Detection and identification of phytoplasma associated with witches’ broom and little leaf disease in Arundo donax: first report from India

During the survey of two successive years 2012–2013, in nearby places of Gorakhpur districts, Uttar Pradesh, India, Arundo donax plants were found to be exhibiting witches’ broom, excessive branching accompanied with little leaf symptoms with considerable disease incidence. Nested PCR carried out with universal primers pair R16F2n/R16R2 employing the PCR (P1/P7) product as a template DNA (1:20) resulted in expected size positive amplification ~1.2 kb in all symptom-bearing plants suggested the association of phytoplasma with witches’ broom disease of Narkat plants. BLASTn analysis of the 16S rRNA gene sequence showed the highest (99%) sequence identity with Candidatus phytoplasma asteris (16SrI group). In phylogenetic analysis, the sequence data showed close relationships with the members of 16SrI phytoplasma and clustered within a single clade of 16SrI group and closed to B subgroup representatives. This is a first report of 16Sr I-B group phytoplasma associated with witches’ broom accompanied with little leaf disease of Narkat in India.     

Molecular Identification of a 16SrII‐A Group‐Related Phytoplasma Associated with Cinnamon Yellow Leaf Disease in China

Chinese cinnamon (Cinnamomum cassia Presl), an evergreen tree native to China, is a multifaceted medicinal plant. The stem bark of cinnamon is used worldwide in traditional and modern medicines and is one of the most popular cooking spices. In recent years, cinnamon with pronounced yellow leaf symptoms has been observed in their natural habitat in Hainan, China. Phytoplasmas were detected from symptomatic cinnamon trees via polymerase chain reaction using phytoplasma universal primers P1/P7 followed by R16F2n/R16R2. No amplification products were obtained from templates of asymptomatic cinnamon trees. These results indicated a direct association between phytoplasma infection and the cinnamon yellow leaf (CYL) disease. Sequence analysis of the CYL phytoplasma 16S rRNA gene determined that CYL phytoplasma is a ‘Candidatus Phytoplasma australasiae’‐related strain. Furthermore, virtual restriction fragment length polymorphism pattern analysis and phylogenetic studies showed that CYL phytoplasma belongs to the peanut witches’‐broom (16SrII) group, subgroup A. This is the first report of a 16SrII group phytoplasma infecting cinnamon under natural conditions.     

Association of beet leafhopper (Hemiptera: Cicadellidae) with a clover proliferation group phytoplasma in Columbia basin of Washington and Oregon

At least 16 taxa of cicadellids and delphacids were tested by polymerase chain reaction (PCR) for the presence of a phytoplasma in the clover proliferation group, designated 16SrVI. Nucleic acid extracts from individual insects or groups of 5-10 were tested using PCR primers designed from the DNA sequence of 16S-23S rRNA or ribosomal protein genes of the pathogen. The beet leafhopper, Circulifer tenellus (Baker), was most often associated with the phytoplasma, with approximately 16% of the insects testing positive. The phytoplasma was occasionally found associated with Ceratagallia spp. Leafhopper species that were not associated with the phytoplasma included Macrosteles spp., Dikraneura spp., Colladonus montanus (Van Duzee), Circulifer geminatus (Van Duzee), Ballana spp., Amplysellus spp., Paraphlepsius spp., Texananus spp., Balclutha spp., Latalus spp., Erythroneura spp., Exitianus exitiosus (Uhler), and unidentified delphacids. The detected phytoplasma was similar to, or synonymous with, the beet leafhopper-transmitted virescence agent that is associated with the potato purple top disease in the Columbia Basin region of Washington and Oregon. This is in contrast to the phytoplasma associated with potato purple top disease in Mexico that is related to aster yellows (group 16SrI). The association of the group 16SrVI phytoplasma almost exclusively with the beet leafhopper suggests that this insect is the major vector of the phytoplasma in this region.     

