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1.
B. Schneider C. Marcone M. Kampmann A. Ragozzino W. Lederer M.-T. Cousin E. Seemüller 《European journal of plant pathology / European Foundation for Plant Pathology》1997,103(8):675-686
Restriction fragment length polymorphism and sequence analysis of PCR-amplified ribosomal DNA were used to identify and classify phytoplasmas associated with diseases of various wild and cultivated plants. The diseases examined were either not known before or the presumable causal agents were not yet identified and characterized or were only known from other geographic areas. New diseases examined were those causing virescence and phyllody of Bunias orientalis and Cardaria draba. Both were associated with strains of the aster yellows phytoplasma. The same type of aster yellows phytoplasma was also found to be associated with yellows and phyllody diseases of Portulaca oleracea, Stellaria media, Daucus carota ssp. sativus, and Cyclamen persicum. In German and French DNA samples from diseased Trifolium repens, the clover phyllody phytoplasma was identified, which could clearly be distinguished from other phytoplasmas of the aster yellows group. Strains of the stolbur phytoplasma were detected in big bud-affected tomatoes and almost exclusively in Convolvulus arvensis. In Cirsium arvense and Picris echioides two distinct phytoplasmas were identified which showed relationship to the sugarcane white leaf phytoplasma group but may represent a new group or subgroup. In Conyza (syn.: Erigeron) canadensis a phytoplasma of the X-disease group was detected. A strain from Gossypium hirsutum showed the same restriction profiles as the faba bean phyllody phytoplasma. 相似文献
2.
Yellows-diseased plants of Crepis setosa (hawksbeard), Knautia arvensis (field scabious), Convolvulus arvensis (field bindweed), Picris echioides (bristly oxtongue), Echium vulgare (blueweed) and Calendula officinalis (pot marigold) collected in central and southern Italy were examined for phytoplasma infection by means of polymerase chain reaction (PCR) technology using universal phytoplasma primers directed to ribosomal sequences. The detected phytoplasmas were characterized and differentiated using restriction fragment length polymorphism analysis of PCR-amplified DNA. The phytoplasma detected in diseased pot marigold plants was identified as a member of the aster yellows group and proved indistinguishable from a strain of the American aster yellows phytoplasma. The phytoplasma identified in diseased field bindweed plants is a putative new type of the stolbur group that differed from the typical stolbur phytoplasma. Phytoplasmas detected in diseased hawksbeard, blueweed and field scabious plants are all putative new members of the sugarcane white leaf group while the phytoplasma detected in diseased bristly oxtongue plants represents a new member of the faba bean phyllody group. For hawksbeard and field scabious this is the first report on the occurrence of phytoplasma diseases, whereas phytoplasmas infecting bristly oxtongue and blueweed have never been characterized before. 相似文献
3.
The genetic relatedness of phytoplasmas associated with dieback (PDB), yellow crinkle (PYC) and mosaic (PM) diseases in papaya was studied by restriction fragment length polymorphism (RFLP) analysis of the 16S rRNA gene and 16S rRNA/23S rRNA spacer region (SR). RFLP and SR sequence comparisons indicated that PYC and PM phytoplasmas were identical and most closely related to members of the faba bean phyllody strain cluster. By comparison the PDB phytoplasma was most closely related to Phormium yellow leaf (PYL) phytoplasma from New Zealand and the Australian grapevine yellows (AGY) phytoplasma from Australia. These three phytoplasmas cluster with the stolbur and German grapevine yellows (VK) phytoplasmas within the aster yellows strain cluster. Primers based on the phytoplasma tuf gene, which amplify gene products from members of the AY strain cluster, also amplified a DNA product from the PDB phytoplasma but not from either the PYC or PM phytoplasmas. Primers deduced from the 16S rRNA/SR selectively amplified rDNA sequences from the PDB and AGY phytoplasmas but not from other members of the stolbur strain cluster. Similarly, primers designed from 16S rRNA/SR amplified rDNA from the PYC and PM phytoplasmas but not from the PDB phytoplasma. These primers may provide for more specific detection of these pathogens in epidemiological studies. 相似文献
4.
