共查询到20条相似文献,搜索用时 15 毫秒
1.
Sachin Kumar Vibhuti Singh Suman Lakhanpaul 《European journal of plant pathology / European Foundation for Plant Pathology》2012,133(2):371-378
Okra plants with bunchy top disease were found to be prevalent during the period of August–October 2009 in New Delhi, India.
The common symptoms observed were shortening of internodes, aggregation of leaves at the apical region, reduced leaf lamina,
stem reddening, fruit bending, phyllody and stunting of plants. The disease incidence ranged from 2–60% accompanied by significant
reductions in production of both flowers and seeds. Nested polymerase chain reaction targeting phytoplasma specific 16S rDNA
and rp genes revealed all symptomatic plants to be positive for phytoplasma. Homology searches depicted its closest identity
to phytoplasmas of 16SrI ‘Candidatus Phytoplasma asteris’, like the Sugarcane yellows and Periwinkle phyllody phytoplasmas. Profiles for 16S rDNA obtained with
10 restriction endonucleases, differed in TaqI sites for two phytoplasma isolates (BHND5 & 10) from the standard pattern of 16SrI-B subgroup, the latter was seen in the
case of isolate BHND1. Restriction fragment analysis of rp genes with AluI, Tsp509I matched with patterns of the rpI-B phytoplasmas. Phylogenetic reconstruction of rp genes revealed okra bunchy top phytoplasma
(BHND1) as a divergent isolate, the subsequent sequence analysis of which showed the presence of a novel BslI site. These significant differences suggest that multiple phytoplasma strains are affecting okra, one of which is a diverging
lineage within the 16SrI-B group while others represent a new 16SrI subgroup not reported so far. Additionally, this is the
first report of a phytoplasma associated disease in okra plants worldwide. 相似文献
2.
A method using consensus PCR followed by oligonucleotide microarray hybridization was developed for identification of phytoplasma 16Sr ribosomal groups. The array consisted of 21– to 33-nt-long oligonucleotides which were designed to hybridize to individual 16Sr groups. Two oligonucleotides were designed to detect all phytoplasma groups. The array could efficiently identify samples from 16SrI, 16SrII, 16SrIII, 16SrV, 16SrVI, 16SrVII, 16SrIX, 16SrX and 16SrXII ribosomal groups. This microarray-based test represents a rapid method for detection of phytoplasmas in unknown samples and for identification of most 16Sr groups. 相似文献
3.
The presence of phytoplasmas in seven coniferous plant species (Abies procera, Pinus banksiana, P. mugo, P. nigra, P. sylvestris, P. tabuliformis and Tsuga canadensis) was demonstrated using nested PCR with the primer pairs P1/P7 followed by R16F2n/R16R2. The phytoplasmas were detected in pine trees with witches’ broom symptoms growing in natural forest ecosystems and also in plants propagated from witches’ brooms. Identification of phytoplasmas was done using restriction fragment length polymorphism analysis (RFLP) of the 16S rDNA gene fragment with AluI, MseI and RsaI endonucleases. All samples showed RFLP patterns similar to the theoretical pattern of ‘Candidatus Phytoplasma pini’, based on the sequence of the reference isolate Pin127S. Nested PCR‐amplified products, obtained with primers R16F2n/R16R2, were sequenced. Comparison of the 16S rDNAs obtained revealed high (99·8–100%) nucleotide sequence identity between the phytoplasma isolates. The isolates were also closely related to four other phytoplasma isolates found in pine trees previously. Based on the results of RFLP and sequence analyses, the phytoplasma isolates tested were classified as members of the ‘Candidatus Phytoplasma pini’, group 16SrXXI. 相似文献
4.
