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1.
Purple coneflower plants showing leaf reddening and flower abnormalities were observed in South Bohemia (Czech Republic). Transmission electron microscopy observations showed phytoplasmas in sieve cells of symptomatic plants but not in healthy ones. Polymerase chain reactions with universal and group specific phytoplasma primers followed by restriction fragment length polymorphism analyses of 16S rDNA allowed us to classify the detected phytoplasmas into the X-disease group, ribosomal subgroup 16SrIII-B. Sequence analyses of the 16S-23S ribosomal operon (1684 bp), ribosomal protein L15, and protein translocase genes (1566 bp) confirmed the closest relationship with phytoplasmas belonging to the 16SrIII ribosomal group, specifically the 16SrIII-B subgroup. The current study reports purple coneflower as a new host for the X-disease phytoplasma group in the Czech Republic and worldwide.  相似文献   

2.
Flax plants (Linum usitatissimum) of the white (album) flower variety exhibiting typical phytoplasma-like symptoms were found for the first time in Pakistan during 2011. The symptoms included floral virescence, phyllody, little leaf, stunting and stem fasciation. Light microscopy of hand-cut stem sections treated with Dienes’ stain showed blue areas in the phloem region of symptomatic plants. To confirm phytoplasma infection, total DNA was extracted separately from five plants showing virescence/phyllody and from five others showing fasciation, and was amplified by nested PCR using universal 16S rDNA phytoplasma primers P1/P7 followed by R16F2n/R16R2. All samples from plants with virescence/phyllody and fasciation yielded a 1,250 bp PCR product, and identical RFLP profiles using the enzymes AluI and HpaII. Direct sequencing of the 16S rDNA of one representative PCR amplicon (GenBank Accession No. JX567504 for phyllody and Accession No. JX567505 for fasciation) showed highest sequence identity (99%) with 16SrII ‘Candidatus Phytoplasma aurantifolia’ phytoplasmas, and phylogenetic analysis placed the phytoplasma in subgroup 16SrII-D. Disease was successfully transmitted by grafting and by the leafhopper Orosius albicinctus. To our knowledge, flax is a new natural host for 16SrII-D phytoplasmas in Pakistan.  相似文献   

3.
In several European countries apple trees are affected by apple proliferation disease, which is usually associated with the presence of ‘Candidatus Phytoplasma mali’. During 2010, samples from several apple trees displaying proliferation symptoms were collected throughout the Czech Republic to verify identity of phytoplasmas detected in association with the disease. The majority of the 74 apple trees examined using molecular tools were positive for ‘Ca. P. mali’ presence. The 16S–23S ribosomal genes, the ribosomal protein genes and the nitroreductase and rhodonase like genes were then studied to verify phytoplasma strain variability on multigenic bases. Two RFLP profiles and correspondingly two genetic lineages were found in the PCR-amplified fragments covering the 16S–23S rDNA spacer region. ‘Ca. P. mali’ strains belonging to rpX-A subgroup were identified in the majority of the apple tree sampled, whereas phytoplasmas belonging to the rpX-B subgroup were distributed sporadically. The apple proliferation subtypes AP-15 and AT-2 exhibited nearly equal occurrence; the AT-1 subtype and a mixture of the two or all three of the AP subtypes were infrequently found. The PCR/RFLP results were confirmed by nucleotide sequence analyses of selected ‘Ca. P. mali’ strains.  相似文献   

4.
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   

5.
The identity of the presumed phytoplasmal pathogen associated with cranberry false-blossom disease has never been fully clarified. In the present study a molecular-based procedure was employed to determine the identity of the phytoplasma. Tissues of cranberry plants exhibiting cranberry false-blossom symptoms were collected from multiple bogs on each of three randomly selected commercial cranberry farms in New Jersey. Leafhoppers, including the known vector Limotettix vaccinii (Van Duzee) (=Scleroracus vaccinii, Euscellis striatulus) and the sharp-nosed leafhopper Scaphytopius magdalensis (Provancher), a known vector of blueberry stunt disease, were collected from two different farms in New Jersey. Nested PCR assays and RFLP analysis of 16S rRNA gene sequences were employed for the detection and identification of the associated phytoplasmas. All of 20 cranberry plants sampled and five out of 14 batches of leafhoppers tested positive for phytoplasma. Virtual RFLP and sequence analyses revealed that all the associated phytoplasmas were members or variants of a new subgroup, 16SrIII-Y. Phylogenetic analysis of 16S rRNA sequences indicated that cranberry false-blossom phytoplasma strains represented a lineage distinct from other 16SrIII subgroups. This is the first report confirming that a new phytoplasma (designated as a new subgroup 16SrIII-Y) is associated with cranberry false-blossom disease and associated with both leafhopper species in New Jersey.  相似文献   

