Molecular Detection and Identification of a 16SrVI Group Phytoplasma Associated with Tomato Big Bud Disease in Xinjiang,China

In 2010, tomato plants with big bud symptoms were observed in Xinjiang, China. PCR products of approximately 1.2 and 2.8 kb were amplified from infected tomato tissues but not from asymptomatic plants. A comparison of 16S rDNA sequences showed that the casual tomato big bud (TBB) phytoplasma was closely (99%) related to the ‘Candidatus Phytoplasma trifolii’ (16SrVI group). The TBB phytoplasma clustered into one branch with the Loofah witches'‐broom phytoplasma according to the 23S rDNA analysis but with no other member of the 16SrVI group. The cause of TBB symptoms was identified as ‘Ca. Phytoplasma trifolii' (16SrVI group) by PCR, virtual RFLP and sequencing analyses. This is the first report of a phytoplasma related to ‘Ca. Phytoplasma trifolii' causing TBB disease in China.     

Molecular Characterization of a Phytoplasma Associated with Potato Witches’‐broom Disease in Iran

Potato plants showing symptoms suggestive of potato witches’‐broom disease including witches’‐broom, little leaf, stunting, yellowing and swollen shoots formation in tubers were observed in the central Iran. For phytoplasma detection, Polymerase Chain Reaction (PCR) and nested PCR assays were performed using phytoplasma universal primer pair P1/P7, followed by primer pair R16F2n/R16R2. Random fragment length polymorphism analysis of potato phytoplasma isolates collected from different production areas using the CfoI restriction enzyme indicated that potato witches’‐broom phytoplasma isolate (PoWB) is genetically different from phytoplasmas associated with potato purple top disease in Iran. Sequence analysis of the partial 16S rRNA gene amplified by nested PCR indicated that ‘Candidatus Phytoplasma trifolii’ is associated with potato witches’‐broom disease in Iran. This is the first report of potato witches’‐broom disease in Iran.     

新疆小叶白蜡丛枝病植原体的鉴定及16S rRNA基因序列分析

【目的】对新疆小叶白蜡丛枝病植原体进行检测,通过其16S rRNA基因分析确定其分类地位。【方法】利用苯胺蓝和4′,6-二脒基-2-苯基吲哚(DAPI)染色,在荧光显微镜下观察新疆小叶白蜡嫩茎横切片;采用植原体16S rRNA基因的通用引物对P1/P7和R16F2n/R16R2进行直接和巢式PCR扩增,对得到的16S rRNA基因的序列进行RFLP和构建系统进化树分析。【结果】表现丛枝病症状的新疆小叶白蜡中存在植原体,暂命名为Fraxinus sogdianaBunge witches’broom phytoplasma(Fraxinus sogdianaBunge WB);其16S rRNA基因的序列GenBank登录号为KF061042,RFLP图谱与16Sr V-B亚组的枣疯病植原体相同,系统进化地位与枣疯病菌株AB052876相同。【结论】新疆小叶白蜡丛枝病植原体为16Sr V-B亚组成员。     

Characterisation and phylogeny of a phytoplasma inducing sandal spike disease in sandal (Santalum album)

Sandal (Santalum album) is an industrially important forest species in India, where it is devastated by sandal spike (SAS) disease. Diseased S. album trees show characteristic witches’ broom symptoms suspected to be caused by phytoplasma. Since the first report of occurrence of this disease at the end of 19th century, studies mainly have been carried out to detect SAS phytoplasma through various approaches. The causative agent, however, has remained poorly characterised at a molecular level. The present investigation was aimed to characterise the pathogen at this level. In nested PCR, a 1.4‐kb 16S rDNA fragment was amplified and analysed by restriction fragment length polymorphism using 17 restriction enzymes. The patterns were identical to those of strains AY1 and APh of the aster yellows subgroup 16SrI‐B, except for BfaI, which gave a different pattern. After cloning and sequencing, a phylogenetic analysis revealed the closest relationship to aster yellows subgroup 16SrI‐B members. Nucleotide sequence identity ranged from 99.2% to 99.5% with this subgroup. On the basis of these results, the SAS phytoplasma was classified as a member of subgroup 16SrI‐B.     

Detection of lethal yellowing phytoplasma in coconut plantlets obtained through in vitro germination of zygotic embryos from the seeds of infected palms