Manabu KUSUNOKI Toshiki SHIOMI Motowo KOBAYASHI Torao OKUDAIRA Akihiro OHASHI Teruo NOHIRA 《Journal of General Plant Pathology》2002,68(2):147-154
Phytoplasmas causing a severe decline of three tree species, i.e., Rhus javanica, Hovenia tomentella and Zizyphus jujuba, in Japan were examined for their transmissibility by a leafhopper species Hishimonus sellatus, and for their phylogenetic relatedness. By H. sellatus, Rhus yellows (RhY) phytoplasma was transmissible to white clover and periwinkle seedlings, causing typical symptoms in these
plants. Jujube witches' broom (JWB) phytoplasma was also transferred to the host plant, Z. jujuba, by the leafhopper. Because JWB phytoplasma was transmitted to Hovenia tomentella and caused the same symptoms as Hovenia witches' broom (HWB), JWB phytoplasma may be very closely related to HWB phytoplasma.
RFLP analysis of the PCR products of 16S rDNA revealed that RhY phytoplasma belongs to the Aster yellows (AY) group, and JWB
and HWB phytoplasmas belong to a different group (possibly Elm yellows group). Thus, we found that one species of leafhopper
can carry phylogenetically distant phytoplasmas.
Received 23 April 2001/ Accepted in revised form 29 October 2001 相似文献
5.
I.-M. Lee M. Pastore M. Vibio A. Danielli S. Attathom R.E. Davis A. Bertaccini 《European journal of plant pathology / European Foundation for Plant Pathology》1997,103(3):251-254
A phytoplasma was detected in annual blue grass (Poa annua L. Fienardo), exhibiting white leaf symptoms, that was grown in the fields near Caserta in southern Italy. Based on restriction fragment length polymorphism analysis of PCR-amplified 16S rDNA sequences, the phytoplasma associated with annual blue grass white leaf disease was identified as a new member of phytoplasma 16S rRNA group XI (16SrXI) (type strain, rice yellow dwarf phytoplasma). The annual blue grass white leaf phytoplasma is most closely related to Bermuda grass white leaf phytoplasma found in Asia. Annul blue grass white leaf and Bermuda grass white leaf phytoplasmas were designated as the third subgroup (16SrXI-C) of group XI. This is the first report that a plant pathogenic phytoplasma belonging to group 16SrXI is present on the European continent. 相似文献
6.
Fu-Lin Chang Ching-Chung Chen Chan-Pin Lin 《European journal of plant pathology / European Foundation for Plant Pathology》1995,101(5):511-518
One stable hybridoma clone, 247B11, secreting specific monoclonal antibody (MA) against the mycoplasmalike organism (MLO), newly be termed phytoplasma, associated with rice yellow dwarf (RYD) was produced by employing an immunization scheme for inducing the immunological tolerance of mice to rice antigens prior to the administration of RYD-phytoplasma immunogens. Neonatal BALB/c mice were first injected with nontarget rice antigens present in the immunogen preparation and were immunized intrasplenically with RYD-phytoplasmaenriched antigens prepared by Percoll density-gradient fraction 6 wk later. The MA was of the IgG1 class. With this MA, RYD-phytoplasma in diseased rice was specifically detected by indirect enzyme-linked immunosorbent assay (ELISA), immunofluorescent staining and tissue-blotting techniques. Antibody titer determined by indirect ELISA for hybridoma-culture supernatant was 5120. The antibody recognized two polypeptides, 16 kDa and 41 kDa of RYD-phytoplasma determined by western blotting. RYD-phytoplasma was differentiated serologically from the phytoplasmas associated with sweetpotato, peanut, loofah, paulownia, andIpomoea obscura witches' broom, aster yellows (NJ strain), elm yellows, and sugarcane white leaf both in indirect ELISA and immunofluorescent staining. 相似文献
7.
The elongation factor Tu (tuf) gene from nine Japan phytoplasma isolates was amplified with the polymerase chain reaction, and the DNA sequences of the tuf gene were determined. The tuf gene from 14 phytoplasma isolates, including reference isolates and other bacteria, were phylogenetically analyzed. A nucleotide sequence of the tuf gene among seven aster yellows group (16Sr I-B and I-D) phytoplasmas had 97%–100% similarity, and the tuf gene of two phytoplasmas of the X-disease group (16Sr III-B) had 99% similarity. The tuf genes had lower homology than did the 16S rRNA gene in the phytoplasma groups. A phylogenetic tree of amino acid sequences of the tuf gene was nearly equal to that of the 16S rRNA gene but differed somewhat from the tree based on the 16S rRNA gene in that paulownia witches broom (PaW: 16Sr I-D) and American aster yellows (AAY: 16Sr I-B) were in a subclade.The nucleotide sequence data reported are available in the DDBJ/EMBL/GenBank databases under the accession numbers AB095495, AB095667, AB095668, AB095669, AB095670, AB095671, AB095672, AB095673 and AB095674 相似文献
8.
