First Report of 'Candidatus Phytoplasma aurantifolia' Associated with the Invasive Weed Eclipta prostrata (L.) in Taiwan.

Eclipta prostrata (L.), commonly known as false daisy of the family Asteraceae, is an erect or prostrate annual herb that grows 5 to 45 cm tall. It is widespread mainly in tropical and subtropical regions like India, China, Taiwan, Thailand, and Brazil (Chung et al., 2017). E. prostrata has very wide medicinal properties accounted by several phytochemicals like thiophene derivatives, steroids, flavonoids, and polypeptides (Feng et. al., 2019). It is also used as a traditional herbal medicine for the treatment of bleeding, hemoptysis and itching, hepatitis diarrhea, and even hair loss (Timalsina et al., 2021). In September 2021, E. prostrata displaying branch proliferation and phyllody symptoms with about 30% (6 were symptomatic and 14 were healthy) incidence rate was observed in Mailiao, Yunlin, Taiwan where phytoplasma disease is permeating and has affected many crops and non-crop species including peanut, mungbean, curl-leaved tobacco, false amaranth, etc. Compared to healthy E. prostrata bearing white ray florets and cream or dull white disk florets, symptomatic ones developed phyllody which is more pronounced on the severely infected ones. Further examination by transmission electron microscope revealed a pleomorphic (circular, elliptical, and bell-shaped) phytoplasma-like organisms accumulated in the sieve elements of the symptomatic leaves. Phytoplasma infection was further confirmed by nested polymerase chain reaction using universal primers P1/P7 (carried out for 12 cycles), followed by R16F2n/R16R2 (carried out for 35 cycles) on the genomic DNA extracted by Plant Genomic DNA Purification Kit (DP022-150, GeneMark) (Lee et al. 1993). Results revealed that the conserved 16S rRNA gene with a 1.2 kb fragment size was amplified only by the symptomatic samples. Furthermore, western blotting was done using the polyclonal antibody raised against the immunodominant membrane protein (Imp) of peanut witches'-broom (PnWB) phytoplasma, a 'Candidatus Phytoplasma aurantifolia' in Taiwan that belongs group to 16SrII (Chen et al. 2021). Consistent with the nested PCR, only the symptomatic samples revealed a specific Imp signal with a size of 19 kDa. To classify the phytoplasma associated with the symptomatic E. prostrata, the DNA sequence (No. OM397418) of the P1/P7 primer pair-amplified DNA fragment was obtained using P1 and a nested primer (5'-GGGTCTTTACTGACGCTGAGG-3'), which shares 100% identity with that of GenBank accession NZ_AMWZ01000008 (complement [31109 to 32640]) of PnWB phytoplasma. Further analysis of the virtual RFLP pattern of OM397418 by iPhyClassifier confirmed that the phytoplasma identified in the symptomatic E. prostrata belongs 16SrII-V subgroup. To the best of our knowledge, this is the first report of phytoplasma disease in E. prostrata associated with the 'Ca. P. aurantifolia' in Taiwan.

Detection, Identification, and Molecular Characterization of the 16SrII-V Subgroup Phytoplasma Strain Associated with Digera muricata in Taiwan.

Digera muricata (L.) Mart. is a pantropical annual herb belonging to the Amaranthaceae family. In August 2021, D. muricata with indicative phytoplasma symptoms of phyllody, witches'-broom, and virescence was discovered adjacent to a peanut field in Mailiao, Yunlin, Taiwan. The causal agent of the observed symptoms was detected and identified by a series of molecular characterizations. Sieve elements of the phloem tissue were perused under the transmission electron microscope and revealed the presence of pleomorphic phytoplasma-like organisms. Nested PCR using phytoplasma universal primer pairs P1/P7 and R16F2n/R16R2 was able to amplify a 1.2-kb DNA fragment for the 16S rRNA gene only from the symptomatic D. muricata. The 16S rRNA-based phylogenetic analysis and the iPhyClassifier-based virtual RFLP further affirmed that the phytoplasma associated with the diseased D. muricata can be classified into the 16SrII-V subgroup. Moreover, displayed evident symptoms were explained by the concomitant detection of PHYL1 and SAP11, the virulence genes responsible for the development of leaf-like flowers and shoot proliferation, respectively. Although phytoplasma infection on the noncrop species does not have a direct economic impact, its role in disease spread and perpetuation is indubitable.

Detection, Identification, and Molecular Characterization of a 16SrII-V Subgroup Phytoplasma Associated with Nicotiana plumbaginifolia.