6.
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   

7.
Sunflower (Helianthus annuus L.) plants showing capitulum with virescence, phyllody and flower malformation, shortened internodes and abnormal branches were found in a field in Pedro Luro (Buenos Aires province, Argentina). Pleomorphic bodies resembling phytoplasmas were observed in sieve tube elements of symptomatic plants but not in healthy ones. DNA from all symptomatic sunflower plants analysed yielded, in direct PCR with phytoplasma universal primers P1/P7 and R16F2n/R2, fragments of expected size 1.8 kb and 1.2 kb, respectively. The phytoplasma associated with the disease, was named Sunflower Phyllody (SunPhy). Real and putative RFLP of the 16S rDNA showed the affiliation of SunPhy to 16SrIII (X-disease group), subgroup J. The 16S rDNA sequence from SunPhy showed the highest identity (99 %) with 16SrIII members and the phylogenetic tree confirmed a closer relationship to subgroup J of the 16SIII ribosomal group. This is the first report of a phytoplasma related to the 16SrIII group affecting sunflower.  相似文献   

8.
ABSTRACT In the spring of 2000, an aster yellows (AY) epidemic occurred in carrot crops in the Winter Garden region of southwestern Texas. A survey revealed that vegetable crops, including cabbage, onion, parsley, and dill, and some weeds also were infected by AY phytoplasmas. Nested polymerase chain reaction (PCR) and restriction fragment length polymorphism analysis of PCR-amplified phytoplasma 16S rDNA were employed for the detection and identification of phytoplasmas associated with these crops and weeds. Phytoplasmas belonging to two subgroups, 16SrI-A and 16SrI-B, in the AY group (16SrI), were predominantly detected in infected plants. Carrot, parsley, and dill were infected with both subgroups. Onion and three species of weeds (prickly lettuce, lazy daisy, and false ragweed) were predominantly or exclusively infected by subgroup 16SrI-A phytoplasma strains, while cabbage was infected by subgroup 16SrI-B phytoplasmas. Both types of phytoplasmas were detected in three leafhopper species, Macrosteles fascifrons, Scaphytopius irroratus, and Ceratagallia abrupta, commonly present in this region during the period of the epidemic. Mixed infections were very common in individual carrot, parsley, and dill plants and in individual leafhoppers. Sequence and phylogenetic analyses of 16S rDNA and ribosomal protein (rp) gene sequences indicated that phytoplasma strains within subgroup 16SrI-A or subgroup 16SrI-B, detected in various plant species and putative insect vectors, were highly homogeneous. However, based on rp sequences, two rpI subgroups were identified within the subgroup 16SrI-A strain cluster. The majority of subgroup 16SrI-A phytoplasma strains were classified as rp subgroup rpI-A, but phytoplasma strains detected in one onion sample and two leafhoppers (M. fascifrons and C. abrupta) were different and classified as a new rp subgroup, rpI-N. The degree of genetic homogeneity of the phytoplasmas involved in the epidemic suggested that the phytoplasmas came from the same pool and that all three leafhopper species may have been involved in the epidemic. The different phytoplasma population profiles present in various crops may be attributed to the ecological constraints as a result of the vector-phytoplasma-plant three-way interaction.  相似文献   

9.
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   

10.
Peach (Prunus persica L.) plants with symptoms of yellowing, reddening, curling and leaf necrosis, premature defoliation and internode shortening were observed in production fields in Jujuy province (Argentina). A phytoplasma was detected by PCR using the universal primer pairs P1/P7 and R16F2n/R16R2 in all the symptomatic samples analysed. The RFLP profile of PCR products, amplified with R16F2n/R16R2 primers, shows that this phytoplasma, named Argentinean Peach Yellows (ArPY), belongs to subgroup 16Sr III-B. The phylogenetic analysis of the 1244 bp 16S rDNA cloned sequence, grouped the ArPY phytoplasma into the X-disease group with a closer relationship with CFSD, PssWB and ChTDIII phytoplasmas. This is the first report of a phytoplasma infecting peach trees in Argentina.  相似文献   