X. Daire D. Clair W. Reinert E. Boudon-Padieu 《European journal of plant pathology / European Foundation for Plant Pathology》1997,103(6):507-514
Primer pairs were designed from a cloned DNA probe of a strain of flavescence dorée (FD) phytoplasma and from a cloned DNA probe of a strain of stolbur phytoplasma. Among an array of reference phytoplasma strains maintained in periwinkle, pair FD9f/r amplified a 1.3 kb DNA fragment only with phytoplasma strains of elm yellows (EY) group, i.e. two strains of FD and two strains of EY. Tru9I restriction analysis of the fragment amplified by FD9f/r revealed a diversity among EY-group phytoplasmas. The FD strains differed from the strains isolated from elm. The profile of the phytoplasmas infecting the grapevine samples from Catalonia and most of the samples from Northern Italy were identical to that of a FD strain. Three other profiles were detected in grapevine from Palatinate, in Germany.The two primer pairs derived from a stolbur strain, STOL4f/r and STOL11f2/r1, specifically amplified a 1.7 kb and a 0.9 kb DNA fragment, respectively, with all strains in the stolbur subgroup. However, the pair STOL4f/r did not recognise strain MOL. Both pairs allowed to detect phytoplasmas in diseased grapevines from France, Italy, Spain and Israel. Attempts to differentiate between phytoplasmas in the stolbur subgroup by restriction analyses failed. The pairs FD9f/r and STOL11f2/r1 could be used in the same reaction (multiplex PCR) to detect EY-group phytoplasmas, stolbur-subgroup phytoplasmas or both phytoplasmas simultaneously when template DNAs were mixed. 相似文献
9.
Jung Hee-Young Yae Mi-Chi Lee Joon-Tak Hibi Tadaaki Namba Shigetou 《Journal of General Plant Pathology》2003,69(3):208-209
This is the first report of a phytoplasma in porcelain vine [Ampelopsis brevipedunculata var. heterophylla (Thunb.) Hara.] with severe witches' broom symptoms in Korea. On the basis of the polymerase chain reaction-amplified ribosomal
DNA, the phytoplasma infecting porcelain vine was classified as a member of the aster yellows subgroup.
Received: October 21, 2002 / Accepted: December 20, 2002 相似文献
10.
Wei W Kakizawa S Jung HY Suzuki S Tanaka M Nishigawa H Miyata S Oshima K Ugaki M Hibi T Namba S 《Phytopathology》2004,94(7):683-686
ABSTRACT Antisera raised against phloem-limited phytoplasmas generally react only with the phytoplasma strain used to produce the antigen. There is a need for an antiserum that reacts with a variety of phytoplasmas. Here, we show that an antiserum raised against the SecA membrane protein of onion yellows phytoplasma, which belongs to the aster yellows 16S-group, detected eight phytoplasma strains from four distinct 16S-groups (aster yellows, western X, rice yellow dwarf, and elm yellows). In immunoblots, approximately 96-kDa SecA protein was detected in plants infected with each of the eight phytoplasmas. Immunohistochemical staining of thin sections prepared from infected plants was localized in phloem tissues. This antiserum should be useful in the detection and histopathological analysis of a wide range of phytoplasmas. 相似文献
11.
This study examined whether genes that are less conserved than the 16S rRNA gene can distinguish Candidatus Phytoplasma australiense strains that are identical based on their 16S rRNA genes, with a view to providing insight into their origins and distribution, and any patterns of association with particular plant hosts. Sequence analysis of the tuf gene and rp operon showed that Ca . P. australiense strains could be differentiated into four subgroups, named 16SrXII-B ( tuf -Australia I; rp -A), 16SrXII-B ( tuf -New Zealand I; rp -B), 16SrXII-B ( tuf -New Zealand II) and 16SrXII-B ( rp -C). Strawberry lethal yellows 1, strawberry green petal, Australian grapevine yellows, pumpkin yellow leaf curl and cottonbush witches' broom phytoplasmas were designated members of the 16SrXII-B ( tuf -Australia I; rp -A) subgroup. The strawberry lethal yellows 2 and cottonbush reduced yellow leaves phytoplasmas were assigned to the 16SrXII ( tuf -New Zealand II; rp -B) subgroup. No relationship was observed between these phytoplasma subgroups and collection date, location or host plant. However, the study revealed evolutionary divergence in the 16SrXII group. 相似文献
12.
