Detection and Characterization of Phytoplasmas Infecting Ornamental and Weed Plants in Iran

During field surveys in 2004, ornamental and weed plants showing symptoms resembling those caused by phytoplasmas were observed in Mahallat (central Iran). These plants were examined for phytoplasma infections by polymerase chain reaction (PCR) assays using universal phytoplasma primers directed to ribosomal DNA (rDNA). All affected plants gave positive results. The detected phytoplasmas were characterized and differentiated through restriction fragment length polymorphism (RFLP) and sequence analysis of PCR‐amplified rDNA. The phytoplasmas detected in diseased Asclepias curassavica and Celosia argentea were identified as members of clover proliferation phytoplasma group (16SrVI group) whereas those from the remaining plants examined proved to be members of aster yellow phytoplasma group (16SrI group) (‘Candidatus Phytoplasma asteris’). In particular, following digestion with AluI, HaeIII and HhaI endonucleases, the phytoplasma detected in Limonium sinuatum showed restriction profiles identical to subgroup 16SrI‐C; phytoplasmas from Gomphocarpus physocarpus, Tanatacetum partenium, Lactuca serriola, Tagetes patula and Coreopsis lanceolata had the same restriction profiles as subgroup 16SrI‐B whereas Catharanthus roseus‐ and Rudbeckia hirta‐infecting phytoplasmas showed restriction patterns of subgroup 16SrI‐A. This is the first report on the occurrence of phytoplasma diseases of ornamental plants in Iran.     

Simultaneous hyperaccumulation of cadmium and manganese in Celosia argentea Linn.

To indentify Mn/Cd co-hyperaccumulatoion in Celosia argentea Linn., 2 pot experiments were conducted using Cd/Mn-amended and real contaminated soils, respectively. The interaction between Cd and Mn with regard to their accumulation in the plants was also assessed. The results indicated that C. argentea can simultaneously hyperaccumulate Cd and Mn. The maximum Cd and Mn concentrations in leaves were 276 and 29,000 mg/kg, respectively. Mn application significantly enhanced the biomass production and Cd accumulation in shoots (p < 0.05). However, Cd addition did not reduce Mn accumulation in the plants. The interactions between Cd and Mn in C. argentea differ from what was previously found in hydroponic experiments. This species grew healthy in soils taken from a Cd/Mn-contaminated site, indicating a high tolerance to Cd and Mn. The transfer and bioaccumulation factors of Cd and Mn were greater than 1, which showed that C. argentea had potential for Cd and Mn phytoextraction. Besides its potential practical benefits, C. argentea is an important resource to study the mechanisms of Cd/Mn hyperaccumulation and tolerance in plants.     

Detection and Inoculation of Peanut Witches' Broom Phytoplasma (16SrII‐A) and Periwinkle Leaf Yellowing Phytoplasma (16SrI‐B) in Citrus Cultivars in Taiwan

To clarify the phytoplasma associated with Huanglongbing (HLB), a detection survey of phytoplasma in field citrus trees was performed using the standardized nested PCR assay with primer set P1/16S‐Sr and R16F2n/R16R2. The HLB‐diseased citrus trees with typical HLB symptoms showed a high detection of 89.7% (322/359) of HLB‐Las, while a low detection of phytoplasma at 1.1% (4/359) was examined in an HLB‐affected Wentan pummelo (Citrus grandis) tree (1/63) and Tahiti lime (C. latifolia) trees (3/53) that were co‐infected with HLB‐Las. The phytoplasma alone was also detected in a healthy Wentan pummelo tree (1/60) at a low incidence total of 0.3% (1/347). Healthy citrus plants were inoculated with the citrus phytoplasma (WP‐DL) by graft inoculation with phytoplasma‐infected pummelo scions. Positive detections of phytoplasma were monitored only in the Wentan pummelo plant 4 months and 3.5 years after inoculation, and no symptoms developed. The citrus phytoplasma infected and persistently survived in a low titre and at a very uneven distribution in citrus plants. Peanut witches' broom (PnWB) phytoplasma (16SrII‐A) and periwinkle leaf yellowing (PLY) phytoplasma belonging to the aster yellows group (16SrI‐B) maintained in periwinkle plants were inoculated into healthy citrus plants by dodder transmission. The PnWB phytoplasma showed infection through positive detection of the nested PCR assay in citrus plants and persistently survived without symptom expression up to 4 years after inoculation. Positive detections of the phytoplasma were found in a low titre and several incidences in the other inoculated citrus plants including Ponkan mandarin, Liucheng sweet orange, Eureka lemon and Hirami lemon. None of the phytoplasma‐infected citrus plants developed symptoms. Furthermore, artificial inoculation of PLY phytoplasma (16SrI‐B) into the healthy citrus plants demonstrated no infection. The citrus symptomless phytoplasma was identified to belong to the PnWB phytoplasma group (16SrII‐A).     