11.
利用植原体16S rDNA基因通用引物对新疆轮台县疑似杏褪绿卷叶病植株总DNA进行巢氏PCR检测,扩增出大小约1.2 kb的特异性条带。对扩增产物克隆和测序,确定特异片段大小为1248 bp。序列同源性比较和系统进化分析表明,新疆杏褪绿卷叶植原体不同分离株16S rDNA基因序列同源性极高,达到99.8%~100%。与16SrⅤ组成员的同源性达到98.2%以上,其中与16SrⅤ-B亚组的枣疯病植原体山东宝山分离株,甜樱桃绿化植原体山东分离株同源性最高,达到99.4%~99.6%。进一步虚拟RFLP分析,结果表明该植原体属于榆树黄化组(16SrⅤ)的一个新的亚组,与其相似性最高的是16SrⅤ-B亚组,相似系数为0.94。本研究首次报道了新疆杏褪绿卷叶植原体16S rDNA的序列,确定了其分类地位,为杏褪绿卷叶病的早期诊断和检测提供了基础。  相似文献   

12.
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   

13.
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14.

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   

15.
Polymerase chain reaction (PCR) assays were used to detect phytoplasmas in foliage samples from Chinaberry ( Melia azedarach ) trees displaying symptoms of yellowing, little leaf and dieback in Bolivia. A ribosomal coding nuclear DNA (rDNA) product (1·8 kb) was amplified from one or more samples from seven of 17 affected trees by PCR employing phytoplasma-universal rRNA primer pair P1/P7. When P1/P7 products were reamplified using nested rRNA primer pair R16F2n/R16R2, phytoplasmas were detected in at least one sample from 13 of 17 trees with symptoms. Restriction fragment length polymorphism (RFLP) analysis of P1/P7 products indicated that trees CbY1 and CbY17 harboured Mexican periwinkle virescence (16SrXIII)-group and X-disease (16SrIII)-group phytoplasmas, respectively. Identification of two different phytoplasma types was supported by reamplification of P1/P7 products by nested PCR employing X-disease-group-specific rRNA primer pair R16mF2/WXint or stolbur-group-related primer pair fSTOL/rSTOL. These assays selectively amplified rDNA products of 1656 and 579 bp from nine and five trees with symptoms, respectively, of which two trees were coinfected with both phytoplasma types. Phylogenetic analysis of 16S rDNA sequences revealed Chinaberry yellows phytoplasma strain CbY17 to be most similar to the chayote witches'-broom (ChWBIII-Ch10) agent, a previously classified 16SrIII-J subgroup phytoplasma. Strain CbY1 resembled the Mexican periwinkle virescence phytoplasma, a 16SrXIII-group member. The latter strain varied from all known phytoplasmas composing group 16SrXIII. On this basis, strain CbY1 was assigned to a new subgroup, 16SrXIII-C.  相似文献   

16.
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   

17.
Red clover (Trifolium pratense) and Ladino clover (Trifolium repens) plants showing phytoplasma-associated symptoms (yellowing/reddening, virescence and phyllody) have been recovered in Friuli-Venezia Giulia, Italy. Using AluI RFLP analysis of PCR amplified 16S rDNA we showed that the disease can be caused independently by two phylogenetically distinct phytoplasmas. One of them showed the very typical 16S rDNA RFLP pattern of the agent of Clover Phyllody in Canada (CCPh). The 16S rDNA of the other phytoplasma (Italian Clover Phyllody phytoplasma, ICPhp) has been PCR amplified, cloned and sequenced. The sequence revealed high similarity (>98%) with phytoplasmas belonging to the X disease cluster, which includes organisms not reported to cause phyllody on their hosts. The analysis by AluI RFLP of the PCR amplified pathogen 16S rDNA from other herbaceous plants (Crepis biennis, Taraxacum officinale, Leucanthemum vulgare) collected nearby with phytoplasma-associated symptoms showed similar patterns. Southern blot hybridization of their EcoRI digested total DNA revealed identical RFLP patterns, suggesting that the causative agent may be the same organism.Abbreviations PCR Polymerase Chain Reaction - rDNA gene for the small subunit ribosomal RNA - RFLP Restriction Fragment Length Polymorphism  相似文献   