The identity of phytoplasmas detected in strawberry plants with green petal (SGP) and lethal yellows (SLY) diseases was determined by RFLP analysis of the 16S rRNA gene and adjacent spacer region (SR). RFLP and sequence comparisons indicated that the phytoplasmas associated with SGP and SLY were indistinguishable and were most closely related to ' Candidatus Phytoplasma australiense', the phytoplasma associated with Australian grapevine yellows, papaya dieback and Phormium yellow leaf diseases. This taxon lies within the aster yellows strain cluster. Primers based on the phytoplasma tuf gene, which amplify only members of the AY strain cluster, amplified a DNA product from the SGP and SLY phytoplasmas. Primers deduced from the 16S rRNA/SR of P. australiense that amplify only members of this taxon amplified rDNA sequences from the SGP and SLY phytoplasmas. Primers that selectively amplify members of the faba bean phyllody (FBP) phytoplasma group, the most commonly occurring phytoplasma group in Australia, did not amplify rDNA from the SGP and SLY phytoplasmas. 相似文献
13.
Distinctions between phytoplasmas at the subgroup level detected by heteroduplex mobility assay 总被引:2,自引:1,他引:2
A total of 62 phytoplasma isolates were collected from North America, Europe and Asia and analysed by heteroduplex mobility assay (HMA) of the 16/23S spacer region amplified by the polymerase chain reaction. The results revealed wide genetic diversity among the phytoplasmas studied and a number of new phytoplasma strains were identified from known or new plant hosts in Alberta, Canada. Two distinctive subgroups were revealed by HMA in phytoplasmas associated with canola yellows, Chinese aster yellows, dandelion yellows and monarda yellows. In Alberta, two subgroups of the aster yellows group of phytoplasmas, I-A and I-B, were prevalent in naturally infected field crops and ornamentals in open gardens. The results indicated that HMA is a simple, but rapid and accurate, alternative method for the detection and estimation of genetic divergence of phytoplasmas when finer molecular characterization of phytoplasmas is required at the subgroup level. 相似文献
14.
W. Jarausch B. Jarausch-Wehrheim J.L. Danet J.M. Broquaire F. Dosba C. Saillard M. Garnier 《European journal of plant pathology / European Foundation for Plant Pathology》2001,107(2):209-217
Between 1994 and 1998 a field study was conducted to identify plant hosts of the European stone fruit yellows (ESFY) phytoplasma in two apricot growing regions in southern and southwestern France where the incidence of apricot chlorotic leaf roll was high. A total of 431 samples from 51 different plant species were tested for the presence of phytoplasmas by PCR using universal and ESFY-specific primers. ESFY phytoplasma was detected in six different wild growing Prunus species exhibiting typical ESFY symptoms as well as in symptomless dog rose bushes (Rosa canina), ash trees (Fraxinus excelsior) and a declining hackberry (Celtis australis). The possible role of these plant species in the spread of ESFY phytoplasma is discussed. PCR-RFLP analysis of ribosomal DNA amplified with the universal primers was carried out to characterize the other phytoplasmas found. Thus, elm yellows phytoplasma, alder yellows phytoplasma and rubus stunt phytoplasma were detected in declining European field elm trees (Ulmus carpinifolia Gled), in declining European alder trees (Alnus glutinosa) and in proliferating Rubus spp. respectively. The presence of rubus stunt phytoplasma in great mallow (Malva sylvestris) and dog rose was demonstrated for the first time. Furthermore, the stolbur phytoplasma was detected in proliferating field bindweed (Convolvulus arvensis) and a previously undescribed phytoplasma type was detected in red dogwood (Cornus sanguinea). According to the 16S rDNA-RFLP pattern this new phytoplasma belongs to the stolbur phytoplasmas group. 相似文献
15.