High diversity,expanding populations and purifying selection in phytoplasmas causing coconut lethal yellowing in Mozambique 
下载免费PDF全文
下载免费PDF全文 In this study, the putative phytoplasma species causing coconut lethal yellowing disease in Mozambique and Tanzania were characterized. The 16S rRNA and secA genes were sequenced. Phylogenetic analysis revealed that Mozambican coconut phytoplasmas belong to three different types: ‘Candidatus Phytoplasma palmicola’ 16SrXXII‐A, a second strain that was previously isolated in Tanzania and Kenya (16SrIV‐C), and a third strain that was different from all known lethal yellowing phytoplasma species. The third strain potentially represents a novel species and is closely related to pine phytoplasma. Co‐infection with ‘Ca. Phytoplasma pini’‐related and ‘Ca. Phytoplasma palmicola’ 16SrXXII‐A strains was observed. Furthermore, sequence variation in ‘Ca. Phytoplasma palmicola’ at the population level was consistent with purifying selection and population expansion. 相似文献
5.
Trade in ornamental plant species comprises a significant segment in the economies of countries in Europe, North America and Asia. Since the quality of ornamental plants is adversely affected by diseases attributed to phytoplasmas, we surveyed plant collections in botanical gardens and floriculture farms in Lithuania for phytoplasmal diseases. Seventeen ornamental species belonging to nine plant families exhibited disease symptoms including general yellowing and stunting, proliferation of shoots, phyllody, virescence and reduced size of flowers, and reddening of leaves. Analysis of the phytoplasmal 16S rRNA gene sequences amplified by PCR revealed that the plants were infected by phytoplasmas belonging to four distinct subgroups (16SrI-A, 16SrI-B, 16SrI-L, and 16SrI-M) of group 16SrI (aster yellows phytoplasma group) and indicated the presence of sequence-heterogeneous 16S rRNA genes in newly recognized strains belonging to subgroups 16Sr-L and 16SrI-M. Infections by these diverse phytoplasmas in a wide array of plant species and families suggests that unidentified, polyphagous insect vectors may actively transmit phytoplasmas threatening the Baltic region's ornamental plant industry. 相似文献
6.
S. K. Raj S. K. Snehi M. S. Khan M. H. Asif S. K. Bag R. K. Roy A. K. Goel 《Journal of General Plant Pathology》2010,76(6):389-394
In 2007–2009, severe virescence, malformation and twisting of flower spikes and yellowing of entire plants were observed in
various Gladiolus cultivars growing in the gardens of the National Botanical Research Institute, Lucknow, India. The disease symptoms were
very similar to symptoms in Gladiolus caused by the Aster yellows phytoplasma identified from Poland. Disease incidence was low (1.1–3.4%), but the severity of
symptoms was high. A phytoplasma infection was detected in nine of 13 cultivars by PCR followed by nested PCR using universal
phytoplasma primers P1/P6 or R16F2n/R16R2, respectively. An amplicon of ~1.2 kb obtained from the nested PCR was cloned and
sequenced. Sequence analysis of the PCR amplicon revealed high (94–98%) identities and the closest phylogenic relationships
with several isolates of Aster yellows phytoplasma of ‘Candidatus Phytoplasma asteris’ (16SrI group). Thus, the phytoplasma isolate of Gladiolus was identified as a new isolate of ‘Ca. P. asteris’ (16SrI group). In silico analysis of the phytoplasma isolate clearly indicated that the isolate was distinct
from other Indian isolates of this phytoplasma. 相似文献
7.
8.
