Molecular Characterization of Phytoplasmas Associated with Potato Purple Top Disease in Iran

Potato plants with symptoms suggestive of potato purple top disease (PPTD) occurred in the central, western and north‐western regions of Iran. Polymerase chain reaction (PCR) and nested PCR assays were performed using phytoplasma universal primer pair P1/P7 followed by primer pairs R16F2n/R16R2 and fU5/rU3 for phytoplasma detection. Using primer pairs R16F2n/R16R2 and fU5/rU3 in nested PCR, the expected fragments were amplified from 53% of symptomatic potatoes. Restriction fragment length polymorphism (RFLP) analysis using AluI, CfoI, EcoRI, KpnI, HindIII, MseI, RsaI and TaqI restriction enzymes confirmed that different phytoplasma isolates caused PPTD in several Iranian potato‐growing areas. Sequences analysis of partial 16S rRNA gene amplified by nested PCR indicated that ‘Candidatus Phytoplasma solani’, ‘Ca. Phytoplasma astris’ and ‘Ca. Phytoplasma trifolii’ are prevalent in potato plants showing PPTD symptoms in the production areas of central, western and north‐western regions of Iran, although ‘Ca. Phytoplasma solani’ is more prevalent than other phytoplasmas. This is the first report of phytoplasmas related to ‘Ca. Phytoplasma astris’, ‘Ca. Phytoplasma solani’ and ‘Ca. Phytoplasma trifolii’ causing PPTD in Iran.     

Molecular Characterization of Phytoplasmas Related to Apple Proliferation and Aster Yellows Groups Associated with Pear Decline Disease in Iran

Pear trees showing pear decline disease symptoms were observed in pear orchards in the centre and north of Iran. Detection of phytoplasmas using universal primer pair P1A/P7A followed by primer pair R16F2n/R16R2 in nested PCR confirmed association of phytoplasmas with diseased pear trees. However, PCR using group‐specific primer pairs R16(X)F1/R16(X)R1 and rp(I)F1A/rp(I)R1A showed that Iranian pear phytoplasmas are related to apple proliferation and aster yellows groups. Moreover, PCR results using primer pair ESFYf/ESFYr specific to 16SrX‐B subgroup indicated that ‘Ca. Phytoplasma prunorum’ is associated with pear decline disease in the north of Iran. RFLP analyses using HaeIII, HhaI, HinfI, HpaII and RsaI restriction enzymes confirmed the PCR results. Partial 16S rRNA, imp, rp and secY genes sequence analyses approved that ‘Ca. Phytoplasma pyri’ and ‘Ca. Phytoplasma asteris’ cause pear decline disease in the centre of Iran, whereas ‘Ca. Phytoplasma prunorum’ causes disease in the north of Iran. This is the first report of the association of ‘Ca. Phytoplasma asteris’ and ‘Ca. Phytoplasma prunorum’ with pear decline disease worldwide.     

Characterization of Phytoplasmas Related to 'Candidatus Phytoplasma asteris' and Peanut WB Group Associated With Sweet Cherry Diseases in Iran

Symptoms suggestive of phytoplasma diseases were observed in infected sweet cherry trees growing in the central regions of Iran. Phytoplasmas were detected in symptomatic trees by the nested polymerase chain reaction (nested PCR) using phytoplasma universal primer pairs (P1/Tint, PA2F/R, R16F2/R2 and NPA2F/R). Restriction fragment length polymorphism analyses of 485 bp DNA fragments amplified in nested PCR revealed that different phytoplamas were associated with infected trees. Sequence analyses of phytoplasma 16S rRNA gene and 16S-23S intergenic spacer region indicated that the phytoplasmas related to ' Ca. Phytoplasma asteris ' and peanut WB group infect sweet cherry trees in these regions. This is the first report of the presence of phytoplasmas related to ' Ca. Phytoplasma asteris' and peanut WB group in sweet cherry trees.     