Identification of ‘Candidatus Phytoplasma solani’ Associated with Tree Peony Yellows Disease in China

Tree peony (Paeonia suffruticosais) plants with yellowing symptoms suggestive of a phytoplasma disease were observed in Shandong Peninsula, China. Typical phytoplasma bodies were detected in the phloem tissue using transmission electron microscopy. The association of a phytoplasma with the disease was confirmed by polymerase chain reaction (PCR) using phytoplasma universal primer pair R16mF2/R16mR1 followed by R16F2n/R16R2 as nested PCR primer pair. The sequence analysis indicated that the phytoplasma associated with tree peony yellows (TPY) was an isolate of ‘Ca. Phytoplasma solani’ belonging to the stolbur (16SrXII) group. This is the first report of a phytoplasma associated with tree peony.     

Association of Elm Yellows Subgroup 16SrV‐B Phytoplasma with a Disease of Hovenia dulcis

Japanese raisin (Hovenia dulcis) trees with typical phytoplasma‐like symptoms were observed for the first time in South Korea. The disease, named Japanese raisin witches’ broom, is progressively destructive. The cause of the graft‐transmissible disease was confirmed by electron microscopy and molecular studies. The 16S rDNA sequence analysis showed that the phytoplasma was closely related to the elm yellows (EY) group, ribosomal subgroup 16SrV‐B. The 16S‐23S rDNA intergenic spacer region, fragment of rp operon and secY gene sequences had 96–99% similarity with members of EY phytoplasma. Based on the sequence analyses and phylogenetic studies, it was confirmed that the phytoplasma infecting Japanese raisin trees in Korea belongs to the EY group.     

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 characterisation of a phytoplasma associated with cucumber (Cucumis sativus) regional yellows disease in Iran

Abstract

A phytoplasma was detected in cucumber (Cucumis sativus), exhibiting regional yellows symptoms in leaves, stem and fruits, that was grown in the greenhouse near Tehran (Iran). Since this is a previously undescribed disease, the name cucumber regional yellows have been tentatively assigned to it. Based on in silico RFLP and phylogenetic analysis of PCR-amplified 16S rDNA sequences, the phytoplasma associated with regional yellows disease was identified as a new member of phytoplasma 16S rRNA group VI (16SrVI-A) with closest relationships to zucchini phyllody phytoplasma (KP119494). According to our results, cucumber regional yellows phytoplasma could be designated as a subgroup VI-A.     

Detection and Identification of Elm Yellows Group Phytoplasma (16SrV) Associated with Alfalfa Witches’ Broom Disease

In July, 2011, alfalfa plants were observed in Yangling, Shaanxi Province, China with typical witches’ broom symptoms. The presence of phytoplasma was confirmed by transmission electron microscopy and a nested PCR, which amplified a 1.2‐kb fragment using universal primer pairs P1/P6 followed by R16F2n/R2. Sequence, phylogeny and RFLP analyses showed that the alfalfa witches’ broom disease was associated with a phytoplasma of group 16SrV, subgroup V‐B. This is the first record of the 16SrV phytoplasma group infecting alfalfa plants.     

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.     

Surveys reveal the occurrence of phytoplasmas in plants at different geographical locations in Peru

Two independent surveys were performed in Peru during February and November 2007 to detect the presence of phytoplasmas within any crops showing symptoms resembling those caused by phytoplasmas. Molecular identifications and characterisations were based on phytoplasma 16S and 23S rRNA genes using nested PCR and terminal restriction fragment length polymorphism (T‐RFLP). The surveys indicated that phytoplasmas were present in most of the locations sampled in Peru in both cultivated crops, including carrots, maize, native potatoes, improved potato, tomato, oats, papaya and coconut, and in other plants such as dandelion and the ornamental Madagascar periwinkle (Catharanthus roseus). Phylogenetic analysis of the sequences confirmed that while most of the isolates belong to the 16SrI aster yellows group, which is ubiquitous throughout other parts of South America, one isolate from potato belongs to the 16SrII peanut witches’ broom group, and one isolate from tomato and one from dandelion belong to the 16SrIII X‐disease group. The use of T‐RFLP was validated for the evaluation of phytoplasma‐affected field samples and provided no evidence for mixed infection of individual plants with more than one phytoplasma isolate. These data represent the first molecular confirmation of the presence of phytoplasmas in a broad range of crops in Peru.     

