{"title":"利用元转录组和小 RNA 测序首次在栀子中发现的豆类常见花叶病毒分离株的分子特征。","authors":"Zhong-Tian Xu, Hai-Tao Weng, Jian-Ping Chen, Chuan-Xi Zhang, Jun-Min Li, Yi-Yuan Li","doi":"10.5423/PPJ.OA.11.2023.0163","DOIUrl":null,"url":null,"abstract":"<p><p>Gardenia (Gardenia jasminoides) is a popular and economically vital plant known for its ornamental and medicinal properties. Despite its widespread cultivation, there has been no documentation of plant viruses on gardenia yet. In the present study, gardenia leaves exhibiting symptoms of plant viral diseases were sampled and sequenced by both metatranscriptome and small RNA sequencing. As a consequence, bean common mosaic virus (BCMV) was identified in gardenia for the first time and named BCMV-gardenia. The full genome sequence of BCMV-gardenia is 10,054 nucleotides (nt) in length (excluding the poly (A) at the 3' termini), encoding a large polyprotein of 3,222 amino acids. Sequence analysis showed that the N-termini of the polyprotein encoded by BCMV-gardenia is less conserved when compared to other BCMV isolates, whereas the C-termini is the most conserved. Maximum likelihood phylogenetic analysis showed that BCMV-gardenia was clustered closely with other BCMV isolates identified outside the leguminous plants. Our results indicated that the majority of BCMV-gardenia virus-derived small interfering RNAs (vsiRNAs) were 21 nt and 22 nt, with 21 nt being more abundant. The first nucleotide at the 5' termini of vsiRNAs derived from BCMV-gardenia preferred U and A. The ratio of vsiRNAs derived from sense (51.1%) and antisense (48.9%) strands is approaching, and the distribution of vsiRNAs along the viral genome is generally even, with some hot spots forming in local regions. Our findings could provide new insights into the diversity, evolution, and host expansion of BCMV and contribute to the prevention and treatment of this virus.</p>","PeriodicalId":20173,"journal":{"name":"Plant Pathology Journal","volume":null,"pages":null},"PeriodicalIF":1.8000,"publicationDate":"2024-02-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10850531/pdf/","citationCount":"0","resultStr":"{\"title\":\"Molecular Characterization of an Isolate of Bean Common Mosaic Virus First Identified in Gardenia Using Metatranscriptome and Small RNA Sequencing.\",\"authors\":\"Zhong-Tian Xu, Hai-Tao Weng, Jian-Ping Chen, Chuan-Xi Zhang, Jun-Min Li, Yi-Yuan Li\",\"doi\":\"10.5423/PPJ.OA.11.2023.0163\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Gardenia (Gardenia jasminoides) is a popular and economically vital plant known for its ornamental and medicinal properties. Despite its widespread cultivation, there has been no documentation of plant viruses on gardenia yet. In the present study, gardenia leaves exhibiting symptoms of plant viral diseases were sampled and sequenced by both metatranscriptome and small RNA sequencing. As a consequence, bean common mosaic virus (BCMV) was identified in gardenia for the first time and named BCMV-gardenia. The full genome sequence of BCMV-gardenia is 10,054 nucleotides (nt) in length (excluding the poly (A) at the 3' termini), encoding a large polyprotein of 3,222 amino acids. Sequence analysis showed that the N-termini of the polyprotein encoded by BCMV-gardenia is less conserved when compared to other BCMV isolates, whereas the C-termini is the most conserved. Maximum likelihood phylogenetic analysis showed that BCMV-gardenia was clustered closely with other BCMV isolates identified outside the leguminous plants. Our results indicated that the majority of BCMV-gardenia virus-derived small interfering RNAs (vsiRNAs) were 21 nt and 22 nt, with 21 nt being more abundant. The first nucleotide at the 5' termini of vsiRNAs derived from BCMV-gardenia preferred U and A. The ratio of vsiRNAs derived from sense (51.1%) and antisense (48.9%) strands is approaching, and the distribution of vsiRNAs along the viral genome is generally even, with some hot spots forming in local regions. 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引用次数: 0
摘要
栀子(Gardenia jasminoides)是一种广受欢迎的重要经济植物,因其观赏和药用价值而闻名。尽管栀子被广泛种植,但目前还没有关于栀子上植物病毒的文献记载。本研究对出现植物病毒病症状的栀子叶片进行了取样,并通过元转录组和小 RNA 测序进行了测序。结果首次在栀子中发现了豆类常见花叶病毒(BCMV),并将其命名为 BCMV-栀子。BCMV-栀子的全基因组序列长度为10 054个核苷酸(不包括3'末端的聚(A)),编码3 222个氨基酸的大型多聚蛋白。序列分析表明,与其他 BCMV 分离物相比,BCMV-栀子编码的多聚蛋白的 N 端保守性较低,而 C 端保守性最高。最大似然系统进化分析表明,BCMV-gardenia 与豆科植物以外的其他 BCMV 分离物密切相关。我们的研究结果表明,BCMV-栀子病毒衍生的小干扰 RNA(vsiRNA)大多为 21 nt 和 22 nt,其中 21 nt 的含量更高。来自BCMV-栀子病毒的vsiRNA的5'末端的第一个核苷酸首选U和A,来自有义链(51.1%)和反义链(48.9%)的vsiRNA的比例接近,vsiRNA沿病毒基因组的分布总体上比较均匀,但在局部区域形成了一些热点。我们的研究结果可为BCMV的多样性、进化和宿主扩展提供新的见解,并有助于该病毒的预防和治疗。
Molecular Characterization of an Isolate of Bean Common Mosaic Virus First Identified in Gardenia Using Metatranscriptome and Small RNA Sequencing.
Gardenia (Gardenia jasminoides) is a popular and economically vital plant known for its ornamental and medicinal properties. Despite its widespread cultivation, there has been no documentation of plant viruses on gardenia yet. In the present study, gardenia leaves exhibiting symptoms of plant viral diseases were sampled and sequenced by both metatranscriptome and small RNA sequencing. As a consequence, bean common mosaic virus (BCMV) was identified in gardenia for the first time and named BCMV-gardenia. The full genome sequence of BCMV-gardenia is 10,054 nucleotides (nt) in length (excluding the poly (A) at the 3' termini), encoding a large polyprotein of 3,222 amino acids. Sequence analysis showed that the N-termini of the polyprotein encoded by BCMV-gardenia is less conserved when compared to other BCMV isolates, whereas the C-termini is the most conserved. Maximum likelihood phylogenetic analysis showed that BCMV-gardenia was clustered closely with other BCMV isolates identified outside the leguminous plants. Our results indicated that the majority of BCMV-gardenia virus-derived small interfering RNAs (vsiRNAs) were 21 nt and 22 nt, with 21 nt being more abundant. The first nucleotide at the 5' termini of vsiRNAs derived from BCMV-gardenia preferred U and A. The ratio of vsiRNAs derived from sense (51.1%) and antisense (48.9%) strands is approaching, and the distribution of vsiRNAs along the viral genome is generally even, with some hot spots forming in local regions. Our findings could provide new insights into the diversity, evolution, and host expansion of BCMV and contribute to the prevention and treatment of this virus.