Molecular Characterization of a Phytoplasma Associated with Potato Witches’‐broom Disease in Iran

Potato plants showing symptoms suggestive of potato witches’‐broom disease including witches’‐broom, little leaf, stunting, yellowing and swollen shoots formation in tubers were observed in the central Iran. For phytoplasma detection, Polymerase Chain Reaction (PCR) and nested PCR assays were performed using phytoplasma universal primer pair P1/P7, followed by primer pair R16F2n/R16R2. Random fragment length polymorphism analysis of potato phytoplasma isolates collected from different production areas using the CfoI restriction enzyme indicated that potato witches’‐broom phytoplasma isolate (PoWB) is genetically different from phytoplasmas associated with potato purple top disease in Iran. Sequence analysis of the partial 16S rRNA gene amplified by nested PCR indicated that ‘Candidatus Phytoplasma trifolii’ is associated with potato witches’‐broom disease in Iran. This is the first report of potato witches’‐broom disease in Iran.     

Niger Seed (Guizotia abyssinica), a New Host of ‘Candidatus Phytoplasma asteris’ in Iran

Shrubs of niger seed with phyllody and internode elongation symptoms suggestive of phytoplasma infections occurred in the central regions of Iran. Phytoplasma was detected by polymerase chain reaction (PCR) and nested PCR amplifications using phytoplasma universal primer pairs P1/P7 and R16F2n/R16R2. Using aster yellows group–specific primer pair rp(I)F1A/rp(I)R1A, a fragment of 1212 bp of the rp genes was amplified from DNA samples of infected plants. Random fragment length polymorphism (RFLP) analyses of R16F2n/R16R2‐amplified products using the CfoI restriction enzyme confirmed that Iranian niger seed phyllody phytoplasma is associated with aster yellows group phytoplasmas. Sequence analyses of the partial rp genes fragment indicated that the Iranian niger seed phyllody phytoplasma, which was collected from central regions of Iran, is related to ‘Candidatus Phytoplasma asteris’. This is the first report of a phytoplasma infecting the niger seed plant.     

Molecular study of two distinct phytoplasma species associated with streak yellows of date palm in Iran

A disease with symptoms similar to palm lethal yellowing was noticed in the early 2013 in Khuzestan Province (Iran) in date palm (Phoenix dactylifera). Infected trees displaying symptoms of streak yellows and varied in the incidence and severity of yellowing. A study was initiated to determine whether phytoplasma was the causal agent. Polymerase chain reaction–restriction fragment length polymorphism (PCR‐RFLP) methods using universal phytoplasma primers pairs R16mF1/mR1 and M1/M2 were employed to detect putative phytoplasma(s) associated with date palm trees. Nested PCR using universal primers revealed that 40 out of 53 trees were positive for phytoplasma while asymptomatic date palms from another location (controls) tested negative. RFLP analyses and DNA sequencing of 16S rDNA indicated that the presence of two different phytoplasmas most closely related to clover proliferation (CP) phytoplasma (group 16SrVI) and ash yellows (AY) phytoplasma (group 16SrVII). Sequence analysis confirmed that palm streak yellows phytoplasmas in each group were uniform and to be phylogenetically closest to “CandidatusP. fraxini” (MF374755) and “Ca. P. trifolii” isolate Rus‐CP361Fc1 (KX773529). Result of RFLP analysis of secA gene of positive samples using TruI and TaqI endonuclease is in agreement with rDNA analysis. On this basis, both strains were classified as members of subgroups 16SrVI‐A and 16SrVII‐A. This is the first report of a phytoplasma related to CP and AY phytoplasma causing date palm yellows disease symptoms.     

Molecular study of phytoplasmas associated with pistachio yellows in Iran

A large‐scale survey was conducted on pistachio plants exhibiting foliar symptoms including scorch, little leaf, yellows and reddish in pistachio growing areas in the Qom, Yazd and Qazvin provinces of Iran. Total DNA was extracted from symptomatic and symptomless pistachio and used in nested PCR assays with phytoplasma universal primers. Nested PCR products were obtained for symptomatic plant samples while the symptomless plants yielded no PCR products. Virtual restriction fragment length polymorphism, phylogenetic and DNA homology analyses of partial 16S ribosomal sequences of phytoplasma strains associated with symptomatic plants revealed the presence of phytoplasmas referable to two ribosomal groups; in particular, “Candidatus Phytoplasma solani” and “Ca. P. phoenicium” were identified. The presence of these phytoplasmas in pistachio is of great phytosanitary significance due to its commercial interest.     