Transmission of ‘Candidatus Phytoplasma pyri’ by naturally infected Cacopsylla pyri to peach,an approach to the epidemiology of peach yellow leaf roll (PYLR) in Spain 下载免费PDF全文
下载免费PDF全文 Peach orchards in the northeast of Spain were severely affected in 2012 by a previously unreported disease in this area. The symptoms included early reddening, leaf curling, decline, abnormal fruits, and in some cases death of the peach trees. All the infected peach samples were positive for ‘Candidatus Phytoplasma pyri’, but none were infected by the ‘Ca. Phytoplasma prunorum’. In this work, potential vectors able to transmit ‘Ca. Phytoplasma pyri’ from pear to peach and between peach trees were studied and their infective potential was analysed at different times of the year. Transmission trials of the phytoplasma with potential vectors to an artificial feeding medium for insects and to healthy peach trees were conducted. Additionally, isolated phytoplasmas were genetically characterized to determine which isolates were able to infect peach trees. Results showed that the only insect species captured inside peach plots that was a carrier of the ‘Ca. Phytoplasma pyri’ phytoplasma was Cacopsylla pyri. Other insect species captured and known to be phytoplasma transmitters were present in very low numbers, and were not infected with ‘Ca. Phytoplasma pyri’ phytoplasma. A total of 1928 individuals of C. pyri were captured in the peach orchards, of which around 49% were phytoplasma carriers. All the peach trees exposed to C. pyri in 2014, and 65% in 2015, were infected by ‘Ca. Phytoplasma pyri’ 1 year after exposure, showing that this species is able to transmit the phytoplasma to peach. Molecular characterization showed that some genotypes are preferentially determined in peach. 相似文献
9.
Natalia V. Girsova Kristi D. Bottner-Parker Damir Z. Bogoutdinov Tatyana B. Kastalyeva Yuri I. Meshkov Karina A. Mozhaeva Ing-Ming Lee 《European journal of plant pathology / European Foundation for Plant Pathology》2017,149(3):599-610
A large scale survey of diseased legume plants (mainly clover and alfalfa in the Fabaceae family) was conducted from 2009 to 2013 in four Economic Regions of Russia, Northern (Arkhangelsk and Vologda oblast), Central (Moscow oblast), Volga (Samara oblast) and West Siberian (Novosibirsk oblast). The majority of infected clover plants exhibited symptoms typical of clover phyllody (CPh), clover yellow edge (CYE), or clover proliferation (CP), and infected alfalfa plants exhibited symptoms typical of alfalfa witches’-broom (AWB). Of 161 symptomatic plants from 22 different legume species, 103 tested positive for phytoplasma infection. Phytoplasmas belonging to four groups and six subgroups were detected, of which 31.1% were group 16SrI, with the majority belonging to subgroup 16SrI-C- (causal agent of CPh disease), two belonging to 16SrI-B and two group 16SrI phytoplasmas not identified to the subgroup level;47.6% were group 16SrIII, with the majority belonging to subgroup 16SrIII-B or 16SrIII-B variant (causal agent of CYE disease), and one strain belonging to16SrIII-F; 8.7% were subgroup 16SrVI-A (causal agent of CP and AWB diseases); 9.7% were subgroup 16SrXII-A (causal agent of AWB disease); and 2.9% were mixed infected with subgroups 16SrIII-B and 16SrI-C. The predominant phytoplasma species detected varied by region. In the Northern and Central Regions, the majority of the phytoplasmas detected belonged to subgroups 16SrI-C and 16SrIII-B. In the West Siberian and the Volga Regions, the phytoplasmas predominately detected belonged to subgroups 16SrVI-A and 16SrXII-A, respectively. Subgroup 16SrIII-F was detected in a single plant in the West Siberian Region and a mixed infection of 16SrIII-B and 16SrI-C was detected in three plants, one in the Northern Region and two in the Central Region. Eleven species of insects of the order Hemiptera, suborder Auchenorrhyncha, were collected from leguminous plants in the Moscow oblast of the Central Region. Euscelis incisus and Aphrodes bicinctus were the most prevalent species and may be potential phytoplasma vectors in the Central Region. 相似文献
10.