Continuity of Procambium and Anomalous Cambium During Formation of Successive Cambia in Celosia argentea

The development of woody plants is related to the continuity of the procambium and cambium. Whether such a continuity is present in plants with successive cambia, especially in those, where the first cambium is formed outside the primary vascular bundles, has not been analyzed so far. Therefore, we studied the development of vascular meristem in Celosia argentea, in which the first and successive cambial cylinders arise outside the primary bundles and, intriguingly, in the literature are interpreted as developmentally independent structures. Our results showed that in C. argentea, the outermost procambial cells maintain their meristematic characteristics during differentiation of vascular bundles and divide periclinally, forming the zone of procambium-derived cells outside the primary bundles. This zone comprises parenchyma cells bordering the bundles, and a continuous ring of the incipient cambial cells neighboring the primary cortex. Later in the development, the ability to preserve the outermost cells in the cambium undifferentiated is repeated during the formation of successive cylinders of cambia. Together, our results clearly point to the developmental continuity of the procambium and successive cambia in C. argentea, despite their seemingly spatial distinctiveness. We postulate that the mechanism demonstrated in C. argentea is universal and orchestrates the development of successive cambia in other plant species.

     

Euscelis incisus (Cicadellidae,Deltocephalinae), a natural vector of 16SrIII‐B phytoplasma causing multiple inflorescence disease of Cirsium arvense

We investigated multiple inflorescence disease of Cirsium arvense (CMI) and its association with phytoplasmas of the 16SrIII‐B subgroup, potential natural vector(s) and reservoir plant(s). From five locations in northern Serbia, 27 plants of C. arvense, 1 C. vulgare and 3 Carduus acanthoides with symptoms of multiple inflorescences (MIs) were collected and tested for 16SrIII group phytoplasmas. All symptomatic plants were found to be infected. Tentative reservoir plants and insect vectors were collected at a Dobanovci site where the continuous presence of CMI disease was recorded. Among the 19 most abundant plant species submitted to phytoplasma testing, all symptomless, the presence of the 16SrIII group was detected only in two legumes: Lathyrus tuberosus (2/5) and L. aphaca (1/5). Among 19 insect species from six families of Auchenorrhyncha, the deltocephalid leafhopper Euscelis incisus was the only insect carrying a 16SrIII phytoplasma (10% of analysed individuals). Transmission trials were performed with naturally infected E. incisus adults of the summer generation and with a laboratory population reared on red clover. After an acquisition period of 48 h on C. arvense symptomatic for MIs and a latent period of 28 days, 83% of the E. incisus adults (300/360) were infected with CMI phytoplasma. In two transmission tests, the leafhoppers successfully transmitted the phytoplasma to exposed plants (C. arvense and periwinkle), proving its role as a natural vector. Test plants of C. arvense infected with the 16SrIII‐B phytoplasma expressed typical symptoms similar to those observed in the field, such as MIs or the absence of flowering, shortened internodes and plant desiccation. Typical symptoms in infected periwinkles were virescence and phyllody. The molecular characterisation of the CMI phytoplasma isolates from diseased and asymptomatic field‐collected plants, vectors, and test plants was performed by sequence analyses of the 16S rRNA, rpl22‐rps3 and rpl15‐secY genes. Phylogenetic analyses of other members of the 16SrIII group of phytoplasmas indicated closest relatedness with clover yellow edge phytoplasma (CYE) of the 16SrIII‐B subgroup.     

