Sequence Analysis of 16S rRNA and secA Genes Confirms the Association of 16SrI‐B Subgroup Phytoplasma with Oil Palm (Elaeis guineensis Jacq.) Stunting Disease in India

During January 2010, severe stunting symptoms were observed in clonally propagated oil palm (Elaeis guineensis Jacq.) in West Godavari district, Andhra Pradesh, India. Leaf samples of symptomatic oil palms were collected, and the presence of phytoplasma was confirmed by nested polymerase chain reaction (PCR) using universal phytoplasma‐specific primer pairs P1/P7 followed by R16F2n/R16R2 for amplification of the 16S rRNA gene and semi‐nested PCR using universal phytoplasma‐specific primer pairs SecAfor1/SecArev3 followed by SecAfor2/SecArev3 for amplification of a part of the secA gene. Sequencing and BLAST analysis of the ～1.25 kb and ～480 bp of 16S rDNA and secA gene fragments indicated that the phytoplasma associated with oil palm stunting (OPS) disease was identical to 16SrI aster yellows group phytoplasma. Further characterization of the phytoplasma by in silico restriction enzyme digestion of 16S rDNA and virtual gel plotting of sequenced 16S rDNA of ～1.25 kb using iPhyClassifier online tool indicated that OPS phytoplasma is a member of 16SrI‐B subgroup and is a ‘Candidatus Phytoplasma asteris’‐related strain. Phylogenetic analysis of 16S rDNA and secA of OPS phytoplasma also grouped it with 16SrI‐B. This is the first report of association of phytoplasma of the 16SrI‐B subgroup phytoplasma with oil palm in the world.     

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.     

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.     

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.     

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.     

Detection and Identification of ‘Candidatus Phytoplasma prunorum’, ‘Candidatus Phytoplasma mali’ and ‘Candidatus Phytoplasma pyri’ in Stone Fruit Trees in Poland

A survey was made to determine the incidence of phytoplasmas in 39 sweet and sour cherry, peach, nectarine, apricot and plum commercial and experimental orchards in seven growing regions of Poland. Nested polymerase chain reaction (PCR) using the phytoplasma‐universal primer pairs P1/P7 followed by R16F2n/R16R2 showed the presence of phytoplasmas in 29 of 435 tested stone fruit trees. The random fragment length polymorphism (RFLP) patterns obtained after digestion of the nested PCR products separately with RsaI, AluI and SspI endonucleases indicated that selected Prunus spp. trees were infected by phytoplasmas belonging to three different subgroups of the apple proliferation group (16SrX‐A, ‐B, ‐C). Nucleotide sequence analysis of 16S rDNA fragment amplified with primers R16F2n/R16R2 confirmed the PCR/Restriction Fragment Length Polymorphism (RFLP) results and revealed that phytoplasma infecting sweet cherry cv. Regina (Reg), sour cherry cv. Sokowka (Sok), apricots cv. Early Orange (EO) and AI/5, Japanese plum cv. Ozark Premier (OzPr) and peach cv. Redhaven (RedH) was closely related to isolate European stone fruit yellows‐G1 of the ‘Candidatus Phytoplasma prunorum’ (16SrX‐B). Sequence and phylogenetic analyses resulted in the highest similarity of the 16S rDNA fragment of phytoplasma from nectarine cv. Super Queen (SQ) with the parallel sequence of the strain AP15 of the ‘Candidatus Phytoplasma mali’ (16SrX‐A). The phytoplasma infecting sweet cherry cv. Kordia (Kord) was most similar to the PD1 strain of the ‘Candidatus Phytoplasma pyri’ (16SrX‐C). This is the first report of the occurrence of ‘Ca. P. prunorum’, ‘Ca. P. mali’ and ‘Ca. P. pyri’ in naturally infected stone fruit trees in Poland.     

Surveys reveal a complex association of phytoplasmas and viruses with the blueberry stunt disease on Canadian blueberry farms

Surveys for phytoplasmas and viruses were conducted during September 2014 and 2015 on highbush blueberry farms in the Région Montérégie, Quebec. Total DNA and RNA were extracted from blueberry bushes showing blueberry stunt (BBS) symptoms and from symptomless blueberry bushes, and utilised as templates for PCR and RT‐PCR assays, respectively. Phytoplasma DNA was amplified with universal phytoplasma primers that target the 16S rRNA, secA and secY genes from 12 out of 40 (30%) plants tested. Based on 16S rRNA, secA and secY gene sequence identity, phylogenetic clustering, actual and in silico RFLP analyses, phytoplasma strains associated with BBS disease in Quebec were identified as ‘Candidatus Phytoplasma asteris’‐related strains, closely related to the BBS Michigan phytoplasma strain (16SrI‐E). The secY gene sequence‐based single nucleotide polymorphism analysis revealed that one of the BBS phytoplasma strains associated with a leaf marginal yellowing is a secY‐I RFLP variant of the subgroup 16SrI‐E. Two viruses were detected in blueberry bushes. The Blueberry Red Ringspot Virus (BRRV) was found in a single infection in the cultivar Bluecrop with no apparent typical BRRV symptoms. The Tobacco Ringspot Virus (TRSV) was found singly infecting blueberry plants and co‐infecting a BBS phytoplasma‐infected blueberry cv. Bluecrop plant. This is the first report of TRSV in the cv. Bluecrop in Quebec. The Quebec BBS phytoplasma strain was identified in the leafhopper Graphocephala fennahi, which suggests that G. fennahi may be a potential vector for the BBS phytoplasma. The BBS disease shows a complex aetiology and epidemiology; therefore, prompt actions must be developed to support focused BBS integrated management strategies.     