Coconut palm ( Cocos nucifera ), oil palm ( Elaeis guineensis ), Bermudagrass ( Cynodon dactylon ) and Madagascar periwinkle ( Catharanthus roseus ) with symptoms indicative of phytoplasma disease were collected from different locations in Malaysia. PCR assays employing phytoplasma universal rRNA gene primers P1/P7 alone or P1/P7 followed by R16F2n/R16R2 detected phytoplasmas in eight out of 20 Malayan Red Dwarf (MRD), nine out of 12 Malayan Yellow Dwarf (MYD) and 12 out of 12 Malayan Tall (MT) coconut palms displaying coconut yellow decline symptoms. Positive detections were also obtained from six out of six oil palm seedlings showing symptoms of yellowing and necrosis, from 10 out of 10 Bermudagrass samples with white leaf symptoms, and from eight out of eight periwinkle plants showing phyllody, virescence, little leaf, proliferation and foliar yellowing. Phytoplasmas were not detected in any of the symptomless plants tested. Sequencing and phylogenetic analysis of PCR products determined that phytoplasmas infecting both MRD and MT coconuts and Bermudagrass in Serdang, Selangor State, were all members of the 16SrXIV ' Candidatus Phytoplasma cynodontis' group, whereas isolates in periwinkle in Serdang were all members of the 16SrI ' Ca. Phytoplasma asteris' group. However, the phytoplasmas detected in MYD coconuts and oil palms from Banting, Selangor State, and in periwinkle from Putrajaya were collectively very similar (99%), but shared <97·5% similarity with 16S rDNA sequences of all other known phytoplasmas, indicating that they represent a novel taxonomic group. Thus, at least two phylogenetically distinct phytoplasmas are associated with the coconut yellow decline syndrome in Malaysia, both of which were also detected in other plant species. 相似文献
11.
R. Jomantiene R.E. Davis D. Valiunas A. Alminaite 《European journal of plant pathology / European Foundation for Plant Pathology》2002,108(6):507-517
Previously undescribed phytoplasmas were detected in diseased plants of dandelion (Taraxacum officinale) exhibiting virescence of flowers, thistle (Cirsium arvense) exhibiting symptoms of white leaf, and a Gaillardia sp. exhibiting symptoms of stunting and phyllody in Lithuania. On the basis of restriction fragment length polymorphism (RFLP) analysis of 16S rDNA amplified in PCR, the dandelion virescence (DanVir), cirsium whiteleaf (CirWL), and gaillardia phyllody (GaiPh) phytoplasmas were classified in phylogenetic group 16SrIII (X-disease phytoplasma group), new subgroups III-P and III-R and subgroup III-B, respectively. RFLP and nucleotide sequence analyses revealed 16S rRNA interoperon sequence heterogeneity in the two rRNA operons, rrnA and rrnB, of both DanVir and CirWL. Results from phylogenetic analysis based on nucleotide sequences of 16S rDNA were consistent with recognition of the two new subgroups as representatives of distinct new lineages within the group 16SrIII phytoplasma subclade. The branching order of rrnA and rrnB sequences in the phylogenetic tree supported this interpretation and indicated recent common ancestry of the two rRNA operons in each of the phytoplasmas exhibiting interoperon heterogeneity. 相似文献
12.
A rapid DNA extraction and loop‐mediated isothermal amplification (LAMP) procedure was developed and evaluated for the detection of two specific groups of phytoplasmas from infected plant material. Primers based upon the 16–23S intergenic spacer (IGS) region were evaluated in LAMP assays for amplification of group 16SrI (aster yellows group) and group 16SrXXII (Cape St Paul wilt group) phytoplasma strains. DNA could be extracted from leaf material (16SrI phytoplasmas) or coconut trunk borings (16SrXXII phytoplasmas) onto the membranes of lateral flow devices, and small sections of these membranes were then added directly into the LAMP reaction mixture and incubated for 45 min at 65°C. Positive reactions were detected through the hydroxyl napthol blue colorimetric assay within 1 h of the start of DNA extraction, and were confirmed by subsequent agarose gel electrophoresis of the LAMP products. The level of detection was comparable to that obtained by nested PCR using conventional 16S rDNA phytoplasma‐specific primers. Furthermore, the assays were specific for the phytoplasmas they were designed to detect – the 16SrI assay only detected 16SrI phytoplasmas and not those from any other phylogenetic groups, whilst the 16SrXXII assay only detected 16SrXXII phytoplasmas. The DNA extractions and LAMP assay are easy to perform, requiring minimal equipment, and may therefore form the basis of a rapid and reliable field‐detection system for phytoplasmas. 相似文献
13.