Occurrence and Characterization of a 16SrII‐D Subgroup Phytoplasma Associated with Parsley Witches’ Broom Disease in Iran

During 2010–2013 surveys for the presence of phytoplasma diseases in Yazd province (Iran), a parsley witches’ broom (PrWB) disease was observed. Characteristic symptoms were excessive development of short spindly shoots from crown buds, little leaf, yellowing, witches’ broom, stunting, flower virescence and phyllody. The disease causative agent was dodder transmitted from symptomatic parsley to periwinkle and from periwinkle to periwinkle by grafting inducing phytoplasma‐type symptoms. Expected length DNA fragments of nearly 1800 and 1250 bp were, respectively, amplified from naturally infected parsley and experimentally inoculated periwinkle plants in direct polymerase chain reaction (PCR) using phytoplasma primer pair P1/P7 or nested PCR using the same primer pair followed by R16F2n/R16R2 primers. Restriction fragment length polymorphism and phylogenetic analyses of 16S rRNA gene sequences showed that the phytoplasma associated with PrWB disease in Yazd province belong to 16SrII‐D phytoplasma subgroup. This is the first report of association of a 16SrII‐related phytoplasma with PrWB disease in Iran.     

Detection and Molecular Identification of Aster Yellows Phytoplasma in Date Palm in Egypt

Phytoplasma‐like symptoms were detected in date palm trees (Phoenix dactylifera L.) in Al‐Giza Governorate in Egypt. Symptoms varied from leaf chlorotic streaks, stunting and marked reduction in fruit and stalk sizes. Direct and nested PCR of symptomatic samples using P1/P7 and R16F2n/R16R2n primers, respectively, of the 16S rRNA gene, resulted in a DNA amplification product of c. 1.3 kbp. Symptomless samples collected from the same location and the healthy control produced no product upon amplification. Products were cloned into TOPO TA vector for sequencing. Data generated were deposited in the GenBank (Accession KF826615 ). A BLAST search showed that the sequence of the 16SrRNA gene shared ‘Candidatus Phytoplasma asteris’ (16SrI group) with other isolates. Phylogenetic analysis revealed that the isolate clustered with the date palm phytoplasma causing Al‐Wijam disease in Saudi Arabia.     

Identification and Molecular Characterization of ‘Candidatus Phytoplasma mali’ Isolates in North‐western Italy

Apple proliferation (AP) is an important disease and is prevalent in several European countries. The causal agent of AP is ‘Candidatus Phytoplasma mali’ (‘Ca. Phytoplasma mali’). In this work, isolates of ‘Ca. Phytoplasma mali’ were detected and characterized through polymerase chain reaction (PCR) and restriction fragment length polymorphism (RFLP) analyses of 16S rRNA gene and non‐ribosomal DNA fragment. The presence of three AP subtypes (AT‐1, AT‐2 and AP‐15) was identified in 31 symptomatic apple trees and two samples each constituted by a pool of five insects, collected in north‐western Italy, where AT‐1 is a dominant subtype. Subsequent nucleotide sequence analysis of the PCR‐amplified 1.8 kb (P1/P7) fragment, containing the 16S rDNA, the 16S–23S intergenic ribosomal region and the 5′‐end of the 23S rDNA, revealed the presence of at least two phytoplasmal genetic lineages within the AT‐1 subtype, designed AT‐1a and AT‐1b. Moreover, in silico single nucleotide polymorphism (SNP) analysis based on 16S rDNA sequence can differentiate AT‐1 subtype from AT‐2 and AP‐15 subtypes. Our data showed a high degree of genetic diversity among ‘Ca. Phytoplasma mali’ population in north‐western Italy and underlined the possible use of the 16S rDNA analysis for the identification and the geographical origin assignation of isolates of AP phytoplasma. Molecular markers on 16S rDNA, here identified, could be useful for studying the epidemiology of AP disease.     