Occurrence,Molecular Characterization and Vector Transmission of a Phytoplasma Associated with Rapeseed Phyllody in Iran

Symptoms of rapeseed phyllody were observed in rapeseed fields of Fars, Ghazvin, Isfahan, Kerman and Yazd provinces in Iran. Circulifer haematoceps leafhoppers testing positive for phytoplasma in polymerase chain reaction (PCR) successfully transmitted a rapeseed phyllody phytoplasma isolate from Zarghan (Fars province) to healthy rapeseed plants directly after collection in the field or after acquisition feeding on infected rapeseed in the greenhouse. The disease agent was transmitted by the same leafhopper from rape to periwinkle, sesame, stock, mustard, radish and rocket plants causing phytoplasma‐type symptoms in these plants. PCR assays using phytoplasma‐specific primer pair P1/P7 or nested PCR using primers P1/P7 followed by R16F2n/R2, amplified products of expected size (1.8 and 1.2 kbp, respectively) from symptomatic rapeseed plants and C. haematoceps specimens. Restriction fragment length polymorphism analysis of amplification products of nested PCR and putative restriction site analysis of 16S rRNA gene indicated the presence of aster yellows‐related phytoplasmas (16SrI‐B) in naturally and experimentally infected rapeseed plants and in samples of C. haematoceps collected in affected rapeseed fields. Sequence homology and phylogenetic analysis of 16S rRNA gene confirmed that the associated phytoplasma detected in Zarghan rapeseed plant is closer to the members of the subgroup 16SrI‐B than to other members of the AY group. This is the first report of natural occurrence and characterization of rapeseed phyllody phytoplasma, including its vector identification, in Iran.     

Nitrogen Relationships of Vigna mungo in Pure Stands and in Celosia argentea Mixtures

Dynamics of the nitrogen relationships of Vigna mungo in pureand in mixed stands with Celosia argentea, a common weed ofleguminous crops in certain regions of India, were investigated.The weed significantly depressed nodulation and reduced thedry matter and nitrogen yield of the legume which was lowestat the highest density of the weed. A significant amount ofnitrogen transfer occurred from the legume in the weed mixtureswhich appeared to be taken up by the weed plants. Therefore,weed plants benefited from their association with the legumeby accumulating more dry matter and nitrogen in the legume mixtures.The possible competitive or biochemical interference of theweed with nitrogen relationships of the legume in mixtures isdiscussed. Vigna mungo, Celosia argentea, pure stands, mixed stands, total nitrogen, interference     

Association of two groups of phytoplasma with various symptoms in some wooden and herbaceous plants

During 2015–2016, wooden and herbaceous plants growing in parks, boulevards, fields, gardens and forests in Khuzestan province, southwestern Iran, were visually inspected for symptoms resembling phytoplasma. Fifty‐one symptomatic samples from nine different species and one symptomless sample from each plant were collected. Leaf midribs, petioles and the parts of stem cambium were separated and freeze‐dried. Total DNA was extracted using CTAB‐based method and tested for phytoplasma using a nested PCR assay. The expected size amplicons of 16S rDNA were sequenced and compared to those of reference phytoplasmas by BLASTn search and phylogenetic analysis. The consensus 16S rDNA sequence of the detected phytoplasma in narrow cattail related to reference phytoplasma group 16SrVI, “Candidatus Phytoplasma trifolii” while in the other plants were related to reference phytoplasma subgroup 16SrII–D, “Candidatus Phytoplasma aurantifolia.” All isolates showed 98%–99% sequence identity to members of their reference groups. To our knowledge, this is the first report of “Candidatus Phytoplasma aurantifolia”‐related strains infecting the plants of Acacia salicina, Alternanthera ficoidea, Melaleuca citrine, Citrus aurantium throughout the world and Celosia christata in Iran. Furthermore, this study is the first to report the association of a “Candidatus Phytoplasma trifolii”‐related strain with Typha angustifolia worldwide.     

