Occurrence of Phytoplasma Belonging to 16SrII Group Associated with Witches'-broom Symptoms in Emilia sonchifolia in Hainan Island of China.

Emilia sonchifolia is a medical plant belonging to the family of Asteraceae, mainly used as a traditional Chinese medicine with the function of anti-inflammatory, analgesic, antibacterial and so on. During October to November 2020, the plants showing abnormal symptoms including witches'-broom, internode shortening, leaf chlorosis and leaflet were found in Hainan province, a tropical island of China. The total DNA of the plant samples were extracted using 0.10 g fresh plant leaves using CTAB method. PCR reactions were performed using primers R16mF2/R16mR1 and secAfor1/secArev3 specific for phytoplasma 16S rRNA and secA gene fragments. The target productions of the two gene fragments of phytoplasma were detected in the DNA from three symptomatic plant samples whereas not in the DNA from the symptomless plant samples. The two gene fragments of the DNA extracted from the symptomatic plant samples were all identical, with the length of 1324 bp 16S rRNA and 760 bp secA gene sequence fragments, putatively encoding 253 (secA) amino acids sequence. The phytoplasma strain was named as Emilia sonchifolia witches'-broom (EsWB) phytoplasma, EsWB-hnda strain. To our knowledge, this was the first report that Emilia sonchifolia witches'-broom disease was caused by the phytoplasma belonging to16SrII-V subgroup in Hainan island of China, with close relationship to 16SrII peanut witches'-broom group phytoplasma strains infecting the plants like peanut, Desmodium ovalifolium and cleome from the same island of China and cassava from Viet Nam.

Temporal metabolic and transcriptomic characteristics crossing islets and liver reveal dynamic pathophysiology in diet-induced diabetes.

To investigate the molecular mechanisms underlying islet dysfunction and insulin resistance in diet-induced diabetes, we conducted temporal RNA sequencing of tissues responsible for insulin secretion (islets) and action (liver) every 4 weeks in mice on high-fat (HFD) or chow diet for 24 weeks, linking to longitudinal profile of metabolic characteristics. The diverse responses of α, ß, and δ cells to glucose and palmitate indicated HFD-induced dynamic deterioration of islet function from dysregulation to failure. Insulin resistance developed with variable time course in different tissues. Weighted gene co-expression network analysis and Ingenuity Pathway Analysis implicated islets and liver jointly programmed ß-cell compensatory adaption via cell proliferation at early phase and irreversible islet dysfunction by inappropriate immune response at later stage, and identified interconnected molecules including growth differentiation factor 15. Frequencies of T cell subpopulation showed an early decrement in Tregs followed by increases in Th1 and Th17 cells during progression to diabetes.

Tephrosia purpurea Represents a New Host of 16SrII-V Subgroup Phytoplasma Associated with Witches'-Broom Disease in China.

Tephrosia purpurea is a medical plant with excellent insecticidal activity belonging to the family of Leguminosae distributed throughout southern of China (Pei et al., 2013). During January to February 2021, the plants showing abnormal symptoms including witches'-broom, internode shortening, leaf chlorosis and leaflet formation, as shown in Fig.1, were found in Ledong County of Hainan Province, a tropical island in China, with about 60 % incidence. The Tephrosia purpurea disease symptoms were suspected to be induced by phytoplasma, a phloem-limited prokaryotic pathogen which can not be cultured in vitro and which causes severe financial loss and ecological damage to the island. Total DNA from the symptomatic and asymptomatic samples of Tephrosia purpurea were extracted using 0.10 g fresh plant leaves and branches by CTAB method (Doyle and Doyle, 1990). 16S rRNA and secA gene sequence fragments of phytoplasma were detected through PCR amplification using primers R16mF2/R16mR1 (Gundersen and Lee, 1996) and secAfor1/secArev3 (Hodgetts et al., 2008). The two gene sequence fragments of phytoplasma were obtained from the DNA of six symptomatic plant samples whereas not from the DNA of six asymptomatic plant samples. These amplified products were sequenced and the data were deposited in GenBank. The two gene sequence fragments of the DNA obtained from the diseased plant samples were all identical, with a length of 1335 bp for the 16S rRNA (GenBank accession: MW616560) and 729 bp for the secA gene (MW603929). The secA gene fragment putatively encodes for 242 amino acids. The phytoplasma strain was named as Tephrosia purpurea witches'-broom (TpWB) phytoplasma, TpWB-hnld strain. 16S rRNA gene sequence fragment of TpWB-hnld was analyzed by online tool iPhyClassifier (Wei et al., 2007), indicating that the pathogen strain was a member of subgroup 16SrII-V and a 'Candidatus Phytoplasma aurantifolia'-related strain. Blast analysis based on the 16S rRNA gene sequence fragment of TpWB-hnld showed 100 % sequence identity with that of peanut witches'-broom group members (16SrII group), such as Cassava witches'-broom phytoplasma (KM280679) and Cleome sp. phytoplasma (KM280677); Blast analysis based on the secA gene sequence fragment of TpWB-hnld showed 100 % sequence identity with that of peanut witches'-broom group members (16SrII group), such as sesame phyllody phytoplasma (JN977044). Homology and phylogeny were analyzed using the software of DNAMAN 5.0 and MEGA 7.0, indicating that TpWB-hnld and other subgroup 16SrII-V phytoplasma strains, including Cassava witches'-broom phytoplasma, Cleome sp. phytoplasma, Crotalaria witches'-broom phytoplasma (EU650181) and Desmodium ovalifolium witches'-broom phytoplasma (GU113152), were clustered into one clade with 98 % bootstrap value based on the 16S rRNA gene sequence fragments; TpWB-hnld and sesame phyllody phytoplasma were clustered into one clade based on the secA gene sequence fragments. Multiple alignment based on the 16S rRNA gene sequence fragment showed that the TpWB-hnld phytoplasma strain showed 98 % sequence identity with TpWB phytoplasma strain (HG792252) belonging to 16SrII-M subgroup reported in India (Yadav et al., 2014). To our knowledge, this was the first time that 16SrII-V subgroup phytoplasma associated with Tephrosia purpurea witches'-broom disease was identified in China. Molecular analysis based on the 16S rRNA and secA gene sequence fragments indicated that TpWB-hnld phytoplasma was a member of subgroup 16SrII-V and a 'Candidatus Phytoplasma aurantifolia'-related strain.