Detection and Identification of Aster Yellows Phytoplasma Associated with Lipstick Yellow Frond Disease in Malaysia

Yellowing symptoms similar to coconut yellow decline phytoplasma disease were observed on lipstick palms (Cyrtostachys renda) in Selangor state, Malaysia. Typical symptoms were yellowing, light green fronds, gradual collapse of older fronds and decline in growth. Polymerase chain reaction assay was employed to detect phytoplasma in symptomatic lipstick palms. Extracted DNA was amplified from symptomatic lipstick palms by PCR using phytoplasma‐universal primer pair P1/P7 followed by R16F2n/R16R2. Phytoplasma presence was confirmed, and the 1250 bp products were cloned and sequenced. Sequence analysis indicated that the phytoplasmas associated with lipstick yellow frond disease were isolates of ‘Candidatus Phytoplasma asteris’ belonging to the 16SrI group. Virtual RFLP analysis of the resulting profiles revealed that these palm‐infecting phytoplasmas belong to subgroup 16SrI‐B and a possibly new 16SrI‐subgroup. This is the first report of lipstick palm as a new host of aster yellows phytoplasma (16SrI) in Malaysia and worldwide.     

The phytoplasma associated with purple woodnettle witches'‐broom disease in Taiwan represents a new subgroup of the aster yellows phytoplasma group

In October 2013, a new disease affecting purple woodnettle, Oreocnide pedunculata, plants was found in Miaoli County, Taiwan. Diseased plants exhibited leaf yellowing and witches'‐broom symptoms. Molecular diagnostic tools and electron microscopic cell observation were used to investigate the possible cause of the disease with a specific focus on phytoplasmas. The result of polymerase chain reaction with universal primer pairs indicated that phytoplasmas were strongly associated with the symptomatic purple woodnettles. The virtual restriction fragment length polymorphism (RFLP) patterns and phylogenetic analysis based on 16S rDNA and ribosomal protein, rplV‐rpsC region revealed that purple woodnettle witches'‐broom phytoplasma (PWWB) belongs to a new subgroup of 16SrI and rpI group and was designated as 16SrI‐AH and rpI‐Q, respectively, herein. RFLP analysis based on tuf gene region revealed that the PWWB belongs to tufI‐B, but phylogenetic analysis suggested that PWWB should be delineated to a new subgroup under the tufI group. Taken together, our analyses based on 16S rRNA and rplV‐rpsC region gave a finer differentiation while classifying the subgroup of aster yellows group phytoplasmas. To our knowledge, this is the first report of a Candidatus Phytoplasma asteris‐related strain in 16SrI‐AH, rpI‐Q and tufI‐B subgroup affecting purple woodnettle, and of an official documentation of purple woodnettle as being a new host of phytoplasmas.     

First Report of Phytoplasma (16SrI) Associated with Yellow Decline Disease of Royal Palms [Roystonea regia (Kunth) O. F. Cook] in Malaysia

Royal Palms (Roystonea regia) with symptoms such as severe chlorosis, stunting, collapse of older fronds and general decline were observed in the state of Selangor, Malaysia. Using polymerase chain reaction (PCR) amplification with phytoplasma universal primer pair P1/P7 followed by R16F2N/R16R2 and fU5/rU3 as nested PCR primer pairs, all symptomatic plants tested positively for phytoplasma. Results of phylogenetic and virtual RFLP analysis of the 16S rRNA gene sequences revealed that the phytoplasma associated with Royal Palm yellow decline (RYD) was an isolate of ‘Candidatus Phytoplasma asteris’ belonging to a new 16SrI‐subgroup. These results show that Roystonea regia is a new host for the aster yellows phytoplasma (16SrI). This is the first report on the presence of 16SrI phytoplasma on Royal Palm trees in Malaysia.     

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.     