A new phytoplasma associated with little leaf disease in azalea: multilocus sequence characterization reveals a distinct lineage within the aster yellows phytoplasma group

An azalea little leaf (AzLL) disease characterised by abnormally small leaves, yellowing and witches'‐broom growth symptoms was observed in suburban Kunming, southwest China. Transmission electron microscopic observations of single‐membrane‐bound, ovoid to spherical bodies in phloem sieve elements of diseased plants and detection of phytoplasma‐characteristic 16S rRNA gene sequence in DNA samples from diseased plants provided evidence linking the disease to infection by a phytoplasma. Results from restriction fragment length polymorphism, phylogenetic and comparative structural analyses of multiple genetic loci containing 16S rRNA, rpsS, rplV, rpsC and secY genes indicated that the AzLL phytoplasma represented a distinct, new 16Sr subgroup lineage, designated as 16SrI‐T, in the aster yellows phytoplasma group. The genotyping also revealed that the AzLL phytoplasma represented new rp and secY gene lineages [rp(I)‐P and secY(I)‐O, respectively]. Phylogenetic analyses of secY and rp gene sequences allowed clearer distinctions between AzLL and closely related strains than did analysis of 16S rDNA.     

Comparative Molecular Analyses of Phytoplasmas infecting Sophora japonica cv. golden and Robinia pseudoacacia

Phytoplasmas were detected in Sophora japonica cv. golden and Robinia pseudoacacia with diseased branches of witches'‐broom collected in Haidian district, Beijing, China. Phytoplasma cells were observed in phloem sieve elements of symptomatic S. japonica cv. golden by transmission electron microscopy. The presence of phytoplasmas was further confirmed by sequence determination of partial gene sequences of 16S rDNA, rp (ribosomal protein) and secY. Phylogenetic trees and virtual restriction fragment length polymorphism (RFLP) analyses indicated that the phytoplasmas causing S. japonica cv. golden witches'‐broom (SJGWB) and R. pseudoacacia witches'‐broom (RPWB) belong to the 16SrV (elm yellows) group, and they are most closely related to subgroup 16SrV‐B, rpV‐C and secYV‐C jujube witches'‐broom (JWB) phytoplasma. Comparative analyses indicated that the phytoplasma of RPWB was closer to the JWB and that R. pseudoacacia might serve as an alternative host plant of JWB phytoplasma.     

Molecular Detection and Identification of a 16SrVI Group Phytoplasma Associated with Tomato Big Bud Disease in Xinjiang,China

In 2010, tomato plants with big bud symptoms were observed in Xinjiang, China. PCR products of approximately 1.2 and 2.8 kb were amplified from infected tomato tissues but not from asymptomatic plants. A comparison of 16S rDNA sequences showed that the casual tomato big bud (TBB) phytoplasma was closely (99%) related to the ‘Candidatus Phytoplasma trifolii’ (16SrVI group). The TBB phytoplasma clustered into one branch with the Loofah witches'‐broom phytoplasma according to the 23S rDNA analysis but with no other member of the 16SrVI group. The cause of TBB symptoms was identified as ‘Ca. Phytoplasma trifolii' (16SrVI group) by PCR, virtual RFLP and sequencing analyses. This is the first report of a phytoplasma related to ‘Ca. Phytoplasma trifolii' causing TBB disease in China.     