Nicotiana plumbaginifolia Viviani, commonly known as curl-leaved tobacco, is an annual herbaceous plant belonging to Solanaceae family. This plant is native to Mexico, South America, and parts of the Caribbean and has been reported to be present in Taiwan since 2006. In March 2021, N. plumbaginifolia Viviani, found in Yunlin County, Taiwan, was observed to have phyllody, virescence, and witches'-broom, which is consistent with the disease symptoms caused by phytoplasma infection. Samples of the healthy and symptomatic plants were collected for analysis of the causal agent associated with the diseased N. plumbaginifolia Viviani. Under transmission electron microscopy, the phytoplasma-like pleomorphic bodies were found in the sieve tubes of the diseased plants. The 16S ribosomal RNA (rRNA)-based phylogenetic analysis and the iPhyClassifier-based virtual restriction fragment length polymorphism study demonstrated that the phytoplasma identified in this study can be classified into the 16SrII-V subgroup, which is similar to the peanut witches'-broom phytoplasma, a 'Candidatus phytoplasma aurantifolia'-related strain. Further identification of SAP54/PHYL1 and SAP11 homologs in the phytoplasma explain the disease symptoms of phyllody, virescence, and witches'-broom observed in diseased N. plumbaginifolia Viviani. The discovery of new phytoplasma plant hosts has gained scientific importance in light of the attempt to unravel an efficient strategy to fight the rapid spread of this disease, which poses a threat to the agricultural sector and food security in Taiwan.

First Report of 16SrII-V Phytoplasma Associated with Green Manure Soybean (Glycine max L.) in Taiwan.

QING PI DOU, a local variety of soybean (Glycine max (L.) Merrill) with small seed size, is primarily cultivated in the southern region of Taiwan. Due to the advantage of high germination rate, fast growth and high nitrogen fixation capacity, QING PI DOU has widely used as green manure in rotation with rice to increase soil fertility in Taiwan. In the summer of 2020, phytoplasma-induced disease symptoms were observed in QING PI DOU with 23% (18/78) disease incidence in Yunlin County, Taiwan. These plants exhibited severe disease symptoms such as little leaf, yellowing, phyllody, virescence, and witches' broom compared to healthy plants. Leaf samples of the symptomatic plants were subsequently collected and examined through transmission electron microscopy (TEM), PCR, and western blotting analyses. The ultrathin sections of the diseased QING PI DOU were double-stained with uranyl acetate and lead citrate. The typical phytoplasma-like pleomorphic bodies were observed in sieve elements of leaf veins by TEM. To investigate the association of phytoplasma with the diseased QING PI DOU, total DNA extracted by the Plant Genomic DNA Purification Kit (DP022, Genemark, Taiwan) was examined by nested PCR using the phytoplasma universal primer pair P1/P7 followed by R16F2n/R16R2 (Lee et al. 1993). The 1.2 kb PCR product specific for 16S ribosomal RNA (16S rRNA) gene was only amplified from symptomatic plants but not from healthy plants. BLAST analysis demonstrated that the sequence (accession no. MW393690) of amplified DNA fragment of 16S rRNA is identical to that of GenBank accession no. NZ_AMWZ01000008 (complement [31109 to 32640]) of peanut witches' broom (PnWB) phytoplasma, a 'Candidatus phytoplasma aurantifolia'-related strain (Firrao et al. 2004). Further analysis on the virtual RFLP pattern of MW393690 generated by iPhyClassifier confirmed that the phytoplasma identified in the diseased QING PI DOU can be classified into the 16SrII-V subgroup. Samples examined by nested PCR were further selected for total cell extracts preparation and characterized by western blotting using the polyclonal antibody raised against the immunodominant membrane protein (Imp) of PnWB phytoplasma (Chien et al. 2020). An expected signal of 19 kDa specific for Imp was only detected in symptomatic plants but not in healthy plants. Moreover, the PCR products encoding SAP11 and phyllogen, the virulence factors responsible for phytoplasma-induced witches' broom and phyllody symptoms (Namba 2019), were also amplified from symptomatic QING PI DOU by PCR using the primer pairs 5'-ATGGCTCCCGAAAAAAATGATAAAGG-3'/5'-TTTTTTAGAATCATCAGGCTTTTTAG-3' (0.28 kb) and 5'-ATGGATCCAAAACTTCCAGAAACT-3'/5'-GTTTTTTTCATCATTTAAATCAT-3' (0.27 kb), respectively. Further analysis by BLAST revealed that SAP11 and phyllogen identified in symptomatic QING PI DOU are identical with those of PnWB phytoplasma. To the best of our knowledge, this report is the first to describe phytoplasma-associated soybean (Glycine max L.) witches' broom disease in green manure soybean in Taiwan.

First Report of 16SrII-V Peanut Witches' Broom Phytoplasma in Snake Gourd (Trichosanthes cucumerina L.) in Taiwan.