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
14.
M. C. C. Rappussi B. Eckstein D. Fl?res I. C. R. Haas L. Amorim I. P. Bedendo 《European journal of plant pathology / European Foundation for Plant Pathology》2012,133(4):829-840
Since 2000, a disease has occurred with high levels of incidence in crops of cauliflower grown in the green belt area of the city of S?o Paulo, Brazil. The symptoms are characterized by stunting, malformation of the inflorescence, reddening leaves, and vascular necrosis, suggesting infection by phytoplasma. These symptoms are similar to those described in Brassicas species affected by the aster yellows (16SrI) group of phytoplasma. In the present study, a phytoplasma from the 16SrIII-J subgroup was identified in cauliflower plants based on actual and virtual RFLP patterns and phylogenetic analysis, and was distinct from the phytoplasmas frequently associated with aster yellows disease in Brassicas. Pathogenicity assays using dodder confirmed that the identified phytoplasma is the agent of the observed disease, which is here designated as cauliflower stunt. Consequently, this species of Brassica may be recognized as a new host for subgroup 16SrIII-J, which has frequently been found in diverse species cultivated in Brazil. The spatial pattern of diseased plants was determined in ten cauliflower plots of 300 to 728 plants each. All plants in these plots were evaluated by visual assessments, assigned as diseased or healthy and mapped. The dispersion index and Taylor’s power law were determined for various quadrat sizes and the results showed that the diseased plants were distributed in a random pattern in fields with a low disease incidence and in an aggregated pattern in fields with a disease incidence greater than 25?%. According to an isopath area analysis, diseased plants were predominantly present in the field borders, suggesting that the pathogen is possibly introduced by vector(s) from the external area. 相似文献
15.
Plants of corn (Zea mays L.) exhibiting symptoms of stunting and leaf reddening were assayed for the presence of phytoplasma gene sequences through the use of phytoplasma rRNA and ribosomal protein gene and maize bushy stunt (MBS) phytoplasma-specific oligonucleotide primers in polymerase chain reactions (PCR). Polymorphisms in 16S rDNA amplified from diseased plants were those characteristic of phytoplasmas classified in the16S rRNA gene group 16SrI, subgroup IB, of which MBS phytoplasma is a member. Amplification of ribosomal protein (rp) gene sequences in PCR primed by phytoplasma-specific primers confirmed presence of a phytoplasma in the diseased plants. Restriction fragment length polymorphism (RFLP) patterns of the amplified phytoplasma rp gene sequences were similar or identical to those observed for a known strain of MBS phytoplasma. In separate PCR, an MBS-specific oligonucleotide pair primed amplification of a MBS-characteristic DNA from templates derived from the diseased corn. Our data provide the first firm evidence for the presence of maize bushy stunt phytoplasma in corn in Brazil. 相似文献
16.
Survey and molecular detection of phytoplasmas associated with potato in Romania and southern Russia
Ibolya Ember Zoltan Acs Joseph E. Munyaneza James M. Crosslin Maria Kolber 《European journal of plant pathology / European Foundation for Plant Pathology》2011,130(3):367-377
In recent years, emerging phytoplasma diseases of potato (Solanum tuberosum L.) have increasingly become important in central and eastern Europe. Accurate identification of phytoplasmas and their insect
vectors is essential to developing effective management strategies for diseases caused by these plant pathogens. Potato phytoplasma
diseases in Europe were for a long time diagnosed only on the basis of visual symptoms. However, this approach is not very
reliable and the use of modern molecular techniques such as polymerase chain reaction (PCR) is required in order to accurately
determine the etiology of these phytoplasma diseases. A survey and identification of phytoplasmas associated with potato crops
in Romania and southern Russia were conducted based on modern molecular techniques. Symptomatic potato plants were collected
from several fields and tested for phytoplasmas by PCR. Also, selected crops and weeds in the vicinity of these potato fields
were sampled and tested for phytoplasmas. Stolbur (“Candidatus Phytoplasma solani”; 16SrXII-A) was the only phytoplasma detected in potato and adjacent crops, including tomato (Solanum lycopersicum), pepper (Capsicum annuum), eggplant (Solanum melongena), and beet (Beta vulgaris). This phytoplasma was also detected in weeds, particularly Convolvulus arvensis, Cuscuta sp., and Euphorbia falcata. Genotyping of obtained stolbur isolates on tuf genes revealed that they all had the same RFLP profile corresponding to the tuf-type ‘b’ (VK Type II). Stolbur-affected potato
plants produced a large number of spongy tubers that resulted in commercially unacceptable potato chips upon processing. 相似文献
17.
