Bimodular architecture of bacterial effector SAP05 that drives ubiquitin-independent targeted protein degradation.

In eukaryotes, targeted protein degradation (TPD) typically depends on a series of interactions among ubiquitin ligases that transfer ubiquitin molecules to substrates leading to degradation by the 26S proteasome. We previously identified that the bacterial effector protein SAP05 mediates ubiquitin-independent TPD. SAP05 forms a ternary complex via interactions with the von Willebrand Factor Type A (vWA) domain of the proteasomal ubiquitin receptor Rpn10 and the zinc-finger (ZnF) domains of the SQUAMOSA-PROMOTER BINDING PROTEIN-LIKE (SPL) and GATA BINDING FACTOR (GATA) transcription factors (TFs). This leads to direct TPD of the TFs by the 26S proteasome. Here, we report the crystal structures of the SAP05-Rpn10vWA complex at 2.17 Å resolution and of the SAP05-SPL5ZnF complex at 2.20 Å resolution. Structural analyses revealed that SAP05 displays a remarkable bimodular architecture with two distinct nonoverlapping surfaces, a "loop surface" with three protruding loops that form electrostatic interactions with ZnF, and a "sheet surface" featuring two ß-sheets, loops, and α-helices that establish polar interactions with vWA. SAP05 binding to ZnF TFs involves single amino acids responsible for multiple contacts, while SAP05 binding to vWA is more stable due to the necessity of multiple mutations to break the interaction. In addition, positioning of the SAP05 complex on the 26S proteasome points to a mechanism of protein degradation. Collectively, our findings demonstrate how a small bacterial bimodular protein can bypass the canonical ubiquitin-proteasome proteolysis pathway, enabling ubiquitin-independent TPD in eukaryotic cells. This knowledge holds significant potential for the creation of TPD technologies.

The effector SJP3 interferes with pistil development by sustaining SHORT VEGETATIVE PHASE 3 expression in jujube.

Jujube witches' broom (JWB) is a phytoplasma disease that causes severe damage to jujube (Ziziphus jujuba) crops worldwide. Diseased jujube plants show enhanced vegetative growth after floral reversion, including leafy flower structures (phyllody) and the fourth whorl converting into a vegetative shoot. In previous research, secreted JWB protein 3 (SJP3) was identified as an inducer of phyllody. However, the molecular mechanisms of SJP3-mediated pistil reversion remain unknown. Here, the effector SJP3 was found to interact with the MADS-box protein SHORT VEGETATIVE PHASE 3 (ZjSVP3). ZjSVP3 was expressed in young leaves and during the initial flower bud differentiation of healthy jujube-bearing shoots but was constitutively expressed in JWB phytoplasma-infected flowers until the later stage of floral development. The SJP3 effector showed the same expression pattern in the diseased buds and promoted ZjSVP3 accumulation in SJP3 transgenic jujube calli. The N-terminal domains of ZjSVP3 contributed to its escape from protein degradation in the presence of SJP3. Heterologous expression of ZjSVP3 in Nicotiana benthamiana produced typical pistil abnormalities, including trichome-enriched style and stem-like structures within the leaf-like ovary, which were consistent with those in the mildly malformed lines overexpressing SJP3. Furthermore, ectopic expression of ZjSVP3 directly bound to the zinc finger protein 8 (ZjZFP8) and MADS-box gene SHATTERPROOF 1 (ZjSHP1) promoters to regulate their expression, resulting in abnormal pistil development. Overall, effector SJP3-mediated derepression of ZjSVP3 sustained its expression to interfere with pistil development, providing insight into the mechanisms of pistil reversion caused by JWB phytoplasma in specific perennial woody plant species.

The crotonylated and succinylated proteins of jujube involved in phytoplasma-stress responses.

BACKGROUND: Protein posttranslational modifications (PTMs) are fast and early responses to environmental changes, including pathogen infection. Jujube witches' broom (JWB) is a phytoplasma disease causing great economic loss in jujube production. After phytoplasma infection, the transcriptional, translational, and metabolic levels in jujube were activated, enabling it to survive during phytoplasma invasion. However, no study has yet reported on PTMs in jujube. Lysine crotonylation (Kcr) and lysine succinylation (Ksu) have been popular studies in recent years and their function in plant phytoplasma-stress responses remains unclear. RESULTS: Here, 1656 crotonylated and 282 succinylated jujube proteins were first identified under phytoplasma-stress, of which 198 were simultaneously crotonylated and succinylated. Comparative analysis revealed that 656 proteins, 137 crotonylated and 43 succinylated proteins in jujube were regulated by phytoplasma infection, suggesting that Kcr was more universal than Ksu. Kcr differentially expressed proteins (DEPs) were related to ribosomes, photosynthetic and carbon metabolism, while Ksu DEPs were mainly involved in carbon metabolism, the TCA cycle and secondary metabolite biosynthesis. The crosstalk network among proteome, crotonylome and succinylome showed that DEPs related to ribosomal, peroxidases and glutathione redox were enriched. Among them, ZjPOD51 and ZjPHGPX2 significantly increased at the protein and Kcr level under phytoplasma-stress. Notably, 7 Kcr sites were identified in ZjPHGPX2, a unique antioxidant enzyme. After inhibitor nicotinamide (NAM) treatment, GPX enzyme activity in jujube seedlings was reduced. Further, site-directed mutagenesis of key Kcr modification sites K130 and/or K135 in ZjPHGPX2 significantly reduced its activity. CONCLUSIONS: This study firstly provided large-scale datasets of Kcr and Ksu in phytoplasma-infected jujube and revealed that Kcr modification in ZjPHGPX2 positively regulates its activity.

The function of the phytoplasma effector SWP12 depends on the properties of two key amino acids.