Molecular Identification of a Candidatus Phytoplasma asteris Associated with Cabbage Witches’‐Broom in China

In 2010, cabbages (Brassica oleracea L.) showing symptoms of proliferated axillary buds, crinkled leaves and plant stunting with shortened internodes typical to phytoplasma infection were found in a breeding facility in Beijing, China. Three symptomatic plants and one symptomless plant were collected, and total DNA was extracted from the midrib tissue and the flowers. With phytoplasma universal primers R16F2n/R16R2, a special fragment of 1247 bp (16S rDNA) was obtained from all three symptomatic cabbage plants, but not from the one symptomless cabbage plant. The 16S rDNA sequence showed 99% similarity with the homologous genes of the aster yellows group phytoplasma (16SrI group), and the phytoplasma was designed as CWBp‐BJ. Phylogenetic and computer‐simulated restriction fragment length polymorphism (RFLP) analysis of the 16S rDNA gene revealed that CWBp‐BJ belongs to subgroup 16SrI‐B. This is the first report of a phytoplasma associated with cabbage witches’‐broom in China.     

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.     

New 16Sr subgroups and distinct single nucleotide polymorphism lineages among grapevine Bois noir phytoplasma populations

Bois noir (BN) is an insect-transmitted grapevine yellows disease caused by phytoplasmas belonging to the stolbur subgroup 16SrXII-A. In Italy, increasing prevalence of stolbur phytoplasma strains in vineyards suggests progressive spread of the disease and potential for heavy impacts on the wine industry. In this study, we investigated the genetic diversity of stolbur phytoplasma strains in BN phytoplasma populations. Nucleotide sequences of 16S rRNA genes from stolbur phytoplasma strains affecting vineyards in the Lombardy region of Italy and stolbur phytoplasma 16S rDNA sequences retrieved from GenBank were subjected to virtual restriction fragment length polymorphism analysis. Calculation of virtual restriction similarity coefficients revealed the presence of new subgroups in group 16SrXII (stolbur phytoplasma group). Representative strains of confirmed new subgroups 16SrXII-F (XII-F) and XII-G and tentative new subgroups XII-A1 through XII-A19, XII-H, XII-I, and XII-J as well as known subgroup XII-A were from grapevines; strains representing three additional tentative new subgroups (XII-K, XII-L and XII-M) were from other plant hosts. Nucleotide sequence alignments identified no less than nine genetically distinct 16S rDNA single nucleotide polymorphism lineages from grapevine, indicating a high degree of genetic heterogeneity within BN phytoplasma populations. The findings open new opportunities for in-depth studies of the distribution of grapevine-associated 16SrXII phytoplasma strains in weeds, insect vector populations and grapevines from vineyards located in different geographic areas.     

Detection and Identification of Group 16SrVI Phytoplasma in Willows in China

In 2010 and 2011, willow proliferation disease was observed in Erdos, Inner Mongolia, China. The phytoplasma‐specific 16S rRNA gene fragment of 1.2 kb was amplified by a nested PCR with universal primer pair P1/P7 followed by R16F2n/R2. Phylogenetic and virtual RFLP analyses revealed that the phytoplasma associated with willow proliferation was a member of subgroup 16SrVI‐A. The field survey indicated that the incidence of willow proliferation in Erdos was approximately 36.84%. To our knowledge, this is the first record of group 16SrVI phytoplasma infecting willow in China.     

Multilocus genotyping of a ‘Candidatus Phytoplasma aurantifolia’‐related strain associated with cauliflower phyllody disease in China

A new cauliflower disease characterised by the formation of leaf‐like inflorescences and malformed flowers occurred in a seed production field located in Yunnan, a southwest province of China. Detection of phytoplasma‐characteristic 16S rRNA gene sequences in DNA samples from diseased plants linked the cauliflower disease to phytoplasmal infection. Results from phylogenetic and virtual restriction fragment length polymorphism analyses of the 16S rRNA gene sequence indicated that the cauliflower‐infecting agent is a ‘Candidatus Phytoplasma aurantifolia’‐related strain and is a new member of the peanut witches'‐broom phytoplasma group, subgroup A (16SrII‐A). Multilocus genotyping showed close genetic relationship between this cauliflower phytoplasma and a broad host range phytoplasma lineage found only in East Asia thus far. Molecular markers present in the secY and rp loci distinguished this phytoplasma from other members of the subgroup 16SrII‐A.     