Waltheria indica is a New Host of Phytoplasma Belongs to 16SrI-B Subgroup Associated with Virescence Symptoms in China.

Waltheria indica L. is a kind of medicinal plants belonging to the family of Sterculiaceae distributed in China, which extracts with many active compounds used for treatment of rheumatism and sore pains (Hua et al., 2019). During September to November 2020, the plants showing abnormal symptoms including floral virescence, leaf chlorosis and leaflet, as shown in Fig.1, were found in Dingan county of Hainan province, China, with about 70% incidence. The disease symptoms which were suspected to be infected by the phytoplasma, a phloem-limited cell-wall-less prokaryotic pathogen could not be cultured in vitro, severely impacted Waltheria indica growth resulting in financial loss and ecological damage in the location. For identification of the causal pathogen, the total DNA of symptom or symptomless Waltheria indica samples were extracted using 0.10 g fresh plant tissues using CTAB method. PCR reactions were performed using primers R16mF2/R16mR1 (Lee et al., 1993) and AYgroelF/AYgroelR (Mitrovic et al., 2011) specific for phytoplasma 16S rRNA and groEL gene fragments. The target productions of the two gene fragments of phytoplasma were detected in the DNA from four symptomatic plant samples whereas not in the DNA from the symptomless plant samples. The PCR productions were sequenced and the data were deposited in GenBank. The two gene fragments of the DNA extracted from the symptom plant samples were all identical, with the length of 1340 bp 16S rRNA (GenBank accession: MW353909) and 1312 bp groEL (MW353709) gene sequence fragments, putatively encoding 437 (groEL) amino acids sequence. The phytoplasma strain was named as Waltheria indica virescence (WiV) phytoplasma, WiV-hnda strain. A Blast search based on the 16S rRNA gene fragment of WiV-hnda phytoplasma strain revealed the highest level of sequence identities (99.85%) with that of 16SrI aster yellows group members (16SrI-B subgroup), such as Onion yellows phytoplasma strain OY-M (AP006628) from Japan (Oshima et al., 2004); Periwinkle virescence phytoplasma strain PeV-hnhk (KP662136), Chinaberry witches'-broom phytoplasma strain CWB-hnsy1 (KP662119) and CWB-hnsy2 (KP662120), all the strains from Hainan island of China (Yu et al., 2017). A Blast search based on the groEL gene sequence fragment of WiV-hnda indicated 99.92% sequence identity with that of 16SrI aster yellows group members (16SrI-B subgroup) such as Onion yellows phytoplasma strain OY-M (AP006628). Homology and phylogenetic analysis by DNAMAN 5.0 and MEGA 7.0 software indicated that the phytoplasma strains of WiV-hnda, OY-M, PeV-hnhk, CWB-hnsy1 and CWB-hnsy2 were clustered into one clade based on the 16S rRNA gene fragments. WiV-hnda, OY-M and Aster yellow witches'-broom (AYWB) (CP000061) phytoplasma strains were clustered into one clade based on the groEL gene fragments. To our knowledge, this was the first time that Waltheria indica virescence disease induced by 16SrI-B subgroup phytoplasma strain was reported in China. Genetic analysis showed that WiV-hnda was closely related to the phytoplasma strains causing Onion yellows in Japan, Periwinkle virescence and Chinaberry witches'-broom disease in China.