Phytoplasmas are insect-borne bacterial pathogens capable of secreting effectors into host cells and interfering with host plant defense response processes. Previous studies have found that the Candidatus Phytoplasma tritici effector SWP12 binds to and destabilizes the wheat transcription factor TaWRKY74, increasing wheat susceptibility to phytoplasmas. Here, we used a Nicotiana benthamiana transient expression system to identify two key functional sites of SWP12 and screened a series of truncated mutants and amino acid substitution mutants to determine whether they inhibit Bax-induced cell death. Using a subcellular localization assay and online structure analysis websites, we found that structure rather than intracellular localization probably affects the function of SWP12. D33A and P85H are two inactive substitution mutants, neither of which interacts with TaWRKY74, and P85H does not inhibit Bax-induced cell death, suppress flg22-triggered reactive oxygen species (ROS) bursts, degrade TaWRKY74, or promote phytoplasma accumulation. D33A can weakly suppress Bax-induced cell death and flg22-triggered ROS bursts and degrade a portion of TaWRKY74 and weakly promote phytoplasma accumulation. S53L, CPP, and EPWB are three SWP12 homolog proteins from other phytoplasmas. Sequence analysis revealed that D33 was conserved in these proteins, and they exhibited the same polarity at P85. Transient expression in N. benthamiana showed that these proteins could inhibit Bax-induced cell death and suppress ROS bursts. Our findings clarified that P85 and D33 of SWP12 play critical and minor roles, respectively, in suppressing the plant defense response and that they play a preliminary role in determining the functions of homologous proteins.

Comprehensive analysis of little leaf disease incidence and resistance in eggplant.

BACKGROUND: Little leaf disease caused by phytoplasma infection is a significant threat to eggplant (also known as brinjal) cultivation in India. This study focused on the molecular characterisation of the phytoplasma strains and insect vectors responsible for its transmission and screening of brinjal germplasm for resistance to little leaf disease. RESULTS: Surveys conducted across districts in the Tamil Nadu state of India during 2021-2022 showed a higher incidence of phytoplasma during the Zaid (March to June), followed by Kharif (June to November) and Rabi (November to March) seasons with mean incidence ranging from 22 to 27%. As the name indicates, phytoplasma infection results in little leaf (reduction in leaf size), excessive growth of axillary shoots, virescence, phyllody, stunted growth, leaf chlorosis and witches' broom symptoms. PCR amplification with phytoplasma-specific primers confirmed the presence of this pathogen in all symptomatic brinjal plants and in Hishimonus phycitis (leafhopper), providing valuable insights into the role of leafhoppers in disease transmission. BLAST search and phylogenetic analysis revealed the phytoplasma strain as "Candidatus Phytoplasma trifolii". Insect population and disease dynamics are highly influenced by environmental factors such as temperature, relative humidity and rainfall. Further, the evaluation of 22 eggplant accessions revealed immune to highly susceptible responses where over 50% of the entries were highly susceptible. Finally, additive main effect and multiplicative interaction (AMMI) and won-where biplot analyses identified G18 as a best-performing accession for little leaf resistance due to its consistent responses across multiple environments. CONCLUSIONS: This research contributes essential information on little leaf incidence, symptoms, transmission and resistance profiles of different brinjal genotypes, which together ensure effective and sustainable management of this important disease of eggplants.

The sucrose signalling route controls Flavescence dorée phytoplasma load in grapevine leaves.

Flavescence dorée (FD) is a phytoplasma disease transmitted by insects, causing severe damage to vineyards across Europe. Infected plants cannot be cured and must be removed to prevent further spread. Different grapevine cultivars show varying susceptibility to FD, and some exhibit symptom remission, known as recovery, although the mechanisms behind this are unclear. Diseased plants accumulate soluble sugars, including sucrose, which influences the concentration of trehalose-6P (T6P), a signalling molecule affecting plant growth and stress responses. It is hypothesized that sucrose-mediated signalling via T6P could trigger defence mechanisms, reducing FD pathogen load and increasing plant recovery. Testing this, two grapevine genotypes with different susceptibility to FD were compared, revealing increased sucrose level and TPS activity in the more tolerant cultivar. However, FD-infected plants showed inhibited sucrose-cleaving enzymes and no activation of TPS expression. Attempts to enhance sucrose levels through trunk infusion and girdling promoted sucrose metabolism, T6P biosynthesis, and defence gene expression, facilitating symptom recovery. Girdling particularly enhanced T6P biosynthesis and defence genes above the treatment point, reducing FD pathogen presence and promoting recovery. These findings suggest that elevated sucrose levels, possibly signalling through T6P, may limit FD pathogen spread, aiding in plant recovery.

'Candidatus Phytoplasma vignae', assigning a species description to a long-known phytoplasma occurring in northern Australia.

Gene- and genome-based approaches were used to determine whether Vigna little leaf (ViLL) phytoplasma, which occurs in northern Australia, is a distinct 'Candidatus Phytoplasma' species. The ViLL 16S rRNA gene sequences exhibited the highest known similarity to species in the 16SrXXIX-A and 16SrIX-D subgroups, namely 'Candidatus Phytoplasma omanense' (98.03-98.10%) and 'Candidatus Phytoplasma phoenicium' (96.87-97.20%), respectively. A total of 48 single-copy orthologue genes were identified to be shared among the two draft ViLL phytoplasma genomes, 30 publicly available phytoplasma genomes, and one Acholeplasma laidlawii genome as the outgroup taxon. Phylogenomic assessments using the 48 shared single-copy orthologue genes supported that ViLL and 'Ca. Phytoplasma phoenicium' were closely related yet distinct species. The 16S rRNA gene sequence analysis and phylogenomic assessment indicate that ViLL phytoplasmas are a distinct taxon. As such, a novel species, 'Candidatus Phytoplasma vignae', is proposed. Strain BAWM-336 (genome accession number JAUZLI000000000) detected in Momordica charantia (bitter melon) serves as the reference strain of this species, with infected plant material deposited in the Victorian Plant Pathology Herbarium (VPRI) as VPRI 44369.

Putting 'X' into Context: The Diversity of 'Candidatus Phytoplasma pruni' Strains Associated with the Induction of X-Disease.

Recurrent epiphytotics of X-disease, caused by 'Candidatus Phytoplasma pruni,' have inflicted significant losses on commercial cherry and peach production across North America in the last century. During this period, there have been multiple studies reporting different disease phenotypes and, more recently, identifying different strains through sequencing core genes, but the symptoms have not, to date, been linked with genotype. Therefore, in this study we collected and assessed differing disease phenotypes from multiple U.S. states and conducted multilocus sequence analysis on these strains. We identified a total of five lineages associated with the induction of X-disease on commercial Prunus species and two lineages that were associated with wild P. virginiana. Despite a century of interstate plant movement, there were regional trends in terms of lineages present, and lineage-specific symptoms were observed on P. avium, P. cerasus, and P. virginiana, but not on P. persica. Cumulatively, these data have allowed us to define "true" X-disease-inducing strains of concern to the stone fruit industry across North America, as well as potential sources of infection that exist in the extraorchard environment.