Sequence heterogeneity in the two 16S rRNA genes of Phormium yellow leaf phytoplasma.

Phormium yellow leaf (PYL) phytoplasma causes a lethal disease of the monocotyledon, New Zealand flax (Phormium tenax). The 16S rRNA genes of PYL phytoplasma were amplified from infected flax by PCR and cloned, and the nucleotide sequences were determined. DNA sequencing and Southern hybridization analysis of genomic DNA indicated the presence of two copies of the 16S rRNA gene. The two 16S rRNA genes exhibited sequence heterogeneity in 4 nucleotide positions and could be distinguished by the restriction enzymes BpmI and BsrI. This is the first record in which sequence heterogeneity in the 16S rRNA genes of a phytoplasma has been determined by sequence analysis. A phylogenetic tree based on 16S rRNA gene sequences showed that PYL phytoplasma is most closely related to the stolbur and German grapevine yellows phytoplasmas, which form the stolbur subgroup of the aster yellows group. This phylogenetic position of PYL phytoplasma was supported by 16S/23S spacer region sequence data.     

Detection and Identification of an Elm Yellows Group Phytoplasma Associated with Camellia in China

In 2012, yellowing of camellias was observed in Tai'an in Shandong province, China. Transmission electron microscopy (TEM) revealed phytoplasma in the phloem sieve tube elements of symptomatic plants. A specific fragment of phytoplasma 16S rRNA gene was amplified by polymerase chain reaction (PCR) using the universal phytoplasma primers P1/P7 followed by R16F2n/R16R2. Sequence and restriction fragment length polymorphism (RFLP) analyses allowed us to classify the detected phytoplasma into the elm yellows (EY) group (16SrV), subgroup 16SrV‐B. Sequence analyses of the ribosomal protein (rp) gene confirmed a close relationship with phytoplasmas belonging to the rpV‐C subgroup. Thus, the phytoplasma associated with yellows disease in camellia, designated as ‘CY’, is a member of the 16SrV‐B subgroup. This is the first report of phytoplasma associated with camellia.     

Molecular Identification and Phylogenetic Analysis of Sugarcane Yellow Leaf Phytoplasma (SCYLP) in Egypt

Samples of sugarcane leaves were collected from different commercial fields and breeding stations in Egypt. Aetiology of sugarcane phytoplasma disease was investigated using nested PCR. Phytoplasma‐specific primers (P1/P7 and R16F2n/R16R2) were used to amplify a fragment of the 16S rRNA gene. Sequencing and restriction fragment length polymorphism analyses revealed that the tested phytoplasmas belonged to the 16SrI (aster yellows phytoplasma) group. Phylogenetic analyses of 60 screened accessions of 16S ribosomal RNA gene sequences of Candidatus phytoplasmas comprising those collected from Egypt (this study) and those extracted from GenBank showed that they split into two distinct clusters. All the phytoplasmas form a stable phylogenetic subcluster, as judged by branch length and bootstrap values of 100% in the 16S group cluster. Results of phylogenetic analyses indicated that these phytoplasmas are closely related and share a common ancestor. Conversely, based on the analysis of the 16S‐23S region, examined isolates segregated into four different clusters suggesting a notable heterogeneity between them. These results are the first record of the presence of phytoplasma in association with sugarcane yellow leaf in Egypt.     

香蕉束顶病植原体16S rDNA片段的RFLP和序列分析

香蕉束顶病（ＢＢＴ）是一种发生在蕉类作物的严重病害。从带有典型香蕉束顶病症状的香蕉植株中按照检测植原体的方法提取ＤＮＡ,扩增患病植株中植原体１６ＳｒＤＮＡ片段,证明香蕉束顶病中有植原体存在。对此扩增片段进行限制性酶切片段长度多态性（ＲＦＬＰ）分析和核酸序列分析,并与已知植原体的序列进行同源性比较,构建进化树。结果显示该片段与Ｇｒ１的亲缘关系最近。     

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.