Rapid Detection by Genomic Amplification of Loofah Witches' Broom Phytoplasma in Leafhopper Vectors

Loofah (Luffa cylindrical) is a common vegetable crop in Taiwan and other Asian countries. Reported here is a novel rapid approach for detecting loofah witches’ broom (LfWB) phytoplasma in single leafhoppers. Field samples of suspected diseased plants and potential vectors from southern Taiwan were processed to test for the presence of the LfWB phytoplasmas using both strain‐specific DNA hybridization (DH) and polymerase chain reaction (PCR) assays. The commonest pathogen causing loofah disease in southern Taiwan is LfWB phytoplasma. Leafhoopers collected at nine locations near LfWB‐infected plants were found to be positive for LfWB by PCR / DH at an incidence of 28.5–40.0%. Of the different leafhopper species tested, only Hishimonus concavus was positive for LfWB, suggesting that H. concavus is a natural vector of LfWB in Taiwan. Using our proposed primers in this PCR assay, a single LfWB‐infected leafhopper can be detected rapidly and directly.     

Detection, Identification and Molecular Characterization of a Phytoplasma Associated with Arabian Jasmine (Jasminum sambac L.) Witches' Broom in Oman

Arabian jasmine (Jasminum sambac L.) plants showing witches’ broom (WB) symptoms were found in two regions in the Sultanate of Oman. Polymerase chain reaction (PCR) amplification of the 16S rRNA gene and the 16S–23S spacer region utilizing phytoplasma‐specific universal and designed primer pairs, and transmission electron microscopy of phytoplasma‐like structures in phloem elements confirmed phytoplasma infection in the symptomatic plants. PCR products primed with the P1/P7 primer pair were 1804 bp for jasmine witches’ broom (JasWB) and 1805 bp for alfalfa (Medicago sativa L.) witches’ broom (AlfWB). Actual and putative restriction fragment length polymorphic analysis indicated that jasmine and AlfWB phytoplasmas were molecularly indistinguishable from each other and closely related to papaya yellow crinkle (PYC), as well as being distinct from lime WB (LWB) and Omani alfalfa WB (OmAlfWB) phytoplasmas. A sequence homology search of JasWB and AlfWB showed 99.8% similarity with PYC from New Zealand and 99.6% similarity with each other (JasWB/AlfWB). The jasmine and AlfWB phytoplasmas were also shown to be related to the peanut WB group (16SrII) of 16S rRNA groups based on a phylogenetic tree generated from phytoplasma strains primed with the P1/P7 primer pair and representing the 15 phytoplasma groups.     

Molecular Characterization and Potential Insect Vector of a Phytoplasma Associated with Garden Beet Witches' Broom in Yazd, Iran

In 2002, garden beet witches’ broom (GBWB) phytoplasma was detected for the first time in garden beet plants (Beta vulgaris L. ssp. esculenta) in Yazd, Iran. Nested polymerase chain reaction (PCR) and restriction fragment length polymorphic (RFLP) analysis of PCR‐amplified phytoplasma 16S rDNA were employed for the detection and identification of the phytoplasma associated with garden beet. A phytoplasma belonging to subgroup 16SrII‐E, in the peanut witches’ broom group (16SrII), was detected in infected plants. Asymptomatic plant samples and the negative control yielded no amplification. The result of analysis of the nucleotide sequence of a 1428 bp fragment of 16S rDNA gene from GBWB phytoplasma (GenBank accession number DQ302722 ) was basically consistent with the classification based on RFLP analysis, in which GBWB phytoplasma clustered with phytoplasmas of the 16SrII‐E subgroup. A search for a natural phytoplasma vector was conducted in Yazd in 2004, in an area where garden beet crops had been affected since 2002. The associated phytoplasma was detected in one leafhopper species, Orosius albicinctus, commonly present in this region. The leafhopper O. albicinctus was used in transmission tests to determine its vector status for the phytoplasma associated with GBWB. Two of eight plants that had been fed on by O. albicinctus, showed mild symptoms of GBWB including stunting and reddening of midveins. A phytoplasma was detected in the two symptomatic test plants by PCR using universal primers and it was identified by RFLP as the GBWB phytoplasma. This finding suggests O. albicinctus is a vector of the GBWB phytoplasma.     

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.     

花生丛枝植原体免疫膜蛋白基因克隆及细菌双杂交诱饵质粒构建

初步分析植原体免疫膜蛋白的结构,以Imp构建诱饵质粒,为研究植原体与寄主互作的分子机理,探讨植原体传播、侵染及在寄主内的运输方式奠定基础。根据本实验室获得的花生丛枝植原体免疫膜蛋白基因序列设计特异性引物Imp-F/Imp-R,通过PCR扩增获得花生丛枝植原体免疫膜蛋白基因,大小519 bp,编码蛋白含有172个氨基酸残基,与SPWB膜蛋白的核苷酸差异一个碱基,氨基酸序列相同。另外与WBDL膜蛋白的核苷酸和氨基酸序列同源性分别为79.8%和70.2%。对其进行系统发育树分析;初步分析imp基因编码蛋白的跨膜区和疏水区。分析结果表明：花生丛枝植原体免疫膜蛋白C端有一跨膜锚定区,N端主要为膜内亲水区,没有前导信号序列。预测花生丛枝植原体免疫膜蛋白是一类C端跨膜的植原体免疫膜蛋白。将imp基因克隆到带有λcI基因的pBT质粒上,构建诱饵载体pBT-Imp,并通过IPTG诱导表达,western blot检测和自激活检验对其进行检测。结果显示：所构建的诱饵载体pBT-Imp可用于细菌双杂交的进一步实验。     

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.     