Occurrence of 'Candidatus Phytoplasma asteris'-Related Strains infecting Chinaberry (Melia azedarach) Showing Chlorotic Leaf Symptoms on Hainan Island of China.

Chinaberry (Melia azedarach), belonging to the family of Meliaceae, is an ornamental tree distributes across southern of China. In the autumn of 2021, In an area of 400 acres located in Wanning city of Hainan Province, a tropical island in China, with coordinates of 110°28'42.72″E, 19°2'9.96″N, about 20 % (100) of the chinaberry trees showed disease symptoms included chlorotic leaves. The disease symptoms were consistent with infections by a phloem-limited prokaryotic pathogen phytoplasma. The samples of six symptomatic and three asymptomatic were collected for pathogen detection. To identify the pathogen, total nucleic acids were extracted from 0.10 g fresh leaf tissues from the diseased and healthy plant using CTAB DNA extraction method based on Doyle and Doyle. Three primer pairs of R16mF2/R16mR1, secAfor1/secArev3 and fTuf1/rTuf1 were used for specific identification of phytoplasma conserved gene fragments of 16S rDNA, secA and tuf, PCR amplification. Target PCR bands were amplified from the DNA of six diseased chinaberry samples, but not from the DNA of the healthy samples. The products of amplified were cloned and sequenced by Biotechnology (Shanghai) Co., Ltd. (Guangzhou, China). The phytoplasma gene sequences of 16S rRNA, secA and tuf were obtained and all the sequences were identical with the length of 1336 bp, 710 bp and 955 bp, respectively. Representative sequence data for strain MaCL-hn were deposited in Genbank under accession Nos. OR438638 (16S rDNA), OR513089 (secA) and OR860415 (tuf). The phytoplasma strain identified in the study was described as chinaberry chlorotic leaf (MaCL) phytoplasma, MaCL-hn strain. BLAST search based on 16S rRNA genes showed that 43 strains in 16SrI group 'Candidatus Phytoplasma asteris' showed 100% similarity with the 16SRNA sequence of MaCL-hn. BLAST search based on secA genes showed that 9 strains in the phytoplasma group showed 100% similarity with the 16SRNA sequence of MaCL-hn. BLAST search based on tuf genes showed that 21 strains in the phytoplasma group showed 100% similarity with the 16SRNA sequence of MaCL-hn. RFLP analysis based on iPhyClassifier indicated that the MaCL-hn strain was a member of 16SrI-B subgroup with a similarity coefficient 1.00 to the reference phytoplasma strain (AP006628). Phylogenetic tree was constructed based on 16S rRNA by MEGA 11.0 using neighbor-joining (NJ) method with 1000 bootstrap value. The results showed that the MaCL-hn strains were clustered into one clade with 16SrI group 'Ca. Phytoplasma asteris' related strains with 99 % bootstrap value. Multilocus sequence analysis (MLSA) based on the concatenated sequences with the length of 3001 bp including the sequences of 16S rRNA, secA and tuf showed that the MaCL-hn strains were clustered into one clade with the phytoplasma strains in the group with 100 % bootstrap value. To our knowledge, this is the first report that chinaberry can be infected by 'Ca. Phytoplasma asteris'-related strains belonging to 16SrI-B subgroup on Hainan Island of China. This finding in the study will contribute to the epidemic monitoring and the preventive management of the phytoplasmas and their related diseases.

Occurrence of Praxelis clematidea Witches'-Broom Disease Association with 16SrI Group 'Candidatus Phytoplasma asteris' in Hainan Island of China.

Praxelis clematidea is an invasive herbaceous plant belonging to Asteraceae family. From August to November 2020, the plants showing severe witches'-broom symptoms were found in farms and roadsides from Ding'an of Hainan Province, a tropical island of China. The disease symptoms were suggestive of phytoplasma infection. For pathogen detection, P. clematidea samples consisting of six symptomatic and three asymptomatic plants were collected from the farms and roadsites of Ding'an with 40 % incidence by conducting surveys and statistics. Total nucleic acids were extracted using 0.10 g of fresh leaf tissues of the plant through CTAB DNA extraction method. Conserved gene sequences of 16S rRNA and secA genes from phytoplasma were amplified by direct PCR using primer pairs of R16mF2/R16mR1 and secAfor1/secArev3, respectively. R16mF2/R16mR1 PCR amplicons were obtained for all symptomatic samples but not from the symptomless plants. The amplicons were purified and sequenced by Biotechnology (Shanghai) Co., Ltd. (Guangzhou, China). Sequences of 16S rRNA gene (1323 bp) and secA (732 bp) were obtained and all the gene sequences were identical, designated as PcWB (Praxelis clematidea witches'-broom)-hnda. Representative sequencs were deposited in Genbank with accession numbers of PP098736 (16S rDNA) and PP072216 (secA). Nucleotide BLAST (Basic Local Alignment Search Tool) search based on 16S rRNA gene sequences indicated that PcWB-hnda had 100% sequence identity (1323/1323) with 'Candidatus Phytoplasma asteris'-related strains belonging to 16SrI group like Waltheria indica virescence phytoplasma (MW353909) and Capsicum annuum yellow crinkle phytoplasma (MT760793); had 99.62 % sequence identity (1321/1326) with the phytoplasma strains of 16SrI group such as Oenothera phytoplasma (M30790). RFLP (Restriction Fragment Length Polymorphism) pattern derived from 16Sr RNA gene sequences by iPhyClassifier showed identical (similarity coefficient=1.00) to the reference pattern of 16SrI-B subgroup (GenBank accession number: AP006628). The results obtained demonstrate that the phytoplasma strain PcWB-hnda under study is a member of 16SrI-B subgroup. A BLAST search based on secA gene sequences indicated that PcWB-hnda shares 100% sequence identity (732/732 bp) with Pericampylus glaucus witches'-broom phytoplasma (MT875200), 99% sequence identify (728/732 bp) with onion yellows phytoplasma OY-M(AP006628), and 99% sequence identify (729/732 bp) with rapeseed phyllody phytoplasma isolate RP166 (CP055264), among other phytoplasma strains that belong to 16SrI group. Previous studies demonstrated that P. clematidea can be infected by phytoplasmas affiliate to the 16SrII group (GenBank accession number: KY568717 and EF061924) in Hainan Island of China. To our knowledge, this is the first report of a natural infection of P. clematidea by a group 16SrI phytoplasma in the Island of China. 16SrI group can infect agronomic important species such as areca palm in the island and P. clematidea can be a reservoir of 16SrI phytoplasmas. Therefore, it is necessary to search of potential vectors of the pathogens, which would contribute to epidemiological monitoring and prevention of the related diseases.