Lethal yellowing (LY) is a disease caused by 16SrIV phytoplasmas that has devastated coconut plantations in the Americas. An alternative means of phytoplasma spread is through seeds. Therefore, we used a novel approach based on plumules from the embryos of LY‐diseased coconut palms. We cultured the plumules in vitro to determine the presence of phytoplasma DNA in the plantlets. In the first assay, 185 embryos were obtained. The results showed positive detection in 20 samples (11%) with the nested PCR and in 59 samples (32%) with the TaqMan real‐time PCR. A second assay was designed to trace plumules to their respective embryos and haustorial tissues to determine whether they had derived from an embryo with positive LY detection; a total of 124 embryos were obtained. The results showed no positive detection with the nested PCR and positive detection in 42 of the haustorial tissue samples (32%) with the TaqMan real‐time PCR. The 124 plumules isolated from the embryos were cultivated under in vitro conditions and divided into two groups. Group A was followed for shoot formation and Group B was followed to the plantlet stage. After 3 months of cultivation, 33 cultures (50%) within Group A became necrotic; the rest were analysed to evaluate LY phytoplasma DNA with the TaqMan real‐time PCR assay and 14 (42%) tested positive. After 18 months of cultivation, 20 cultures (34%) within Group B became necrotic. The rest were analysed for the detection of the LY phytoplasma DNA, and 15 and 11 (39% and 29%) of the samples tested positive with the TaqMan real‐time PCR and nested PCR assays, respectively. Blast analysis of the sequenced products revealed that the sequences showed 99% homology with LY‐phytoplasma subgroup 16SrIV‐A. The results presented here demonstrate, for the first time, the occurrence of the transmission of LY phytoplasmas from coconut embryos to plantlets.     

甘薯丛枝病植原体的PCR检测

以报道的植原体（Phytoplasma)16SrDNA基因保守序列为依据,设计合成了两对引物对R16mF2/R16mR2和R16F2／R16R2,以甘薯丛枝病（SPWB）带病植株的叶脉中提取的DNA为模板,应用聚合酶链式反应（PCR）技术和巢式PCR（Nested-PCR)技术对甘薯丛枝病病原进行分子检测。结果表明PCR扩增出了1．5kb的特异片段,在PCB基础上的巢式PCR扩增出了1．2kb的特异片段,灵敏度实验显示该方法所需PCR模板DNA量为0．1073ng/ul在PCR的基础上的巢度PCR可以将灵敏度提高约10000倍,所需模板DNA仅为0．01073pg/ul,在甘薯丛枝病的检测中是一种快速,灵敏,可靠的方法。     

香蕉束顶病植原体16S rDNA片段的RFLP和序列分析

香蕉束顶病（ＢＢＴ）是一种发生在蕉类作物的严重病害。从带有典型香蕉束顶病症状的香蕉植株中按照检测植原体的方法提取ＤＮＡ,扩增患病植株中植原体１６ＳｒＤＮＡ片段,证明香蕉束顶病中有植原体存在。对此扩增片段进行限制性酶切片段长度多态性（ＲＦＬＰ）分析和核酸序列分析,并与已知植原体的序列进行同源性比较,构建进化树。结果显示该片段与Ｇｒ１的亲缘关系最近。     

植原体的最新分类研究动态

简要介绍了植原体分类研究历史与现状,综述了最新的植原体分类方法和植原体候选种的描述规则,指出了我国在植原体分类鉴定方面与当今世界先进水平的差距及今后发展方向.     

<Emphasis Type="Italic">Catharanthus roseus</Emphasis> L. plants and explants infected with phytoplasmas: alkaloid production and structural observations

Summary. The results of several experiments concerning the presence and composition of alkaloids in different tissues (stems, leaves, roots) of Catharanthus roseus L. plants and explants, healthy and infected by clover phyllody phytoplasmas, are reported. The alkaloids extracted and determined by the reverse phase high-pressure liquid chromatography were vindoline, ajmalicine, serpentine, vinblastine, and vincristine. The total alkaloid concentration was higher in infected plants than in the controls, in particular the increase of vinblastine in infected roots was very significant. The ultrastructural observations of infected roots showed alterations of the cell walls and of the nuclei. These results demonstrate that phytoplasmas, detected in all infected tissues by light fluorescence and transmission electron microscopy, play an important role on secondary metabolism of the diseased plants, modifying both the total content of alkaloids and their ratio.Correspondence and reprints: Dipartimento di Biologia Evolutiva e Funzionale, Universitá degli Studi di Parma, Parco Area delle Scienze 11A, 43100 Parma, Italy.     

Differentiation of phytoplasmas associated with sugarcane and gramineous weed white leaf disease and sugarcane grassy shoot disease by RFLP and sequencing

 Restriction fragment length polymorphism (RFLP) and sequencing were used to elucidate the genetic relationship between phytoplasmas that cause white lead disease and grassy shoot disease in sugarcane and white leaf disease in gramineous weeds found in the cane-growing areas (Crowfoot grass, Bermuda grass and Brachiaria grass). A 1.35-kb DNA fragment encoding for the 16s rRNA was amplified by PCR using universal primers and analysed by digestion with nine restriction endonucleases. A DNA fragment containing the 3′ end of the 16s rRNA and the spacer region between the 16s rRNA and the tRNA(Ile) was amplified by PCR and sequenced. Analysis of the RFLP patterns and of the sequence showed that grassy shoot and white leaf diseases in sugarcane are caused by two different phytoplasmas. Sequence analysis of phytoplasma DNA obtained from three species of weeds showing symptoms of white leaf disease failed to detect any organism that is identical to those infecting the sugarcane. Moreover the phytoplasma species that infect the three types of gramineous weeds, although closely related, are nevertheless different Received: 15 April 1997 / Accepted: 18 April 1997