Jana Fránova HonetŜlegrová Monica Vibio Assunta Bertaccinc 《European journal of plant pathology / European Foundation for Plant Pathology》1996,102(9):831-835
The presence of phytoplasma inFragaria ananassa x Duch cv Senga Sengana showing strawberry green petals symptoms was observed by electron microscopy of phloem tissue. No phytoplasmas were found in asymptomatic strawberry plants used as controls. Nucleic acids extracted from these plants were used in nested-PCR assays with primers amplifying 16S rRNA sequences specifie for phytoplasmas. Bands of 1.2 kb were obtained and the subsequent nested-PCR with specific primers and RFLP analyses allowed to classify the detected phytoplasmas in the aster yellows group (16SrI). They belonged to the subgroup I-C of which type strain is clover phyllody phytoplasma. 相似文献
16.
Francesco Faggioli Graziella Pasquini Valentina Lumia Gaetano Campobasso Timothy L. Widmer Paul C. Quimby Jr 《European journal of plant pathology / European Foundation for Plant Pathology》2004,110(4):353-360
In the United States, yellow starthistle (Centaurea solstitialis) is an annual invasive weed with Mediterranean origins. Malformed plants displaying witches' broom, fasciations, abortion of buds and flower virescence symptoms were observed in central Italy. Attempts to transmit the causal agent from the natural yellow starthistle host to periwinkle by grafting, resulted in typical symptoms of a phytoplasma, i.e. yellowing and shortening of internodes. The detection of phytoplasmas was obtained from both symptomatic yellow starthistle and periwinkle by the specific amplification of their 16S-23S rRNA genes. PCR amplification of extracted DNA from symptomatic plant samples gave a product of expected size. Asymptomatic plants did not give positive results. An amplicon obtained by direct PCR with universal primers P1/P7 was cloned and sequenced. The homology search using CLUSTALW program showed more than 99% similarity with Illinois elm yellows (ILEY) phytoplasma from Illinois (United States) and 97% with Brinjal little leaf (BLL) phytoplasma from India. Digestion of the nested-PCR products with restriction enzymes led to restriction fragment length polymorphism patterns referable to those described for phytoplasmas belonging to the clover proliferation (16S-VI) group. Since this is a previously undescribed disease, the name Centaurea solstitialis virescence has been tentatively assigned to it. This is a new phytoplasma with closest relationships to ILEY and BLL, but distinguishable from them on the basis of 16S rDNA homology, the different associated plant hosts and their geographical origin. 相似文献
17.
Nang Kyu Kyu Win Young-Hye Lee Young-Hwan Kim Chang-Gi Back Heewon Chung Hee-Young Jung 《Journal of General Plant Pathology》2012,78(4):264-268
Aster yellows group phytoplasmas were reclassified by analysis of the 16S rRNA gene sequence, their phylogeny and the presence of interoperon heterogeneity. Nine phytoplasmas were classified into subgroups 16SrI-B and 16SrI-D using the 16S rRNA gene sequence. Then, based on the presence of interoperon heterogeneity, subgroup 16SrI-B phytoplasmas were differentiated into three subunits as 16SrI-B(a): mulberry dwarf, sumac witches’ broom and porcelain vine witches’ broom; 16SrI-B(b): angustata ash witches’ broom and Japanese spurge yellows; and 16SrI-B(c): onion yellow dwarf, water dropwort witches’ broom and hare’s ear yellow dwarf phytoplasma. 相似文献
18.