Molecular Identification and Characterization of Novel Taxonomic Subgroups and New Host Plants in 16SrI and 16SrII Group Phytoplasmas and Their Evolutionary Diversity on Hainan Island, China.

Phytoplasmas are a group of plant prokaryotic pathogens distributed worldwide. To comprehensively reveal the diversity of the pathogens and the diseases they cause on Hainan, a tropical island with abundant biodiversity in China, a survey of phytoplasmal diseases was performed from 2009 to 2022. Herein, molecular identification and genetic analysis were conducted based on the conserved genes of phytoplasmas. The results indicated that phytoplasmas could be detected in 138 samples from 18 host plants among 215 samples suspected to be infected by the pathogens. The phytoplasma strains from 27 diseased samples of 4 host plants belonged to the 16SrI group and the strains from 111 samples of 14 hosts belonged to the 16SrII group. Among them, 12 plants, including important tropical cash crops such as Phoenix dactylifera, cassava, sugarcane, and Piper nigrum, were first identified as hosts of phytoplasmas on Hainan Island. Based on BLAST and iPhyClassifier analyses, seven novel 16Sr subgroups were proposed to describe the relevant phytoplasma strains, comprising the 16SrI-AP, 16SrI-AQ, and 16SrI-AR subgroups within the 16SrI group and the 16SrII-Y, 16SrII-Z, 16SrII-AB, and 16SrII-AC subgroups within the 16SrII group. Genetic variation and phylogenetic analysis indicated that the phytoplasma strains identified in this study and those reported previously on Hainan Island mainly belong to four 16Sr groups (including I, II, V, and XXXII) and could infect 44 host plants, among which the 16SrI and 16SrII groups were the prevalent 16Sr groups associated with 43 host plant species. The diversity of host plants infected by the phytoplasmas made it difficult to monitor and control their related diseases. Therefore, strengthening inspection and quarantine during the introduction and transit of the related phytoplasmal host crops would effectively curb the spread and prevalence of the phytoplasmas and their related lethal diseases.

First Report of 'Candidatus Phytoplasma asteris'-related Strain (16SrI group) Associated with Small Leaves, Leaf Yellowing, and Shoot Proliferation of Morning Glory (Ipomoea biflora) in Taiwan.

Ipomoea biflora L., commonly known as morning glory, is an herbaceous vine plant in the Convolvulaceae family and is widespread at low elevations in Taiwan and other East Asian countries. In September 2023, six I. biflora plants exhibiting small leaves, leaf yellowing, and shoot proliferation were observed in a vacant lot in Taiwan Agricultural Research Institute (TARI), Wufeng District, Taichung, Taiwan, representing 100% disease incidence in the area. All the symptomatic morning glory climbed onto Murraya paniculata L. (common jasmine orange) which however showed no similar symptoms. The total DNA (two samples for each plant) from leaf tissues of three symptomatic morning glory plants, two asymptomatic morning glory plants, and one asymptomatic common jasmine orange was isolated by the CTAB method (Fulton et al. 1995) and used for PCR with the universal primers, P1 (Deng and Hiruki 1991)/P7 (Schneider et al. 1995), to amplify a fragment containing partial 16S rDNA. Expected 1.8-kb bands were amplified from DNA extracted from all symptomatic plants, whereas no PCR product was detected from that of the asymptomatic I.biflora and M. paniculata plants. Six PCR products were cloned and sequenced in the Biotechnology Center DNA-sequencing facility at National Chung Hsing University, and one representative sequence was selected and deposited in GenBank. BLAST analysis revealed that the obtained 16S rDNA sequence (PP230905) shared 99.92% identity with the following phytoplasma strains: rapeseed phyllody phytoplasma (CP055264), plumbago auriculata leaf yellowing phytoplasma (MN239503), and aster yellows phytoplasma (MK992774), which all belong to the 16SrI subgroup. The query 16S rDNA sequence shares 99.84% identity with that of the 'Candidatus Phytoplasma asteris' reference strain (M30790), suggesting that the phytoplasma is a 'Ca. Phytoplasma asteris'-related strain. A virtual restriction fragment length polymorphism (RFLP) analysis was conducted using iPhyClassifier tool (Zhao et al. 2009), and the pattern derived from the 16S rDNA fragment of the I. biflora phytoplasma was identical (similarity coefficient 1.00) to the reference pattern of 16SrI, subgroup B (onion yellows phytoplasma OY-M; AP006628). Six total DNA samples from symptomatic plants were used as templates to amplify 842 bp secA sequences with SecAfor1 and SecArev3 primers (Hodgetts et al. 2008), and one representative sequence was deposited in GenBank. The partial secA sequence (PP263636) showed 98.22% identity with that of Trema levigatum witches'-broom phytoplasma (MW032212) that also belongs to the 16SrI group (Wan et al. 2021). Phylogenetic analysis of both 16S rDNA and secA confirmed I. biflora phytoplasma as 16SrI, subgroup B. Taken together, we concluded that the morning glory phytoplasma in this study was a 'Ca. Phytoplasma asteris'-related strain belonging to the 16SrI group. To the best of our knowledge, this is the first report of a phytoplasma-infected I. biflora in Taiwan, suggesting morning glory as a new natural host of 16SrI phytoplasmas, alongside other plants like roselle and citrus (Tseng et al. 2014; Feng et al. 2015).

First Report of 'Candidatus Phytoplasma citri' related strain (16SrII-C subgroup) associated with phyllody disease of cumin in India.