Snake gourd (Trichosanthes cucumerina L.), an annual climbing plant belonging to the family of Cucurbitaceae, is native to Southeast Asia countries, e.g., India, Pakistan, Malaysia, China, and Indonesia. It is commonly consumed as a vegetable and also used as a traditional herbal medicine due to the antidiabetic, anti-inflammatory, antibacterial, hepatoprotective, and cytotoxic activities (Devi 2017). In September 2020, phytoplasma-induced disease symptoms such as little leaf, yellowing, phyllody, virescence, and witches' broom were observed on snake gourd in Yunlin County, Taiwan. The cross-sectional examination of the symptomatic plant by transmission electron microscopy showed typical phytoplasma-like pleomorphic bodies with spherical, oval and tubular shapes in sieve elements. Further examination by nested PCR revealed that a 1.2 kb DNA fragment for 16S rRNA gene was only amplified from symptomatic leaf of snake gourd using the phytoplasma universal primer pairs P1/P7 followed by R16F2n/R16R2. BLAST and iPhyClassifier (https://plantpathology.ba.ars.usda.gov/cgi-bin/resource/iphyclassifier.cgi) analyses on the amplified DNA fragment (accession no. MW309142) revealed that it shares 100% identity with that of GenBank accession NZ_AMWZ01000008 (complement [31109 to 32640]) of peanut witches' broom (PnWB) phytoplasma, a 'Candidatus phytoplasma aurantifolia'-related strain (Firrao et al. 2004), and could be classified into the 16SrII-V subgroup. Samples examined by nested PCR were further characterized by western blotting using the polyclonal antibody raised against the Imp of PnWB phytoplasma (Chien et al. 2020a, b). An expected signal of 19 kDa specific for Imp was only detected in the symptomatic snake gourd, but not in healthy snake gourd. Since the disease symptoms caused by phytoplasma infection are highly dependent on the secreted effectors (Namba 2019), phyllogen gene that is responsible for phyllody and virescence symptoms was amplified from symptomatic snake gourd by PCR. BLAST analysis revealed that phyllogen identified in snake gourd is identical with that of PnWB phytoplasma. In Taiwan, species of family Cucurbitaceae such as loofah, bitter gourd, and pumpkin are commonly infected by 16SrVIII phytoplasma (Davis 2017). In this study, we report for the first time that snake gourd, a species of family Cucurbitaceae, was infected by 16SrII-V PnWB phytoplasma in Taiwan.

Identification of 16SrII-V Phytoplasma Associated with Mungbean Phyllody Disease in Taiwan.

Mungbean (Vigna radiata (L.) R. Wilczek), an important legume crop in Asia, is primarily cultivated in the central-southern region of western Taiwan. In 2020, mungbean exhibiting typical phytoplasma-induced disease symptoms such as witches' broom, phyllody, virescence, and proliferation was observed in Yunlin County, Taiwan. Moreover, the seed harvested from diseased plants displayed premature germination. Transmission electron microscopy examination of leaf veins prepared from symptomatic mungbean demonstrated that the occlusion of sieve tubes resulted from the accumulation of phytoplasma-like bodies in sieve elements along with filament-like structures in sieve pores. The association of phytoplasma in symptomatic mungbean was confirmed by PCR analyses of the 16S ribosomal RNA (rRNA) and immunodominant membrane protein genes. Further analyses of the 16S rRNA-based phylogenetic tree and the iPhyClassifier-based virtual restriction fragment length polymorphism study demonstrated that the phytoplasma-associated mungbean phyllody disease identified in this study belongs to the 16SrII-V subgroup. BLAST analysis and the phylogenetic analysis indicated that the SAP11-like protein identified in mungbean phyllody disease is identical to peanut witches' broom phytoplasma SAP11, which explains the witches' broom phenotype observed in symptomatic mungbean. The results described in this report confirm that the 16SrII-V phytoplasma, a widely distributed phytoplasma associated with peanut witches' broom disease in Taiwan, has also infected mungbean. This is not only the first instance of mungbean phyllody disease found in Taiwan but also the first instance of mungbean phyllody disease caused by 16SrII-V subgroup phytoplasma.

Detection, Identification and Molecular Characterization of the 16SrII-V Subgroup Phytoplasma Strain Associated with Pisum sativum and Parthenium hysterophorus L.

Two unrelated plant species, green pea and parthenium weed, harboring typical phytoplasma symptoms, were discovered in Yunlin, Taiwan. Green pea (Pisum sativum.) and parthenium weed (Parthenium hysterophorus L.) are both herbaceous annual plants belonging to the Fabaceae and Asteraceae families, respectively. Displayed symptoms were witches' broom, phyllody and virescence, which are typical indications of phytoplasma infection. Pleomorphic phytoplasma-like bodies were observed under the transmission electron microscope in the sieve elements of symptomatic green pea and parthenium weed. The iPhyClassifier-based virtual RFLP study demonstrated that the phytoplasma associated with the diseased plants belongs to the 16SrII-V subgroup. The disease symptoms of both plants can be explained by the identification of PHYL1 and SAP11 effectors, identical to those of peanut witches' broom phytoplasma. The phytoplasma strains identified in this study present a very close phylogenetic relationship with other 16SrII-V subgroup phytoplasma strains discovered in Taiwan. These results not only convey the local status of the 16SrII-V subgroup phytoplasma strains but also encourage attention to be given to preventing the spread of this threat before it becomes pervasive.