First report of phytoplasma belongs to 16SrXXXII group associated with witches'-broom symptoms in Trema tomentosa in China.

Trema tomentosa (Roxb.) Hara belonging to Ulmaceae displayed abnormal symptoms including witches'-broom, internode shortening, leaf chlorosis and leaflet that affected seriously their growth causing financial loss and ecological damage in China. During August through September 2020, these plants with the symptoms were first found and collected in Dingan and Qinghai counties of Hainan province, China. PCR were performed using the primers R16mF2/R16mR1 and secAfor1/secArev3 specific for phytoplasma 16S rRNA and secA gene fragments. The two gene fragments of the DNA extracted from the four disease samples were identical, with length of 1303 bp 16S rRNA and 587 bp secA gene fragments. The phytoplasma strain was named as Trema tomentosa witches'-broom (TtWB) phytoplasma, TtWB-hn strain. Phylogenetic and computer-simulated RFLP analyses based on the nearly full-length 16S rRNA gene sequence indicated that the TtWB phytoplasma strain is more closely related to the 16SrXXXII-A subgroup than to the other subgroups within 16SrXXXII group. It may represent a new subgroup, designed as 16SrXXXII-D subgroup, which is distinct from the other phytoplasma subgroups within the 16SrXXXII group. To our knowledge, this is the first report showing the occurrence of the phytoplasma strain belongs to 16SrXXXII-D subgroup associated with witches'-broom disease in Trema tomentosa in China. Genetic analysis indicated that the TtWB strain was closely related to the phytoplasma strains infecting periwinkle, oil palm, coconut palm in Malyasian, Camptotheca acuminate in Yunnan province of China and Elaeocarpus zollingeri in Japan.

First report of 16SrI-B subgroup related phytoplasma associated with witches'-broom symptoms in Pericampylus glaucus in China.

Pericampylus glaucus is an important medicinal plant resource containing active components with potential antitumor activity in China (Zhao & Cui, 2009). During July through August 2020, plants displayed disease symptoms including "witches' broom", leaf chlorosis, leaflet and internode shortening that impacted their growth (Fig. 1). These plants were first found in Dingan county of Hainan province, China. Total DNA from 12 plants were extracted using 0.10 g fresh plant leaves based on CTAB method. After amplification using primers specific for phytoplasma 16S rRNA, tuf and secA gene targets, R16mF2R16mR1 (Lee et al, 1993), fTuf1/rTuf1 (Schneider et al., 1997) and secAfor1/secArev3 (Hodgetts et al., 2008), the target bands of the three gene fragments of phytoplasma were detected in the disease sample DNA from six disease plants, and not in the healthy sample DNA from six healthy plants. Nucleotide sequences of the three genes were obtained from the PCR products sequencing and analyzed by DNAMAN 5.0 software. The three gene fragments of the DNA extracted from the disease samples were identical, with length of 1334 bp 16S rRNA (GenBank accession: MT872515), 989 bp tuf (MT755960) and 750 bp secA (MT755961) gene fragments, putatively encoding 329 (tuf) and 249 (secA) amino acids sequence separately. The phytoplasma strain was named as Pericampylus glaucus witches'-broom (PgWB) phytoplasma, PgWB-hnda strain, belonging to 16SrI-B subgroup by iPhyClassifier analysis. Homology and phylogenetic analysis indicated that based on 16S rRNA gene fragments, PgWB-hnda, pepper yellow crinkle phytoplasma PYC-hnhk (MT760793), chinaberry witches'-broom phytoplasma CWB-hnsy1 (KP662119) and CWB-hn (EF990733), periwinkle virescence phytoplasma PeV-hnhk (KP662136), with 100.0 % identity value, arecanut yellow leaf phytoplasma AYL-hnwn (FJ998269) and AYL-hn (FJ694685), with 99.8 % identity value, were clustered into one clade. Based on the analysis of tuf gene sequence fragments, PgWB was closely related to PYC-hnhk (MT755960), CWB-hnsy1 (KP662155), PeV-hnhk (KP662172) with 99.9 % identity value. Based on the analysis of secA gene sequence fragments, PgWB was closely related to CWB-hnsy1 (KP662173) with 99.7 % identity value, PYC-hnhk (MT755961), PeV-hnhk (KP662190) with 99.4 % identity value. To our knowledge, this is the first time that Pericampylus glaucus witches'-broom disease caused by 16SrI-B subgroup phytoplasma strain was found in China. Multilocus sequence analysis showed that PgWB was closely related to the phytoplasma strains causing pepper yellow crinkle, chinaberry witches'-broom, periwinkle virescence and areca palm yellow leaf diseases, all occurred in Hainan Island of China.