‘Candidatus Phytoplasma asteris’ and ‘Candidatus Phytoplasma aurantifolia’, New Phytoplasma Species Infecting Apple Trees in Iran

During several surveys in extensive areas in central Iran, apple trees showing phytoplasma diseases symptoms were observed. PCR tests using phytoplasma universal primer pairs P1A/P7A followed by R16F2n/R16R2 confirmed the association of phytoplasmas with symptomatic apple trees. Nested PCR using 16SrX group‐specific primer pair R16(X)F1/R1 and aster yellows group‐specific primer pairs rp(I)F1A/rp(I)R1A and fTufAy/rTufAy indicated that apple phytoplasmas in these regions did not belong to the apple proliferation group, whereas aster yellows group‐related phytoplasmas caused disease on some trees. Restriction fragment length polymorphism (RFLP) analyses using four restriction enzymes (HhaI, HpaII, HaeIII and RsaI) and sequence analyses of partial 16S rRNA and rp genes demonstrated that apple phytoplasma isolates in the centre of Iran are related to ‘Ca. Phytoplasma asteris’ and ‘Ca. Phytoplasma aurantifolia’. This is the first report of apples infected with ‘Ca. Phytoplasma asteris’ in Iran and the first record from association of ‘Ca. Phytoplasma aurantifolia’ with apples worldwide.     

Multilocus sequence analysis of phytoplasma strains of 16SrII group in Iran and their comparison with related strains

Phytoplasmas of the group 16SrII (peanut witches'‐broom group) are among the most important phytoplasmas identified in Iran. These phytoplasmas are so diverse that they have been classified within 23 subgroups, among which phytoplasmas of subgroups 16SrII‐B, ‐C and ‐D have been recognised in Iran. In this study, we used multilocus sequence analysis as a tool to find the extent of genetic diversity and phylogeny of representative phytoplasmas of 16SrII in Iran in comparison to reference phytoplasma strains characterised elsewhere. The genes used were 16S rRNA, secY, rplV‐rpsC, imp and a hypothetical protein (inmp). Analysis of this study showed that phytoplasmas of 16SrII could be resolved into at least three main phylogenetic lineages. One lineage comprised phytoplasmas of the subgroups 16SrII‐A and II‐D, another included strains of subgroups 16SrII‐B and II‐C and the third lineage comprised phytoplasmas belonging to 16SrII‐E. The significance of host adaptation and geographical distribution in relation to the genetic diversity of these phytoplasmas is discussed. Among five different genetic loci used in this study, imp gene displayed the highest genetic diversity, hence considered as the most powerful genetic tool for differentiation of closely related phytoplasmas.     

Characterization of a Phytoplasma Associated with Pear Decline in Iran

Symptoms of pear decline (PD) were observed in several pear growing regions of Iran. Pear trees with typical symptoms of PD from Estahban (Fars Province) were examined for phytoplasma infection using polymerase chain reaction (PCR) assay. Graft inoculation of healthy pear trees with scions from diseased trees resulted in production of PD symptoms and transmission of phytoplasma as verified by PCR. Target DNA was amplified from symptomatic pear trees with fO1/rO1, an apple proliferation (AP) group-specific primer pair. Physical and putative restriction fragment length polymorphism (RFLP) analyses of fO1/rO1 primed PCR products showed profiles corresponding to AP group, 16SrX-C subgroup ( Candidatus Phytoplasma pyri). Percent similarity values and phylogenetic analysis of fO1/rO1 primed sequences confirmed that, as a member of AP subclade, Estahban PD phytoplasma has a closer relationship to PD and peach yellow leaf roll phytoplasmas than to AP ( Ca . Phytoplasma mali) and European stone fruit yellows ( Ca . Phytoplasma prunorum) phytoplasmas. This is the first report of PD phytoplasma in the eastern Mediterranean.     

Multigene Sequence Analysis of Aster Yellows Phytoplasma Associated with Primrose Yellows

Primula acaulis (L.) Hill. plants showing stunting, leaf‐yellowing and virescence were first discovered in the Czech Republic. Polymerase chain reactions with subsequent restriction fragment length polymorphism analyses and sequencing enabled classification of the detected phytoplasmas into the aster yellows group, ribosomal subgroup 16SrI‐B, tufI‐B, rpI‐B, groELIB‐III and SecY‐IB subgroups. Phylogeny of the 16S rRNA gene sequences as well as sequence analysis of several chromosomal regions, such as the 16S‐23S ribosomal operon, ribosomal proteins, spc ribosomal protein operon, genes for elongation factor EF‐Tu, molecular chaperonin large subunit GroEL, immunodominant membrane protein, ribosome recycling factor, urydilate kinase, ATP‐ and Zn²⁺‐dependent proteases not only confirmed its affiliation with the ‘Candidatus Phytoplasma asteris’ species but also enabled its detailed molecular characterization. The less researched regions of phytoplasma genome (amp, adk, hflB, pyrH‐frr genes) could be valuable as additional markers for phytoplasma through differentiation especially within the 16SrI‐B ribosomal subgroup.     