ABSTRACT This paper describes the identification and differentiation of phytoplasmas by a highly sensitive diagnostic technique, DNA heteroduplex mobility assay (HMA). Closely related phytoplasma isolates of clover proliferation (CP), potato witches'-broom (PWB), and alfalfa witches'-broom (AWB) were collected from the field from 1990 to 1999. The entire 16S rRNA gene and 16/23S spacer region were amplified by polymerase chain reaction (PCR) from the field samples and standard CP, PWB, and AWB phytoplasmas and were subjected to restriction fragment length polymorphism (RFLP) analysis and HMA. Two subgroups (I and II) of phytoplasmas in the CP group were identified by HMA but not by RFLP analysis. The results were confirmed by 16/23S spacer region sequence data analysis. After HMA analyses of the PCR-amplified 16/23S spacer region, 14 phytoplasma isolates from field samples were classified into two aster yellows subgroups: subgroup I, phytoplasma isolates from China aster (Callistephus chinensis) yellows, French marigold (Tagetes patula) yellows, cosmos (Cosmos bipinnatus cv. Dazzler) yellows, clarkia (Clarkia unguiculata) yellows, California poppy (Eschscholzia californica cv. Tai Silk) yellows, monarda (Monarda fistulosa) yellows, and strawflower (Helichrysum bracteatum) yellows; and subgroup II, phytoplasma isolates from zinnia (Zinnia elegans cv. Dahlia Flower) yellows, Queen-Annes-Lace (Daucus carota) yellows, scabiosa (Scabiosa atropurpurea cv. Giant Imperial) yellows, Swan River daisy (Brachycombe multifida cv. Misty Pink) yellows, pot marigold (Calendula officinalis) yellows, purple coneflower (Echinacea purpurea) yellows, and feverfew (Chrysanthemum parthenium) yellows. The results indicate that HMA is a simple, rapid, highly sensitive and accurate method not only for identifying and classifying phytoplasmas but also for studying the molecular epidemiology of phytoplasmas. 相似文献
19.
ABSTRACT Epidemics of aster yellows in lettuce in Ohio are caused by at least seven distinct phytoplasma strains in the aster yellows (AY) group. Five of the strains are newly reported: AY-BW, AY-WB, AY-BD3, AY-SS, and AY-SG. All seven strains were characterized based on symptoms in aster and lettuce, and by polymerase chain reaction (PCR). Strain AY-BD2 (formerly 'Bolt') causes yellowing and leaf distortion in lettuce and bolting in aster, whereas strain AY-S (formerly 'Severe') causes stunting, leaf clustering, and phyllody. Strain AY-WB causes yellowing and wilting in lettuce and witches'-broom in aster. Strain AY-SG induces horizontal growth in lettuce and aster plants. Strain AY-BW causes chlorosis of emerging leaves and abnormally upright growth of leaf petioles. AY-SS causes symptoms similar to those caused by AY-S but has a different PCR-restriction fragment length polymorphism (RFLP) banding pattern. Strains AY-BD2 and AY-BD-3 cause mild leaf and stem distortion in lettuce but are differentiated by PCR-RFLP. All phytoplasma strains collected from lettuce in Ohio belong to the 16SrI group. AY-WB belongs to the 16SrI-A subgroup and the other six belong to the 16SrI-B subgroup. Five of the seven strains were distinguished from each other by primer typing. The results of phylogenetic analyses of sequences of the 16S rRNA genes were basically consistent with the classification based on PCR-RFLP, in which AY-WB clustered with phytoplasmas of the 16rIA subgroup and the other Ohio lettuce strains clustered with phytoplasmas in the 16SrI-B subgroup. 相似文献
20.
A. Bertaccini J. Fránová S. Paltrinieri M. Martini M. Navrátil C. Lugaresi J. Nebesárová M. Simkova 《European journal of plant pathology / European Foundation for Plant Pathology》1999,105(5):487-493
During the summer 1996, twelve of twenty-eight leek plants located in a garden near eské Budjovice, South Bohemia exhibited symptoms typical of diseases associated with phytoplasmas. In summer 1998 similar symptoms were detected in leek plants in a field used for seed production located in Romagna, North Italy. In both cases the plants were established in the spring of the previous year. Plants showed flower abnormalities: stamen elongation, anther sterility, pistil proliferation, as well as poor, if any, seed production. Phytoplasma-like structures were detected by scanning and transmission electron microscopy in phloem sieve elements in the Czech diseased plants, but not in healthy ones. Nested-PCR amplifications of extracted DNA with phytoplasma-specific oligonucleotide primer pairs confirmed the presence of phytoplasmas in these plants at low concentrations. Restriction fragment length polymorphism analyses of amplified ribosomal sequences allowed the identification of detected phytoplasmas: all the samples from the Czech Republic contained aster yellows related phytoplasmas (16SrI-B) while in the Italian samples aster yellows related phytoplasmas (16SrI-B) together with stolbur related phytoplasmas (16SrXII-A) were identified. This is the first report of detection and identification of a phytoplasma disease of leek in the Czech Republic and Italy. 相似文献