Transmission of “Candidatus Phytoplasma pruni”‐related strain associated with broccoli stunt by four species of leafhoppers

A disease known as broccoli stunt, associated with “Candidatus Phytoplasma pruni”‐related strain, has been responsible by significant economic losses in crops grown in the State of São Paulo, Brazil. Previous investigations evidenced some species of leafhoppers observed in broccoli fields as potential vectors of the phytoplasma. In this study, the six species more frequently found in broccoli crops were collected to confirm that evidence. Group of five insects of each species were confined per broccoli seedling for an inoculation access period (IAP) of 48 hr. After the IAP, each group was tested for detection of phytoplasma. Evaluation of plants was performed 60 days after inoculation based on the presence of phytoplasma in their tissues. When transmission was positive, genomic fragments corresponding to 16S rDNA were sequenced both for the infected plants and its respective group of insects. The results revealed that the species Agallia albidula, Agalliana sticticollis, Atanus nitidus and Balcluta hebe were able to transmit phytoplasma to broccoli seedlings. Based on the estimates of transmission probability by single insects (P), the highest transmission rate was observed for A. nitidus (24.2%) and the lowest for B. hebe (1.9%). The sequencing of 16S rDNA revealed complete similarity between the sequences of the phytoplasma transmitted to broccoli test plants and the sequences of the phytoplasma found in the field‐collected leafhoppers. These findings support the inclusion of those species as vectors of phytoplasmas belonging to 16SrIII group in broccolis, providing additional information to improve management of this important disease of endemic occurrence.     

Molecular Characterization of Aster Yellows Subgroup 16SrI‐B Phytoplasma in Verbena × hybrida

Symptoms resembling phytoplasma disease were observed on Verbena × hybrida in Alanya, Turkey, during October 2013. Infected plants were growing as perennials in a flower border and showed symptoms of discoloured flowers, poor flower clusters, inflorescences with a small number of developed flowers and thickened fruit stalks. Electron microscopy examination of the ultra‐thin sections revealed polymorphic bodies in the phloem tissue of leaf midribs. The phytoplasma aetiology of this disease was confirmed by polymerase chain reaction of the 16S rRNA gene, the 16–23S rRNA intergenic spacer region and the start of the 23S rRNA gene using universal phytoplasma‐specific primer pair P1A/P7A, two ribosomal protein (rp) genes (rpl22 and rps3) (the group‐specific primer pair rp(I)F1A/rp(I)R1A) and the Tuf gene (group‐specific fTufAy/rTufAy primers) generating amplicons of 1.8 kbp, 1.2 kbp and 940 bp, respectively. Comparison of the amplified sequences with those available in GenBank allowed classification of the phytoplasma into aster yellows subgroups 16SrI‐B, rpI‐B and tufI‐B. This is the first report about molecular detection and identification of natural infection of the genus Verbena by phytoplasma and occurrence of the aster yellows group phytoplasma on an ornamental plant in Turkey.     

Genetic Diversity and Population Structure of Celosia argentea and Related Species Revealed by SRAP

Genetic diversity of 16 populations of Celosia argentea L. and 6 populations of Celosia cristata L. in China was investigated using sequence-related amplified polymorphism (SRAP). Ten SRAP primer combinations generated 507 scorable amplification bands ranging from 50 to 2000 bp, among which 274 were polymorphic, with an average of 54 polymorphic bands per primer combination. The unweighted pair group method of arithmetic averages (UPGMA) cluster analysis enabled construction of a phylogenetic tree for estimating genetic distance among populations, which agreed well with the geographic origin information. Twenty-two populations were distinctly separated into two major genetic groups. One typical representative fragment, M1E6 in C. argentea, provided an alternative approach to distinguish C. argentea from C. cristata. Also, great genetic diversity found in C. argentea populations by significant geographic difference was confirmed by a high level of population genetics parameters. The information may be beneficial to future breeding selection and conservation management for populations of C. argentea.     

Molecular Identification and Diversity of ‘Candidatus Phytoplasma solani’ Associated with Red‐leaf Disease of Salvia miltiorrhiza in China