Cumin (Cuminum cyminum L.), is an important export-oriented seed spice crop for India. Cumin is popularly used for flavouring food, including soups, pickles and vegetables, and for herbal medicine. India is the largest producer, consumer and exporter of cumin seed with an annual production of 0.795 million tones over an area of 1.09 million hectares. During 2020-21, India exported about 0.299 million tons of cumin worth of Rs 33280 million (Anonymous, 2021). Recently, phytoplasma suspected symptoms were observed in cumin at Agricultural Research Station, Mandor, Jodhpur, Rajasthan, India from 2019. The symptoms related to phytoplasma infection were first recorded after 70-75 days of sowing in the month of January of the years 2019 to 2022. The major symptoms recorded were yellowing, phyllody, witches-broom, yellowing and deformed elongated seeds. Disease incidence was recorded as 0.25-1.0%, 0.5-1.5%, 0.5-2.5 % and 0.5-10.6% during the years 2019, 2020, 2021 and 2022, respectively using quadrate method. In 2022, among different genotypes assessed GC 4, MCU 73, MCU 105, and MCU 32 exhibited lower disease incidences ranging from 0.5% to 1.5%, while MCU 78 recorded the highest disease incidence at 10.6%. To detect the association of phytoplasma with symptomatic cumin samples, genomic DNA was extracted from four representative cumin genotypes (CuPP-MND-01 to CuPP-MND-04) and one asymptomatic cumin plant using the Qiagen DNeasy plant mini kit (Germany). The extracted DNA was amplified using nested PCR assays with universal phytoplasma detection primers for 16S rRNA gene (P1/P7 and R16F2n/R16R2) (Schneider et al., 1995; Gundersen and Lee, 1996) and secA gene specific primers (SecAfor1/SecArev3 followed by nested PCR primers SecAfor5/ SecArev2) (Hodgetts et al. 2008; Bekele et al. 2011). The amplicons of ∼1.25 kb with 16S rRNA gene and ∼600 bp with secA gene specific primers were amplified in all symptomatic cumin plant samples and positive control of brinjal little leaf. PCR amplified products from the four selected positive samples (CuPP-MND-01 to CuPP-MND-04) of 16S rRNA gene and secA gene, were sequenced from both ends. The 1,245 bp sequences were deposited in GenBank (OQ299007-10), which showed 100% sequence identity with each other and 99.4% identity with 'Candidatus Phytoplasma citri' reference strain (GenBank accession: U15442) (Rodrigues Jardim et al. 2023). The phylogenetic analysis and virtual RFLP analysis using 17 restriction enzymes of 16S rRNA gene sequences through iPhyclassifier allowed affiliating the cumin phytoplasma strains with 16SrII-C subgroup strain with a similarity coefficient of 1 to the reference pattern of 16Sr group II, subgroup C (GenBank accession: AJ293216) (Zhao et al. 2009). In addition, the phylogenetic analysis of the secA gene-based sequences (OQ305073-76) further confirmed the close association of 16SrII-C group phytoplasmas with phyllody and witches' broom disease of cumin. Earlier 16SrII-C subgroup phytoplasma has been reported from various crops and weeds in India (Rao et al. 2021). However, no phytoplasma association has been reported earlier with cumin in India and abroad. To the best of our knowledge, this is the first report on the association of 16SrII-C group phytoplasma causing phyllody, witches' broom in cumin genotypes. This report has economic and epidemiological implications and needs immediate attention to reduce export losses due to phytoplasma disease in cumin and to prevent the potential spread to other crops.

First Report of 'Candidatus Phytoplasma australasiaticum' Associated with Phyllody, Virescence, and Witches'-Broom Disease in Chrysanthemum morifolium in Taiwan.

Chrysanthemum morifolium (Asteraceae) is commonly grown as commercial cut flowers or pot mums worldwide. Common diseases of chrysanthemum include bacterial blight, fungal diseases, viruses, and phytoplasmas (Verma et al. 2003; Taloh et al. 2020). In June 2022, C. morifolium plants showing virescence, stunting, witches' broom, and phyllody symptoms were observed in 10 plants representing 10% of the estimated 100 plants in a field in Taichung City, Taiwan (Fig. S1). Three symptomatic samples along with three asymptomatic ones were collected for further study. Nested PCR was performed with two primer sets, P1/P7 (Deng and Hiruki 1991; Schneider et al. 1995) and R16F2n/R16R2 (Gundersen and Lee 1996) to amplify nearly full-length of 16S rDNA from the collected samples. The target 1.2-kb DNA band was only amplified from the symptomatic chrysanthemum plants. The amplicons were sequenced and a representative sequence deposited in GenBank under accession number OR501416. This sequence was used to search GenBank database by the Basic Local Alignment Search Tool (BLAST) program through the web service of National Center for Biotechnology Information (NCBI). In the 16S rDNA analyses, the three randomly picked amplicons from chrysanthemum phyllody phytoplasma (CPP) shared 100% identity with one another, and all shared 99.5% identity with the, 'Candidatus Phytoplasma australasiae' reference phytoplasma strain (Y10097). Further analysis using iPhyClassifier (Wei et al. 2007) revealed that CPP was most similar to the pattern of the peanut witches' broom phytoplasma in the 16SrII-A subgroup (GenBank Acc. No. L33765), with a pattern similarity coefficient of 1.0. For confirmation, the secY gene was amplified by secY-F/R primers (Li et al. 2014), the 1.2-kb band was sequenced and deposit in GenBank (Acc. No. OR508986). BLAST analysis showed that the secY sequence of CPP shared 99.93% of sequence identities to several 'Ca. P. australasiaticum' strains (MN543069, CP097312, CP120449, KC953013, MW085916, MW070030, CP040925). The phylogenetic tree analysis based on the secY gene by MEGA11 employing maximum-likelihood algorithm was performed and the bootstrap value was set as 1000 times for support of the stability for the clades. The result showed that CPP is closely related to other strains in 16SrII group (Fig. S2). Taken together, CPP is a 'Ca. P. australasiaticum' related-strain in 16SrII-A subgroup. This is the first report of chrysanthemum as a host of this phytoplasma in Taiwan, and might have an impact to the horticultural industry and the growers.

Momordica charantia Is a Novel Host of 'Candidatus Phytoplasma malaysianum'-Related Strains Associated with Bitter Melon Stem Fasciation Disease in China.

