-vein symptoms. The recovery of MiLV (Mendocino isolate, from Cali-fornia) from stored O. brassicae resting spores puts the earliest directly demonstrable existence of MiLV at 1990. 相似文献
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Piero Roggero Hervé Lot Sylvie Souche Riccardo Lenzi Robert G. Milne 《European journal of plant pathology / European Foundation for Plant Pathology》2003,109(3):261-267
Big-vein disease (BV) of lettuce has been attributed to infection by Lettuce big-vein virus (LBVV), vectored by the soil fungus Olpidium brassicae. The finding of a second soil-borne virus in lettuce, Mirafiori lettuce virus (MiLV), led to a re-investigation of the role of LBVV in big-vein disease, with evidence emerging that both MiLV and LBVV are vectored by O. brassicae, and that MiLV, not LBVV, is the cause of BV (Lot et al. (2002), Phytopathology 92: 288–293). The two viruses have coat proteins of similar size but have different morphologies and are serologically unrelated. We tested individual lettuce plants in BV-prone fields and protected crops in France and Italy for the presence of the two viruses, using DAS-ELISA and antisera specific for each virus. Both MiLV and LBVV were found at high incidence, often together but sometimes separately. Symptoms were frequently found to be associated with MiLV alone or both viruses, but rarely LBVV alone. However, no absolute correlation emerged, because sometimes MiLV was present in the absence of symptoms, and vice versa. To clarify the situation, individual lettuce plants were examined over a period of time in two further surveys. In surveys of protected crops in France, plants with big-vein were always ELISA-positive for MiLV, or else symptomless plants positive for MiLV were later seen to develop big-vein symptoms. Presence or absence of LBVV appeared to have no effect on symptom development. In surveys of open fields in Italy, all combinations were found: presence of both viruses, apparent absence of both viruses, or presence of each one alone, in plants that developed BV. At the end of the observation period, nearly all plants had BV and contained both viruses. 相似文献
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W. HUTH 《EPPO Bulletin》1989,19(3):547-553
During the last ten years yellow mosaic of barley has been spreading more and more in European countries and in some infested areas yield loss can only be prevented by growing resistant cultivars. Breeding of such cultivars is one of the most important goals of small-grain breeders. To select resistant cultivars, several methods are available such as mechanical inoculation, growing of plants in infested soil in the field or in growth chambers as well as using root powder of infected plants. The situation has recently been complicated by the discovery that yellow mosaic is caused by at least two distinct but closely related viruses (barley yellow mosaic virus and barley mild mosaic virus). Inoculation methods are not equally effective for these two viruses. Although it appeared initially that resistance to the two viruses was linked, there are now indications that some barley cultivars respond differently, and there may even be a third virus involved. Programmes for selection of resistant cultivars now have to take account of this. 相似文献
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通过禾谷多粘菌Polymyxa graminis L.休眠孢子分离接种感病大麦品种,并进行砂培养,获得13个纯化了的禾谷多粘菌分离物,且其中3个带有大麦黄花叶病毒(BaYMV)。用分别带有BaYMV和大麦温和花叶病毒(BMMV)的英国禾谷多粘菌分离物的游动孢子接种13个中国大麦品种,以及用BaMMV摩擦接种36个中外大麦品种,抗性鉴定结果游动孢子接种与摩擦接种一样,均与田间鉴定结果一致,且大麦对BaYMV的抗性与对BaMMV的抗性一致,从而这2种接种方法可用于大麦品种(系)和育种中间体对BaYMV抗性的快速鉴定和筛选。游动孢子或休眠孢子接种方法还可有效地鉴定大麦对禾谷多粘菌的抗性。 相似文献