Reddening disease has recently been threatening Salvia miltiorrhiza in China, ranging from 30 to 50%. The main symptoms observed, such as plant stunting, inflorescence malformation, leaf reddening, fibrous roots browning, skin blackening and eventually root rot, are typically associated with phytoplasma infection. The presence of phytoplasmas was demonstrated through phytoplasma‐specific PCR, with the expected amplification (1.8 kb) from symptomatic S. miltiorrhiza plants from Shangluo, Shangzhou and Luonan fields in Shaanxi Province of China. The sequences of 16S rRNA, tuf, secY and vmp1 genes amplified from LN‐1 phytoplasma shared the closest homologies of 99%, 100%, 99% and 98% with those of the reference strain Candidatus Phytoplasma solani (subgroup 16SrXII‐A), respectively. The phylogenetic trees showed that LN‐1 phytoplasma clustered with the members of 16SrXII‐A group, including Ca. P. solani. Computer‐simulated restriction fragment length polymorphism analysis further supported this classification. Diversity analysis showed that all ‘Ca. P. solani’ strains identified from the three different regions examined shared 100% identical 16S rRNA, tuf, secY and vmp1 nucleotide sequences. To the best of our knowledge, this is the first report of phytoplasma infecting the medicinal plant of S. miltiorrhiza. The results demonstrate that ‘Ca. P. solani’ is the presumptive aetiological agent of S. miltiorrhiza reddening disease in China.     

Detection and Molecular Characterization of a 16SrII‐A* Phytoplasma in Grapefruit (Citrus paradisi) with Huanglongbing‐like Symptoms in China

In the year 2010, in a survey in Guangxi Province, China, to detect and characterize phytoplasmas in a huanglongbing (HLB)‐infected grapefruit (Citrus paradisi) orchard, 87 leaf samples with symptoms of blotchy mottle were collected from symptomatic grapefruit trees, and 320 leaf samples from symptomless trees adjacent to the symptomatic trees. Nested polymerase chain reaction (PCR) using universal phytoplasma primer set P1/P7 followed by primer set fU5/rU3 identified 7 (8.0%) positive samples from symptomatic samples but none from symptomless samples. Of the 87 symptomatic samples, 77 (88.5%) were positive for ‘Candidatus Liberibacter asiaticus’ and 5 for both phytoplasma and ‘Ca. L. asiaticus’. Sequence analysis indicated that seven 881‐bp amplicons, amplified by nested phytoplasma primer sets P1/P7 and fU5/rU3, shared 100.0% sequence identity with each other. Genome walking was then performed based on the 881 bp known sequences, and 5111 bp of upstream and downstream sequences were obtained. The total 5992 bp sequences contained a complete rRNA operon, composed of a 16S rRNA gene, a tRNA^Ile gene, a 23S rRNA gene and a 5S rRNA gene followed by eight tRNA genes. Phylogenetic analysis and virtual restriction fragment length polymorphism analysis confirmed the phytoplasma was a variant (16SrII‐A*) of phytoplasma subgroup 16SrII‐A. As phytoplasmas were only detected in blotchy‐mottle leaves, the 16SrII‐A* phytoplasma identified was related to HLB‐like symptoms.     

Potato purple top phytoplasma‐induced disruption of gibberellin homeostasis in tomato plants

Phytoplasmas are phloem‐inhabiting, cell wall‐less bacteria that cause numerous plant diseases worldwide. Plants infected by phytoplasmas often exhibit various symptoms indicative of hormonal imbalance. In this study, we investigated the effects of potato purple top (PPT) phytoplasma infection on gibberellin homeostasis in tomato plants. We found that PPT phytoplasma infection caused a significant reduction in endogenous levels of gibberellic acid (GA₃). The decrease in GA₃ content in diseased plants was correlated with down regulation of genes responsible for biosynthesis of bioactive GAs ( GA20ox1 and GA3ox1) and genes involved in formation of GA precursors [geranyl diphosphate synthase (GPS) and copalyldiphosphate synthase (CPS)]. Exogenous application of GA₃ at 200 µmol L^?1 was able to restore the GA content in infected plants to levels comparable to those in healthy controls, and to attenuate the characteristic ‘big bud’ symptoms induced by the phytoplasma. The interesting observation that PPT phytoplasma‐infected plants had prolonged low expression of key GA biosynthesis genes GA20ox1 and GA3ox1 under GA deficiency conditions led us to hypothesise that there was a diminished sensitivity of the GA metabolism feedback regulation, especially GA biosynthesis negative feedback regulation, in those affected plants, and such diminished sensitization in early stages of infection may represent a central element of the phytoplasma‐induced disruption of GA homeostasis and pathogenesis.     