Momordica charantia, also known as bitter melon, bitter gourd, and bitter squash, is a member of the Cucurbitaceae family and is widely grown in tropical and subtropical regions for its edible fruit and medicinal properties (Alves et al. 2017). In April 2022, bitter melon plants exhibiting stem fasciation and excessive tendril symptoms were observed in a 50-acre vegetable farm in Yijia Village, Weishan Yizu Huizu Autonomous County, Dali, Yunnan Province, China (Fig. 1). The farm primarily grew tomatoes, but around 400 bitter melon plants were planted in spots where tomatoes failed to establish. One plot had a 40% incidence rate, with four out of ten bitter melon plants showing symptoms. Scattered cases were observed in other plots, leading to an overall disease incidence rate of around 2% for the entire farm. Phytoplasma infection was suspected due to symptomatic plants growing in the same province as previously reported cases of phytoplasma diseases, such as happy tree (Camptotheca accuminata) witches'-broom disease, and the presence of phytoplasma-transmitting leafhoppers (Qiao et al. 2023). DNA was extracted from four symptomatic samples and two healthy controls collected from the abovementioned plot with a 40% disease incidence using Bioteke's Plant Genomic DNA Extraction Kit and then tested for phytoplasma infection. A nested PCR assay was conducted using primer pair P1/16S-SR followed by P1A/16S-SR to amplify the near full-length phytoplasma 16S rDNA (about 1.5kb) as previously described (Lee et al. 2004). None of the healthy controls tested positive for phytoplasma infection, while three out of four symptomatic plants showed positive results. The amplicons from the nested PCR were cloned into the pCRII-TOPO vector as previously described (Lee et al. 2004). The resulting clones were sequenced, and the representative sequence was deposited into GenBank (accession number PP489216). The iPhyClassifier (Zhao et al. 2009) was employed to determine the phytoplasma species and group/subgroup associated with the bitter melon stem fasciation (BMSF) disease. The results indicated that the diseased bitter melon plants were infected with a strain related to 'Candidatus Phytoplasma malaysianum' (EU371934), with a 98.07% sequence identity. The similarity coefficient was 1.00 compared to the reference strain of 16SrXXXII-D (GenBank accession: MW138004). The phytoplasma strain associated with BMSF disease was designated as BMSF1. In addition, the same DNA samples underwent further characterization of the BMSF strains. A nested PCR was conducted using primer pair rpL2F3/rpIR1A, followed by rp(III)-FN/rpIR1A to amplify a phytoplasma-specific rp gene segment (about 1.2 kb) (Martini et al. 2007; Davis et al. 2013). Three out of four samples tested positive, consistent with the 16S rRNA gene amplification results. Similarly, a primer pair L15F1/MapR1 followed by secYF1(III)/secYR1(III) was used to amplify a phytoplasma-specific partial spc operon (about 1.7 kb) that includes the complete secY gene and partial rpl15 and map genes, as previously described (Lee et al. 2010). The obtained rp and partial spc amplicons were cloned and sequenced (GenBank accession numbers PP464295 and PP464296). The rp and secY gene sequences were searched against the non-redundant nucleotide collection in the NCBI database using BLASTN. The top hit for the rp gene was 'Ca. Phytoplasma luffae' (CP054393), with 83.24% identity (1068/1283 base-matching). The top hit for the secY gene was also 'Ca. Phytoplasma luffae' (CP054393), with 72.53% identity (1294/1784 base-matching). The percent identity of the BMSF sequences compared to the top hit is low since no other group 16SrXXXII rp and secY gene sequences are available for comparison. A subgroup 16SrXXXII-D phytoplasma strain has been previously reported associated with Camptotheca acuminata witches'-broom (Qiao et al. 2023) and Trema tomentosa witches'-broom (Yu et al. 2021) in China. To our knowledge, bitter melon represents a new host of 'Candidatus Phytoplasma malaysianum'-related strains, and this is the first report of BMSF disease in China. The findings suggest that 'Candidatus Phytoplasma malaysianum'-related strains infect not only ornamental plants but also crops.

First Report of 'Candidatus Phytoplasma ziziphi'-Related Strains Infecting Peony (Paeonia suffruticosa Andr.) Showing Leaf Yellows Symptoms in China.

Peony (Paeonia suffruticosa Andr.), belonging to family Paeoniaceae, is an important medicinal and ornamental plant. During August of each year from 2016 to 2023, peony plants at Heze city were found to exhibit leaf yellows symptoms. The incidence rate of the symptomatic plant was recorded from 10% to 30% in four peony gardens with about 200 acres. Total DNA was extracted from 0.10 g fresh plant leaf tissues from 24 symptomatic and 8 asymptomatic samples using rapid plant genomic DNA isolation kit (Aidlab Biotechnology, Beijing, China). The extracted DNA was amplified by nested polymerase chain reaction using universal primers R16mF2/R16mR1 followed by R16F2/R16R2 (Lee et al., 1993; Gundersen and Lee, 1996) specific for the 16S rRNA gene and new designed tuf gene specific primers JWB-tuforfF1 (5'-ATGGCTGAAATATTTTCAAGAG-3') and JWB-tuforfR1 (5'-TTATTCTATGATTTTAATAACAG-3') followed by JWB-tuforfF2 (5'-ATGTAAACGTAGGAACTATTGG-3') and JWB-tuforfR2 (5'- TCCGATAGTTCTTCCACCTTCAC-3'). Amplicons of about 1.25 kb and 1.02 kb (16S rRNA gene and tuf gene, respectively) were obtained in 8 symptomatic samples from four peony gardens. However, no amplification was obtained in any of the asymptomatic samples. The representative amplicons of 16S rRNA and tuf genes of three positive samples (Heze-9, -18 and -27) were cloned into a zero background pLB-simple vector (Tiangen Biotechnology, Beijing, China) and sequenced by Taihe Biotechnology, Beijing, China. Sequences obtained in the study were deposited in NCBI GenBank with accession numbers PP504882, PP504883 and PP504884 for the 16S rRNA gene as well as PP530237, PP530238 and PP530239 for the tuf gene. The phytoplasma strain under the study was described as peony yellows (PeY) phytoplasma, PeY-Heze strain. Alignment analysis by DNAMAN software showed that three 16S rRNA gene sequences obtained in the study shared 99.36% to 99.60% sequence identity and three tuf gene sequences obtained in the study were identical. BLAST analysis of the 16S rRNA gene sequences of the PeY-Heze phytoplasma strains showed 99.60%-99.84% sequence identity with 'Candidatus Phytoplasma ziziphi' (GenBank accession: CP025121). And tuf sequences of the strains showed 100% similarity with 'Ca. P. ziziphi' (CP025121). Interestingly, the virtual RFLP patterns derived from three 16Sr RNA gene sequences obtained in the study by iPhyClassifier (Zhao et al., 2009) were different from the reference patterns of all previously established 16Sr groups/subgroups. The most similar are the reference pattern of the 16Sr group VII, subgroup E (AY741531), with a similarity coefficient of 0.72, which is less than 0.85. These phytoplasma strains may represent a new 16Sr group. Phylogenetic analysis based on 16S rRNA genes using MEGA 7.0 by neighbor-joining (NJ) method with 1000 bootstrap value indicated that PeY-Heze strains clustered into one clade with the phytoplasma strains of 'Ca. P. ziziphi' with 68% bootstrap value. Although there are several reports available on 'Ca. P. solani' infecting peony in Shandong Province, China (Gao et al., 2013). To our knowledge, this is the first report of 'Ca. P. ziziphi'-related strains infecting peony in China. The findings in this study will be beneficial to the detection, quarantine, and prevention of peony yellows phytoplasmas in China.

