{"title":"转录组解剖和代谢组对巴黎多叶树素生物合成的见解。","authors":"Ping Xu, Qi Mi, Xiaoye Zhang, Xuan Zhang, Mengwen Yu, Yingsi Gao, Xiheng Wan, Yichun Chen, Qiaoyuan Li, Jia Chen, Guowei Zheng","doi":"10.1186/s12870-025-06219-0","DOIUrl":null,"url":null,"abstract":"<p><strong>Background: </strong>Polyphyllins are significant medicinal compounds found in Paris species, with different polyphyllins fulfilling distinct medicinal roles. Although some genes involved in polyphyllin synthesis have been identified, further exploration of the genes in the polyphyllin synthesis pathway is necessary due to the extensive genome of Paris species. The content and composition of polyphyllins vary among different Paris species, and the variations in specific polyphyllin levels across these plants make them promising candidates for identifying metabolites and genes associated with the biosynthesis of specific polyphyllins.</p><p><strong>Results: </strong>In this study, we investigate the global metabolic and transcriptomic profiles of three types of Paris polyphylla var. yunnanensis (Franch.) Hand.-Mazz, one Paris fargesii Franch, and one Paris forrestii (Takht.) H. Li. The rhizome of P. polyphylla is rich in polyphyllin I and II, while P. forrestii is abundant in polyphyllin III, and P. fargesii contains high levels of polyphyllin VI, VII and H. The three Paris species exhibit distinct metabolomic and transcriptomic profiles. Through an integrated analysis of metabolic and transcriptomic data, along with a phylogenetic analysis of genes related to polyphyllin synthesis in Paris, we annotated a total of six 2,3-oxidosqualene cyclases (OSCs), 120 cytochrome P450s (CYPs), and 138 UDP glycosyltransferases (UGTs). Phylogenetic tree analysis of the obtained data assisted in refining the candidate gene pool for OSC, CYP, and UGT. Subsequently, we identified 6, 12, and 26 candidate genes for OSC, CYP, and UGT, respectively. Finally, by combining the analyses of metabolic and genetic differences, we identified a total of 17 candidate genes, including 2 CAS, 4 CYP, and 11 UGT.</p><p><strong>Conclusions: </strong>P. fargesii and P. forrestii are candidate medicinal plants for the development and application of specific polyphyllins. Transcripts from the UGT91 subfamily in Paris may play dual roles, contributing to both the synthesis of polyphyllin II and the catabolism of polyphyllin V and VI. The homologous genes of PpUGT73CE1 may regulate the synthesis of polyphyllin VI in P. fargesii. This study provides new insights into the investigation of biosynthetic pathways in medicinal plants that lack gene clusters.</p>","PeriodicalId":9198,"journal":{"name":"BMC Plant Biology","volume":"25 1","pages":"206"},"PeriodicalIF":4.8000,"publicationDate":"2025-02-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11829371/pdf/","citationCount":"0","resultStr":"{\"title\":\"Dissection of transcriptome and metabolome insights into the polyphyllin biosynthesis in Paris.\",\"authors\":\"Ping Xu, Qi Mi, Xiaoye Zhang, Xuan Zhang, Mengwen Yu, Yingsi Gao, Xiheng Wan, Yichun Chen, Qiaoyuan Li, Jia Chen, Guowei Zheng\",\"doi\":\"10.1186/s12870-025-06219-0\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Background: </strong>Polyphyllins are significant medicinal compounds found in Paris species, with different polyphyllins fulfilling distinct medicinal roles. Although some genes involved in polyphyllin synthesis have been identified, further exploration of the genes in the polyphyllin synthesis pathway is necessary due to the extensive genome of Paris species. The content and composition of polyphyllins vary among different Paris species, and the variations in specific polyphyllin levels across these plants make them promising candidates for identifying metabolites and genes associated with the biosynthesis of specific polyphyllins.