18.
The phytoplasmas of groups 16SrI (‘Candidatus Phytoplasma asteris’) and 16SrVII (‘Ca. Phytoplasma fraxini’) have been associated with phytoplasma diseases in several urban tree species in Bogotá, Colombia and surrounding areas. The insect vectors responsible for this phytoplasma transmission are unknown. The objectives of this study were to test for the presence of phytoplasmas in leafhopper species (Cicadellidae) collected in areas with diseased trees and to determine the phytoplasma transmission ability of two of these species. Leafhoppers of nine species were collected at two sampling sites and tested by nested or double nested PCR using primers for the 16S rRNA gene. The amplicons were subjected to RFLP and/or sequencing analysis. Phytoplasmas of group 16SrI were detected in morphospecies MF05 (Haldorus sp.), group 16SrVII in MF07 (Xestocephalus desertorum), MF08 (Empoasca sp.) and MF09 (Typhlocybinae), and both groups 16SrI and 16SrVII in MF01 (Empoasca sp.), MF02 (Typhlocybinae), MF03 (Scaphytopius sp.), MF04 (Amplicephalus funzaensis) and MF06 (Exitianus atratus). Transmission tests to uninfected bean plants (Phaseolus vulgaris) were performed using field collected A. funzaensis and E. atratus individuals in separate assays. After 5 weeks, the test plants exposed to individuals of both species of leafhoppers showed symptoms, suggesting phytoplasma infection. Phytoplasma groups 16SrI and 16SrVII were detected in the two groups of exposed plants, indicating that A. funzaensis and E. atratus were able to transmit both groups of phytoplasmas. This is the first report of insect vectors for phytoplasmas of group 16SrVII in the world and of 16SrI in South America.  相似文献   

19.
A comparison was made of the two palm yellows phytoplasmas affecting palms to determine if the entire ribosomal RNA operon portion of the phytoplasma genome, or portions thereof, could account for the observed palm host differences. Polymerase chain reaction (PCR) was used to amplify a 5.0?kb DNA fragment consisting of the entire ribosomal RNA operon from a subgroup 16SrIV-D phytoplasma that causes Texas Phoenix palm decline (TPD) in cabbage (Sabal palmetto) palm in west central Florida and from a subgroup 16SrIV-A phytoplasma that causes lethal yellowing (LY) in coconut (Cocos nucifera) palm in Jamaica. Before the PCR reaction, we sequenced by 454 sequencing a draft genome of the coconut LY phytoplasma, strain LYFL, that infects C. nucifera in Florida, and obtained from this draft sequence both copies of the entire ribosomal operon. Sequence analysis of the ribosomal RNA operons from both the LY and TPD phytoplasmas revealed the gene composition and orientation for the operons to be 5′16S rRNA-tRNAIle-23S rRNA-5S rRNA3′ and a tRNAVal3′ downstream of the 5S rRNA gene. Based on molecular comparisons using the sequences of the ribosomal RNA operon, the TPD (16SrIV-D) strain was 98?% similar to the LY (16SrIV-A) strains.  相似文献   

20.
Phytoplasmas infecting sour cherry and lilac in Lithuania were found to represent two lineages related to clover phyllody phytoplasma (CPh), a subgroup 16SrI-(R/S)C (formerly 16SrI-C) strain exhibiting rRNA interoperon sequence heterogeneity. 16S rDNAs amplified from the cherry bunchy leaf (ChBL) and lilac little leaf (LcLL) phytoplasmas were identical or nearly identical to those of operon rrnA and operon rrnB, respectively, of CPh. There was no evidence of 16S rRNA interoperon sequence heterogeneity in either LcLL or ChBL phytoplasma. Based on collective RFLP patterns of 16S rDNA, ChBL was classified in subgroup 16SrI-R, and LcLL was classified in new subgroup 16SrI-S. The ribosomal protein (rp) gene sequences from LcLL phytoplasma were identical to those of CPh, and strain LcLL was classified in rp subgroup rpI-C. By contrast, rp gene sequences from ChBL phytoplasma differed from those of subgroup rpI-C; based on RFLP patterns of rp gene sequences, ChBL was classified in new rp subgroup rpI-O. Single nucleotide polymorphisms (SNPs), designated here by a new SNP convention, marked members of rp subgroup rpI-C, and distinguished LcLL and CPh from ChBL and other non-rpI-C phytoplasmas in group 16SrI. The results raise questions concerning phytoplasma biodiversity assessment based on rRNA genes alone and encourage the supplemental use of a single copy gene in phytoplasma identification and classification, while drawing attention to a possible role of horizontal gene transfer in the evolutionary history of these lineages.  相似文献   

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