Ipomoea obscura Represents a New Host of Phytoplasma Belonging to 16SrII Group Associated with Witches'-Broom Symptoms in China.

Phytoplasmas are phloem-limited plant pathogenic prokaryotes which can not be cultured in vitro. The pathogens could cause various plant symptoms such as witches'-broom, virescence, and leaf yellows. Ipomoea obscura is a valuable plant species belonging to the family Convolvulaceae, mainly used as a traditional Chinese medicine used to treat diseases such as dehydration and diuresis. In western countries it is commonly referred to as 'obscure morning glory'. During 2020 to 2021, plants showing abnormal symptoms including witches'-broom, internode shortening, and small leaves were found in Hainan Province, a tropical island of China. Approximately 30 % of I. obscura plants in the sampling regions which spanned 400 acres, showed symptoms. In order to identify the associated pathogen, six symptomatic samples and three asymptomatic samples were collected and total DNA were extracted from 0.10 g fresh plant leaf tissues using CTAB DNA extraction method. 16S rRNA and secA gene fragments, specific to phytoplasmas, were PCR amplified using primers R16mF2/R16mR1 and secAfor1/secArev3. The target PCR bands were obtained from the DNA of six symptomatic samples, whereas not from the DNA of the asymptomatic samples. The PCR products of phytoplasma 16S rRNA and secA gene obtained from the diseased samples were cloned and sequenced by Biotechnology (Shanghai) Co., Ltd. (Guangzhou, China). The 16S rRNA and secA gene sequences identified in the study were all identical with the length of 1330 bp (GenBank accession: OR625212) and 720 bp (OR635662) respectively. According to methods and protocols of phytoplasma identification and classification (Wei and Zhao, 2022), the phytoplasma strain identified in the study was described as Ipomoea obscura witches'-broom (IoWB) phytoplasma, IoWB-hnld strain. The partial 16S rRNA gene sequence of IoWB showed 100 % sequence identity over the full 1330 bp sequence to phytoplasmas belonging to 16SrII group like cassava witches'-broom phytoplasma (KM280679). The BLAST search of the 720 bp partial secA gene fragment of IoWB showed 100% sequence identity for the full sequence to phytoplasmas belonging to 16SrII group like 'Sesamum indicum' phyllody phytoplasma (OQ420657). RFLP analysis based on the 16S rRNA gene using iPhyClassifier demonstrated that the IoWB strain was a member of 16SrII-A subgroup with the similarity coefficient 1.00 to the reference phytoplasma strain (L33765). Phylogenetic analysis based on 16S rRNA and secA genes by MEGA 7.0 employing neighbor-joining (NJ) method with 1000 bootstrap value indicated that IoWB-hnld was clustered into one clade with the phytoplasmas belonging to 16SrII group, with 98% and 100% bootstrap value separately. To our knowledge, this is the first report that Ipomoea obscura can be infected by phytoplasmas belonging to 16SrII-A subgroup in China. This report adds to the host range of 'Ca. Phytoplasma aurantifolia', documenting the symptoms on I. obscura which will assist in monitoring and control of the associated pathogen.

Occurrence of Phytoplasmas Belonging to 16SrII Group Associated with Cyanthillium cinereum Witches'-Broom Diseases in China.

Cyanthillium cinereum, which belongs to the family of Asteraceae, is an annual or perennial herbaceous plant with significant medicinal uses for treating colds and fever. During September to November of 2020, C. cinereum showing symptoms of witches'-broom were found in economic forests distributed in Ding'an, Hainan Province of China, with 20% incidence. The symptoms of the plant were consistent with infections by 'Candidatus Phytoplasma' species. To identify the pathogen, five symptomatic and three asymptomatic C. cinereum samples were collected. Total DNAs were extracted using 0.10 g fresh leaf tissues of symptomatic and asymptomatic C. cinereum through a CTAB DNA extraction method according to Doyle and Doyle (1990). PCR amplification were performed employing the primer pairs of R16mF2/R16mR1 (Gundersen and Lee, 1996) and secAfor1/secArev3 (Hodgetts et al., 2008) specific for the conserved gene fragments of 16S rRNA and secA from phytoplasma. The PCR products were purified and sequenced through Biotechnology (Shanghai) Co., Ltd. (Guangzhou, China), and the obtained sequences were deposited in GenBank. The phytoplasmal 16S rRNA and secA gene fragments obtained in the study were all identical with the length of 1325 bp (GenBank accession: PP098738) and 741 bp (PP072217), respectively. The phytoplasma strain was described as CcWB-hnda. A BLAST search based on 16S rRNA genes indicated that CcWB-hnda strain was identical to phytoplasmas belonging to 16SrII group like peanut witches'-broom phytoplasma strain T48 (OR239773) and 'Ca. Phytoplasma aurantifolia' strain TB2022 (CP120449). Virtual RFLP profiles based on 16S rRNA gene fragments obtained by iPhyClassifier (Zhao et al., 2009) showed that CcWB-hnda strain was a member of 16SrII-A subgroup with 1.00 similarity coefficient to the reference phytoplasma strain (L33765). A BLAST search based on secA genes indicated that CcWB-hnda had 100% sequence identity with phytoplasmas belonging to 16SrII group such as 'Ca. Phytoplasma aurantifolia' isolate TB2022 (CP120449), Vigna unguiculata witches'-broom phytoplasma (OR661282) and Emilia sonchifolia witches'-broom phytoplasma (MW353710). Phylogenetic analysis based on 16S rRNA and secA genes by MEGA 7.0 employing Neighbor-Joining method with 1000 bootstrap value (Kumar et al., 2016; Felsenstein, 1985) demonstrated that CcWB-hnda was clustered into one clade with the phytoplasmas belonging to 16SrII group, with 98% and 100% bootstrap value respectively. To our knowledge, this is the first report of C. cinereum infected by phytoplasmas belonging to 16SrII-A subgroup in China. Identification of the vector insects of the pathogens is necessary in future, revealing the epidemiology of the related diseases. Phytoplasmas belonging to same 16Sr group or subgroup can infect different plants and spread through them in nature. The finding in this study will be beneficial to epidemic monitoring and early warning of C. cinereum witches'-broom disease and the related plant diseases caused by the phytoplasmas belonging to 16SrII group.