First Report of a 16SrI‐C Phytoplasma Infecting Celery (Apium graveolens) with Stunting,Bushy Top and Phyllody in the Czech Republic

Apium graveolens L. plants showing stunting, purplish/whitening of new leaves, flower abnormalities and bushy tops were observed in South Bohemia (Czech Republic) during 2011 and 2012. Transmission electron microscopy observations showed phytoplasmas in phloem sieve tube elements of symptomatic but not healthy plants. Polymerase chain reactions with universal and group‐specific phytoplasma primers followed by restriction fragment length polymorphism analyses and sequencing of 16S rDNA enabled classification of the detected phytoplasmas into the aster yellows group, ribosomal subgroup 16SrI‐C. Identical analyses of the ribosomal protein genes rpl22 and rps3 were used for further classification and revealed affiliation of the phytoplasmas with the rpIC subgroups. This is the first report of naturally occurring clover phyllody phytoplasma in A. graveolens in both the Czech Republic and worldwide.     

Mixed Infection and Natural Spread of ‘Candidatus Phytoplasma asteris’ and Mungbean Yellow Mosaic India Virus Affecting Soya Bean Crop in India

Suspected phytoplasma and virus‐like symptoms of little leaf, yellow mosaic and witches’ broom were recorded on soya bean and two weed species (Digitaria sanguinalis and Parthenium hysterophorus), at experimental fields of Indian Agricultural Research Institute, New Delhi, India, in August–September 2013. The phytoplasma aetiology was confirmed in symptomatic soya bean and both the weed species by direct and nested PCR assays with phytoplasma‐specific universal primer pairs (P1/P6 and R16F2n/R16R2n). One major leafhopper species viz. Empoasca motti Pruthi feeding on symptomatic soya bean plants was also found phytoplasma positive in nested PCR assays. Sequencing BLASTn search analysis and phylogenetic analysis revealed that 16Sr DNA sequences of phytoplasma isolates of soya bean, weeds and leafhoppers had 99% sequence identity among themselves and were related to strains of ‘Candidatus Phytoplasma asteris’. PCR assays with Mungbean yellow mosaic India virus (MYMIV) coat‐protein‐specific primers yielded an amplicon of approximately 770 bp both from symptomatic soya bean and from whiteflies (Bemisia tabaci) feeding on soya bean, confirmed the presence of MYMIV in soya bean and whitefly. Hence, this study suggested the mixed infection of MYMIV and ‘Ca. P. asteris’ with soya bean yellow leaf and witches’ broom syndrome. The two weed species (D. sanguinalis and P. hysterophorus) were recorded as putative alternative hosts for ‘Ca. P. asteris’ soya bean Indian strain. However, the leafhopper E. motti was recorded as putative vector for the identified soya bean phytoplasma isolate, and the whitefly (B. tabaci) was identified as vector of MYMIV which belonged to Asia‐II‐1 genotype.     

Molecular detection and characterization of a stolbur phytoplasma associated with Narcissus tazetta phyllody in Iran

During field surveys in 2015, a phytoplasma‐associated disease was identified in Narcissus tazetta plants in Behbahan, Iran. The characteristic symptoms were phyllody and virescence. The presence of phytoplasma in symptomatic plants was confirmed using PCR amplification and sequencing of 16S rRNA, tuf, secY and vmp1 genes. Based on the blastn results, the sequences of 16S rRNA, tuf, secY and vmp1 genes shared, respectively, 99%, 100%, 99% and 99% sequence identity with phytoplasma strains in 16SrXII‐A subgroup. RFLP and phylogenetic analyses using the sequences of 16S rRNA, tuf and secY genes confirmed the assortment of studied strains to 16SrXII‐A phytoplasma subgroup. Sequence comparison of these four genes revealed that all the sequences of 28 strains studied were identical. To the best of our knowledge, the association of “Candidatus Phytoplasma solani” with N. tazetta was demonstrated for the first time in the world.