Rosemarie Tedeschi Pavel Lauterer Lorenzo Brusetti Federica Tota Alberto Alma 《European journal of plant pathology / European Foundation for Plant Pathology》2009,123(3):301-310
Hawthorn (Crataegus monogyna) is one of the natural hosts of Cacopsylla melanoneura, the acknowledged vector of ‘Candidatus Phytoplasma mali’, the causal agent of Apple Proliferation disease, a serious and growing problem for apple production in
Europe, particularly in northern Italy. Wild plants could be important sources of both insects and phytoplasmas, but their
role in the epidemiology of phytoplasma diseases and their insect vectors has never been thoroughly examined. Cacopsylla melanoneura’s primary host is hawthorn, a plant closely related to apple which often grows wild near orchards. Other psyllid species
feed on hawthorn, but no data are available on their possible role as phytoplasma vectors. We investigated the hawthorn’s
psyllid fauna in northwestern Italy using yellow sticky traps, beat trays, and molecular analyses from 2003–2005, to study
the relationship between hawthorn, the phytoplasma and the insect vector. Population dynamics were monitored, and insects
and hawthorn samples were analysed by polymerase chain reaction (PCR), restriction fragment length polymorphism (RFLP), and
DNA sequencing for the presence of phytoplasmas. Cacopsylla melanoneura was the dominant psyllid species, followed by C. peregrina, C. affinis and C. crataegi. PCR and RFLP analyses revealed the presence of different fruit tree phytoplasmas in hawthorn plants, and in all four psyllid
species. 相似文献
18.
Serena Rizza Marika Rossi Rosa E. Spallino Rosemarie Tedeschi Cristina Marzachì Vittoria Catara Matilde Tessitori 《Plant pathology》2021,70(2):305-317
An outbreak of Spartium witches’ broom (SpaWB) in Sicily prompted us to identify and characterize associated phytoplasmas. Over 80 samples of Spanish broom (Spartium junceum) and around 270 individuals of the potential vector Livilla spectabilis were collected and analysed. Single and mixed infections of 16SrV and ‘Candidatus Phytoplasma spartii’ were detected in Spanish broom samples and for the first time in L. spectabilis. The 16SrV isolates were further characterized by multilocus sequence typing (MLST) to determine their phylogenetic relationship with flavescence dorée phytoplasma (FDp) and to evaluate the risk of host-jumping to grapevine. Phylogenetic analysis of most of the analysed genes using the MLST approach grouped S. junceum 16SrV-C isolates with FDp isolates infecting grapevine and Scaphoideus titanus. Notably, phylogenetic analysis of the vmpA gene clustered the S. junceum isolates with FDp genotypes transmitted by S. titanus. This study extends the knowledge of SpaWB epidemiology, focusing on the possible risk of a 16SrV host jump from Spanish broom to grapevine. Spanish broom was identified as a reservoir and potential inoculum source of phytoplasmas that cause severe disease in cultivated crops. Furthermore, the L. spectabilis psyllid may be involved in the epidemiology of this 16SrV-C phytoplasma, although in the absence of in vivo transmission trials. The study further confirms the strong ability of phytoplasmas to adapt to new hosts and vectors, thus leading to potential phytosanitary emergencies. 相似文献
19.
20.
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