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.     

Molecular typing of Coorg black pepper yellows phytoplasma by multiple gene analyses

In previous work, Coorg black pepper yellows phytoplasma (CBPYp), a ‘Candidatus Phytoplasma asteris'‐related strain, was identified in association with black pepper plants exhibiting yellows symptoms in southern India. In the present study, multiple gene (16S rRNA, tuf, rplV‐rpsC, secY and secA) sequence analyses were carried out for finer characterisation of CBPYp isolates identified in seven plants. Nucleotide sequences of each gene studied were identical among all the CBPYp isolates here analysed. Comparison of virtual restriction fragment length polymorphism (RFLP) patterns, validated by actual digestion of polymerase chain reaction (PCR) products, revealed that CBPYp is a member of subgroups 16SrI‐B, rpI‐L, tufI‐B, secYI‐L and secA1‐A. Interestingly, alignments of nucleotide sequences with other ‘Candidatus Phytoplasma asteris'‐related strains revealed the presence of CBPYp‐specific single nucleotide polymorphisms (SNPs), located in restriction sites for endonucleases not used for conventional classification. CBPYp‐specific SNPs in genes 16S rRNA, tuf and secA were detectable by virtual and actual RFLP assays, while SNPs present in rplV‐rpsC and secY genes were not located in any restriction recognition site. CBPYp‐specific SNPs can be used as molecular markers for the specific identification of CBPYp and for future research focused on investigating epidemiology and ecology of CBPYp in India.     

Detection and Identification of a 16SrII Group Phytoplasma Causing Clover Little Leaf Disease in Iran

White clover plants showing little leaf and leaf reddening symptoms were observed in Isfahan Province in central Iran. Restriction fragment length polymorphism analyses of nested PCR‐amplified fragments from Iranian clover little leaf phytoplasma isolates and representative phytoplasmas from other phytoplasma groups using AluI, CfoI, KpnI and RsaI restriction enzymes indicated that the clover phytoplasma isolates are related to the peanut WB group. Sequence analyses of partial 16S rRNA fragments showed that Iranian clover little leaf phytoplasma has 99% similarity with soybean witches'‐broom phytoplasma, a member of the peanut WB (16SrII) phytoplasma group. This is the first report of clover infection with a phytoplasma related to the 16SrII group.     

Characterization of Cylindrocarpon liriodendri Associated with Black Foot Disease of Grapevine in Iran

Eight Cylindrocarpon isolates recovered from the trunk bases of 10-year-old grapevines showing decline symptoms from two vineyards in Bavanat (Fars province, south-western Iran) were studied. Based on phenotypical characteristics, mating experiments and molecular data, they were identified as Cylindrocarpon liriodendri. Pathogenicity was confirmed with selected isolates inoculated into 8-month-old dormant rooted cuttings of grapevine rootstock cv. 110 Richter. This is the first report of C. liriodendri causing black foot disease of grapevines in Iran.     

Association of a Phytoplasma with Pistachio Witches’ Broom Disease in Iran

Pistachio is an important crop in Iran, which is a major producer and exporter of pistachio nuts. The occurrence of a new disease of pistachio trees, characterized by the development of severe witches’ broom, stunted growth and leaf rosetting, was observed in Ghazvin Province. A phytoplasma was detected in infected trees by polymerase chain reaction (PCR) amplification of rRNA operon sequences. Nested PCR with primer pairs P1/P7 and R16F2n/R16R2 was used for specific detection of the phytoplasma in infected trees. To determine its taxonomy, the random fragment length polymorphism (RFLP) pattern and sequence analysis of the amplified rRNA gene were studied. Sequencing of the amplified products of the phytoplasma 16S rRNA gene indicated that pistachio witches’ broom (PWB) phytoplasma is in a separate 16S rRNA group of phytoplasmas (with sequence homology 97% in Blast search). The unique properties of the DNA of the PWB phytoplasma indicate that it is a representative of a new taxon.