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).     

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.     

The Association of Phytoplasma with Stunting, Leaf Necrosis and Witches' Broom Symptoms in Magnolia Plants

In 1999–2000 a severe disease was observed on plants of four Magnolia spp. cultivated in a commercial nursery in Poland. Affected plants showed a progressive loss of vigour, were stunted, and had severely malformed leaves, leaf necrosis and witches' broom. Phytoplasma was detected in magnolias with severe symptoms and in dodder-inoculated Catharanthus roseus seedlings by nested polymerase chain reaction (PCR) assay with primer pair R16F1/R0 followed by universal (rA/fA) and group specific (R16(I)F1/R1) primer pairs which amplified a fragment of phytoplasma 16S rDNA. The PCR products (560 bp or 1.1 kb) of all samples used for restriction fragment length polymorphism analysis after digestion with endonuclease enzymes Alu I and Mse I produced the same profile which corresponded to that of an aster yellows phytoplasma reference strain. Phytoplasma DNA was detected throughout the growing season in roots, stems and young but not mature leaves. Electron microscope examination of the ultra-thin sections of the leaf and stem of diseased magnolias showed collapsed and degenerated sieve tube elements with wall thickening. The reduced lumen of these sieve elements contained numerous vesicles and membrane-bound structures, but no typical phytoplasma cells. This is the first report of aster yellows phytoplasma in magnolia identified by molecular assays.     

Use of Heteroduplex Mobility Analysis (HMA) for Differentiating Phytoplasma Isolates Causing Witches' Broom Disease on Populus nigra cv Italica and Stolbur or Big Bud Symptoms on Tomato

Heteroduplex mobility analysis (HMA) was performed to distinguish French and German isolates of phytoplasmas from Populus nigra cv Italica witches broom. The French isolate was similar to the phytoplasma responsible for the European aster yellows while the German isolate was different but closely related to it. When phytoplasmas inducing similar "stolbur" symptoms in tomato were compared to HMA, a high degree of genetic differences was observed among the reference stolbur C (StC) isolate, the European aster yellows and the other phytoplasmas inducing stolbur or big bud symptoms in tomato. Pseudo-stolbur B and D from Brazil were differentiated from the reference St C using this method.     

Identification of ‘Candidatus Phytoplasma asteris' (16SrI‐B) Causing Witches' Broom Disease of Mallotus japonicus in Korea

Mallotus japonicus with witches' broom disease were observed in Jeollabuk‐do, Korea. A phytoplasma from the infected leaves was identified, based on the 16S rDNA, 16S‐23S intergenic spacer region, and fragment of rp operon and tuf gene sequences. The 16S rDNA sequences exhibited maximum (99.7%) similarity with Iranian lettuce phytoplasma, the rp operon sequences exhibited 100% similarity with Goldenrain stunt phytoplasma, and the tuf gene sequences exhibited 99.8% similarity with Japanese spurge yellows phytoplasma. Results of the sequence analysis and phylogenetic studies confirmed that the phytoplasma associated with M. japonicus in Korea was an isolate of Aster Yellows group (subgroup16SrI‐B).     

Differentiation and Classification of Phytoplasmas Associated with Almond and GF‐677 Witches'‐Broom Diseases using rRNA and rp Genes

Stone fruits are affected by several diseases associated with plant pathogenic phytoplasmas. Previous studies have been shown that phytoplasma agents of almond and GF‐677 witches'‐broom (AlmWB and GWB, respectively) diseases belong to pigeon pea witches'‐broom (16SrIX) phytoplasma group. In this study, partial biological and molecular characterization was used to compare and classify phytoplasma agents of Khafr AlmWB (KAlmWB) and Estahban GWB (EGWB) diseases. Production of different symptoms in periwinkle indicated that agents of KAlmWB and EGWB are differentiable. Expected fragments were amplified from diseased almond and GF‐677 trees in direct PCR using phytoplasma universal primer pairs P1/P7 and rpF1/rpR1 and nested PCR using P1/P7 followed by R16F2n/ R16R2 primer pair. 16S‐rDNA Restriction fragment length polymorphism (RFLP) as well as phylogenetic analysis of rplV‐rpsC and 16S–23S rRNA spacer region sequences classified KAlmWB and EGWB phytoplasmas within 16SrIX‐C (rpIX‐C) and 16SrIX‐B (rpIX‐B) subgroups, respectively.     

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.     

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.     

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.     

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.     

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.     

First Report of Aster Yellows Phytoplasma (16SrI‐B) Associated with Witches' Broom Disease of Melia azedarach var. japonica in Korea

Melia azedarach var. japonica trees with leaf yellowing, small leaves and witches' broom were observed for the first time in Korea. A phytoplasma from the symptomatic leaves was identified based on the 16Sr DNA sequence as a member of aster yellows group, ribosomal subgroup 16SrI‐B. Sequence analyses of more variable regions such as 16S–23S intergenic spacer region, secY gene, ribosomal protein (rp) operon and tuf gene showed 99.5?100% nucleotide identity to several GenBank sequences of group 16SrI phytoplasmas. Phylogenetic analysis confirmed that the Melia azedarach witches' broom phytoplasma belongs to aster yellows group.     

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.     

‘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.