Aster Yellows Subgroup 16SrI‐C Phytoplasma in Rhododendron hybridum

Symptoms of unknown aetiology on Rhododendron hybridum cv. Cunningham's White were observed in the Czech Republic in 2010. The infected plant had malformed leaves, with irregular shaped edges, mosaic, leaf tip necrosis and multiple axillary shoots with smaller leaves. Transmission electron microscopy showed phytoplasma‐like bodies in phloem cells of the symptomatic plant. Phytoplasma presence was confirmed by polymerase chain reaction using phytoplasma‐specific, universal and group‐specific primer pairs. Restriction fragment length polymorphism analysis of 16S rDNA enabled classification of the detected phytoplasma into the aster yellows subgroup I‐C. Sequence analysis of the 16S‐23S ribosomal operon of the amplified phytoplasma genome from the infected rhododendron plant (1724 bp) confirmed the closest relationship with the Czech Echinacea purpurea phyllody phytoplasma. These data suggest Rhododendron hybridum is a new host for the aster yellows phytoplasma subgroup 16SrI‐C in the Czech Republic and worldwide.     

Detection and Identification of Two Phytoplasmas (16SrIII‐B and 16SrXII‐A) From Alfalfa (Medicago sativa) in Serbia

Plants of alfalfa (Medicago sativa) exhibiting general stunting, proliferation and phyllody associated with leaf yellowing and reddening were observed in three localities of Central Serbia. Phytoplasma strains belonging to 16SrIII‐B and 16SrXII‐A groups were detected and identified by RFLP and sequence analysis of 16S rDNA. Stolbur phytoplasma tuf gene RFLP analysis showed the presence of the TufAY‐b‐type phytoplasma subgroup in 80% of symptomatic samples. This is the first report of 16SrIII‐B and 16SrXII‐A phytoplasma groups affecting alfalfa in Serbia.     

First detection of “Candidatus Phytoplasma asteris” - and “Candidatus Phytoplasma solani”-related strains in fig trees

In July 2017, a survey was conducted in a fig collection plot at Locorotondo (south of Italy) to investigate the possible presence of phytoplasmas in plants showing yellowing, deformed leaves, short internodes, mottling and mosaic. Samples were collected from symptomatic plants and tested by nested PCR assays using universal and specific primers to amplify the 16S rDNA of these prokaryotes. PCR results detected the presence of phytoplasma sequences in twenty plant samples that resulted clustering two phylogenetically distinct phytoplasmas, i.e., “Candidatus Phytoplasma asteris” and “Candidatus Phytoplasma solani” affiliated to 16SrI and 16SrXII ribosomal groups, respectively. The presence of phytoplasmas belonging to both ribosomal groups was confirmed with group specific quantitative PCR and RFLP assays on 16S ribosomal amplicons. Results of this study indicate for the first time the occurrence of phytoplasmas in fig; however, more work should be carried out to verify their association with the symptoms observed on diseased fig plants.     

Molecular Identification of a ‘Candidatus Phytoplasma ziziphi’‐related Strain Infecting Amaranth (Amaranthus retroflexus L.) in China

Amaranth (Amaranthus retroflexus L.) is a common weed that grows vigorously in orchards, roadside verges, fields, woods and scrubland in China. In 2009, phytoplasma disease surveys were made in orchards in Beijing, China, and stem/leaf tissues were collected from asymptomatic amaranths. Direct PCR using universal phytoplasma primers P1/P7 detected 16S rRNA gene sequences in every DNA sample extracted from the symptomless amaranths. Sequence alignment and phylogenetic analyses of the 16S rRNA gene determined that the amaranth phytoplasma strain was related to ‘Candidatus Phytoplasma ziziphi’. Furthermore, virtual RFLP pattern analysis showed that the amaranth phytoplasma belonged to the 16SrV‐B subgroup. This is the first report of symptomless plants containing a ‘Candidatus Phytoplasma ziziphi’‐related strain.     

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.     

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.     

Detection and identification of ‘Candidatus Phytoplasma asteris’ in Brassica rapa subsp. pekinensis in Poland

Severe growth abnormalities, including leaf yellowing, sprout proliferation and flower virescence and phyllody, were found on Brassica rapa subsp. pekinensis plants in Poland. The presence of phytoplasma in naturally infected plants was demonstrated by polymerase chain reaction assay employing phytoplasma universal P1/P7 followed by R16F2n/R16R2 primer pairs. The detected phytoplasma was identified using restriction fragment length polymorphism analysis (RFLP) of the 16S rRNA gene fragment with AluI, HhaI, MseI and RsaI endonucleases. After enzymatic digestion, all tested samples showed restriction pattern similar to that of ‘Candidatus phytoplasma asteris’. Nested PCR‐amplified products, obtained with primers R16F2n/R16R2, were sequenced. Sequences of the 16S rDNA gene fragment of analysed phytoplasma isolates were nearly identical. They revealed high nucleotide sequence identity (>98%) with corresponding sequences of other phytoplasma isolates from subgroup 16SrI‐B, and they were classified as members of ‘Candidatus phytoplasma asteris’. This is the first report of the natural occurrence of phytoplasma‐associated disease in plants of Chinese cabbage.     

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).