Multiplex qPCR for the detection of bacteria associated with huanglongbing 'Candidatus Liberibacter asiaticus', 'Ca. L. americanus' and 16Sr IX group phytoplasma.

The occurrence of 'Candidatus Liberibacter' spp. and 'Ca. Phytoplasma' spp. associated with blotchy mottle symptoms poses challenges to huanglongbing (HLB) diagnosis using molecular techniques. The ability to detect multiple targets simultaneously and specifically is a key aspect met by qPCR. A set of primers and hydrolysis probes useful either in single or multiplex reactions for the detection and quantification of HLB-associated bacteria were developed. Sequences from conserved genes of the ribosomal proteins for Liberibacter and phytoplasma circumvent the lack of specificity and cross-reactivity problems related to 16S rDNA gene amplification, allowing precise and specific detection of HLB-associated bacteria in citrus and in the Liberibacter vector, Diaphorina citri. The triplex reaction exhibited high quality and precision as a robust tool for quantifying 'Ca. L. asiaticus' (CLas), 'Ca. L. americanus' (CLam) and 16SrIX phytoplasma. Triplex qPCR showed consistent results and comparable sensitivity to the RNR test, though Cq values were higher when compared to 16S rDNA qPCR. Detection tests using field samples indicate that the qPCR triplex can identify HLB-associated bacteria in samples with varying levels of symptoms, ranging from typical to asymptomatic. Assessment of field samples from growers indicated more than 78.6% had Cq lower than 35.0, below the cut-off established for qPCR reactions used in this work. qPCR triplex is a safe, specific, and sufficiently sensitive technique for detecting CLas, CLam and 16Sr IX phytoplasma simultaneously, in both citrus and D. citri samples. Its application is of importance in assisting growers in making decisions for HLB management.

First Report of a Phytoplasma Strain in the Elm Yellows Group (16SrV) associated with Virginia Creeper in Maryland, USA.

Virginia creeper (Parthenocissus quinquefolia [L.] Planch.) is a deciduous flowering vine in the Vitaceae family. Native to eastern North America, it is often used ornamentally as a climbing vine or as ground cover due to its rapid growth and foliage color in the fall. In July of 2022, along exterior walls of a private property in Lanham, MD, two Virginia creeper (VC) vines were observed displaying symptoms of yellow mottling and premature reddening of leaves. To investigate the cause of these symptoms, two symptomatic leaf samples and one asymptomatic leaf samples from a third vine in the same vicinity were collected for further analysis. A Qiagen DNeasy Plant Mini Kit was used to extract total DNA from leaf tissues according to the manufacturer's instructions. A phytoplasma-specific real-time PCR (Hodgetts et al. 2009) was used to test the DNA extracts, which detected the presence of phytoplasmas in the two DNA samples derived from symptomatic vines. The near full-length of the 16S ribosomal RNA gene was then amplified by seminested PCR from these samples with primers P1/16S-SR followed by P1A/16S-SR (Deng, and Hiruki 1991; Lee et al. 2004) and Sanger sequenced using primers P1A and 16S-SR. Analysis of the obtained 16S rDNA sequences revealed no variation between the two plant samples, and one sequence was deposited in GenBank representing the phytoplasma strain named VC-MD1 (GenBank PP746981). A BLASTn search of the 16S rRNA gene sequence in the NCBI nucleotide database, showed 99.93% sequence identity with the phytoplasma strain AldY-WA1 (GenBank MZ557341) from red alder in Washington, a phytoplasma associated with VC plants in southern Florida (GenBank AF305198) (Harrison et al. 2001), and other strains detected in grapevines in Europe described as "flavescence dorée" phytoplasma (GenBank AF176319) (Davis, and Dally 2001). The virtual restriction fragment length polymorphism pattern derived from iPhyClassifier (Zhao et al. 2009), indicated that VC-MD1 is indeed a member of the 16SrV-C phytoplasma subgroup. To confirm the identification, the partial spc operon and the partial tuf gene were amplified as previously described (Lee et al. 2010; Makarova et al. 2012). Specifically, the spc operon region was amplified using a nested PCR approach with primer set L15F1A-a/MapR1 followed by L15F1A-b/MapR1A-b. Sequence data obtained from the two loci were deposited to GenBank with accession numbers PP746982 (spc) and PP746983 (tuf). BLAST searches querying the nucleotide sequences of the spc operon and tuf gene showed 95.39% and 99.05% identity, respectively, to the corresponding loci of 'Candidatus Phytoplasma rubi' strain RS (GenBank CP114006) and hemp dogbane yellows phytoplasma strain HD1 (GenBank FR686506). Phylogenetic analysis based on secY and tuf gene sequences suggest that the VC-MD1 strain is evolutionary closest to 16SrV-C phytoplasma strains detected in various hosts in the United States, including HD1 and AldY-WA1. These North American strains cluster together on a distinct branch within the elm yellows group phytoplasmas. For the State of Maryland, this detection represents the first report of a phytoplasma strain member of the16SrV-C subgroup infecting VC plants. A phytoplasma of the same subgroup was previously detected in Florida in asymptomatic VC vines (Harrison et al. 2001). The 16S rRNA gene sequences of the two VC phytoplasma strains are nearly identical, differing by just a single nucleotide. The disease transmission vectors of the VC-MD1 strain and the prevalence of the disease in the region remains undetermined.