Macadamia nut (Macadamia ternifolia) was first introduced into China from Australia in 1910, and the main cultivation areas were Yunnan and Guangxi. It can be used as both a fruit and a therapeutic drug, with high economic value. In March 2021, it was observed that the M. ternifolia was showing witches'-broom, leaf yellowing and plexus bud in Dehong Prefecture, Yunnan Province, China. The terminal buds of infected plants were inhibited and the lateral buds are stimulated to germinate into twigs in advance. It was named the M. ternifolia witches'-broom disease, and was found in urban and rural areas of Mangshi, Lianghe, Yingjiang, Mangdong, Longchuan and Longling cities and counties. More than 40% of the plants were infected on the seven areas surveyed. The lateral stems from symptomatic and asymptomatic plants were cut to small pieces. The tissues were treated by fixation, dehydration and spraying-gold. And the tissues were observed under a scanning electron microscope (Hitachi S-3000N) (Pathan et al. 2010). The nearly spherical bodies were found in the phloem sieve cells of symptomatic plants. Symptomatic and asymptomatic plants were collected from seven areas, ddH2O was used as the negative control, and Dodonaea viscose witches'-broom disease plants were used as the positive control. The total plants' DNA extraction was conducted from 0.1 g tissue using the CTAB method (Porebski et al. 1997), and were stored at -20 °C in a refrigerator in the Key Laboratory of Forest Disaster Warning and Control at the Southwest Forestry University. The nested PCR was employed to amplify the 16S rRNA gene with the primers P1/P7 and R16F2/R16R2 (Lee et al. 1993; Schneider et al. 1993). PCR amplicon of 1.8 kb and 1.2 kb were amplified (GenBank accessions MW892818, MW892819, MW892820, MW892821). The direct PCR with primer pairs rp(I)F/ rp(I)R (Lee et al. 2003) specific to the ribosomal protein (rp) gene yielded amplicons of approximately 1.2 kb (GenBank accessions MZ442600, MZ442601, MZ442602, MZ442603). The fragment from 21 samples was consistent with the positive control, confirming the association of phytoplasma with the disease. Interestingly, the phytoplasma/span>16S rRNA gene and rp gene was also amplified from the 4 samples of asymptomatic plant, we speculated that the latent infection and hidden symptoms existed in Macadamia nut (Moslemkhani and Sadeghi 2011). A BLAST analysis of the 16S rRNA sequences of MTWB phytoplasma showed that it has a 99% similarity with Trema laevigata witches'-broom phytoplasma (GenBank accession MG755412). The rp sequence shared 99% identity with 'Salix tetradenia' witches'-broom phytoplasma (GenBank accession KC117314). An analysis with iPhyClassifier showed that the virtual RFLP pattern derived from the query 16S rDNA fragment of MTWB phytoplasma is most similar to the reference pattern of the 16Sr group I, subgroup B (OY-M, GenBank accession AP006628), with a pattern similarity coefficient of 0.99. The phytoplasma is identified as 'Ca. Phytoplasma asteris'-related strain belonging to sub-group 16SrI-B. The phylogenetic tree was constructed based on 16S rRNA gene and rp gene sequences by using MEGA version 6.0 (Tamura et al. 2013) with neighbor-joining (NJ) method and bootstrap support was estimated with 1000 replicates. The result indicated that the MTWB phytoplasma formed a subclade in 16SrI-B and rpI-B respectively. In 2013, Macadamia nut showed leaf hardness phyllody and shoot proliferation caused by 'Ca. Phytoplasma asteris' in Artemisa, Cuba. The concern is that, the macadamia phytoplasma is closely related to the subgroup 16SrI-F, and it is significantly different from the Chinese strains (Pérez-López et al. 2013). In addition, the MTWB phytoplasma was graft-transmitted from infected to healthy plants in nursery conditions (Akhtar et al. 2009; Ikten et al. 2014). And the grafted plants were positive for the phytoplasma in the nested PCR assays. It is noteworthy that the plants were seriously damaged by aphid and it was speculated that the insects of Homoptera caused the spread of the disease by sucking plant sap, thus the aphids that transmits MTWB in China must be determined to control the M. ternifolia witches'-broom disease. To the best of our knowledge, Macadamia nut is a new host plant of 'Ca. Phytoplasma asteris' in China. The newly emerged disease is a threat to Macadamia nut.
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