</p><p><strong>Results: </strong>In this study, we investigate the global metabolic and transcriptomic profiles of three types of Paris polyphylla var. yunnanensis (Franch.) Hand.-Mazz, one Paris fargesii Franch, and one Paris forrestii (Takht.) H. Li. The rhizome of P. polyphylla is rich in polyphyllin I and II, while P. forrestii is abundant in polyphyllin III, and P. fargesii contains high levels of polyphyllin VI, VII and H. The three Paris species exhibit distinct metabolomic and transcriptomic profiles. Through an integrated analysis of metabolic and transcriptomic data, along with a phylogenetic analysis of genes related to polyphyllin synthesis in Paris, we annotated a total of six 2,3-oxidosqualene cyclases (OSCs), 120 cytochrome P450s (CYPs), and 138 UDP glycosyltransferases (UGTs). Phylogenetic tree analysis of the obtained data assisted in refining the candidate gene pool for OSC, CYP, and UGT. Subsequently, we identified 6, 12, and 26 candidate genes for OSC, CYP, and UGT, respectively. Finally, by combining the analyses of metabolic and genetic differences, we identified a total of 17 candidate genes, including 2 CAS, 4 CYP, and 11 UGT.</p><p><strong>Conclusions: </strong>P. fargesii and P. forrestii are candidate medicinal plants for the development and application of specific polyphyllins. Transcripts from the UGT91 subfamily in Paris may play dual roles, contributing to both the synthesis of polyphyllin II and the catabolism of polyphyllin V and VI. The homologous genes of PpUGT73CE1 may regulate the synthesis of polyphyllin VI in P. fargesii. 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引用次数: 0
摘要
背景:多叶磷脂是在巴黎种中发现的重要药用化合物,不同的多叶磷脂具有不同的药用作用。虽然已经发现了一些参与聚叶树素合成的基因,但由于巴黎种基因组广泛,因此有必要进一步探索聚叶树素合成途径的基因。在不同的巴黎植物中,多叶磷脂的含量和组成各不相同,而这些植物中特异性多叶磷脂水平的变化使它们成为鉴定特异性多叶磷脂生物合成相关代谢物和基因的有希望的候选者。结果:在本研究中,我们研究了三种云南多叶巴黎(Paris polyphylla var. yunnanensis)的全球代谢和转录组学特征。的手。-Mazz,一个法国巴黎的fargesii,一个法国巴黎的forerestii。h·李。多叶松根茎富含多叶磷脂I和II,林松富含多叶磷脂III,大叶松含有高水平的多叶磷脂VI、VII和h。三种巴黎种表现出不同的代谢组学和转录组学特征。通过对代谢和转录组学数据的综合分析,以及对巴黎多叶林合成相关基因的系统发育分析,我们共注释了6个2,3-氧化角鲨烯环化酶(OSCs), 120个细胞色素p450 (CYPs)和138个UDP糖基转移酶(UGTs)。对获得的数据进行系统发育树分析有助于完善OSC、CYP和UGT的候选基因库。随后,我们分别鉴定了OSC、CYP和UGT的6个、12个和26个候选基因。最后,通过结合代谢和遗传差异分析,我们共鉴定出17个候选基因,包括2个CAS, 4个CYP和11个UGT。结论:大叶松和林松是开发和应用特异性多叶林的候选药用植物。巴黎UGT91亚家族的转录本可能具有双重作用,既参与了多叶磷脂II的合成,也参与了多叶磷脂V和VI的分解代谢。pppugt73ce1的同源基因可能调控了多叶磷脂VI的合成。该研究为药用植物缺乏基因簇的生物合成途径的研究提供了新的思路。
Dissection of transcriptome and metabolome insights into the polyphyllin biosynthesis in Paris.
Background: Polyphyllins are significant medicinal compounds found in Paris species, with different polyphyllins fulfilling distinct medicinal roles. Although some genes involved in polyphyllin synthesis have been identified, further exploration of the genes in the polyphyllin synthesis pathway is necessary due to the extensive genome of Paris species. The content and composition of polyphyllins vary among different Paris species, and the variations in specific polyphyllin levels across these plants make them promising candidates for identifying metabolites and genes associated with the biosynthesis of specific polyphyllins.
Results: In this study, we investigate the global metabolic and transcriptomic profiles of three types of Paris polyphylla var. yunnanensis (Franch.) Hand.-Mazz, one Paris fargesii Franch, and one Paris forrestii (Takht.) H. Li. The rhizome of P. polyphylla is rich in polyphyllin I and II, while P. forrestii is abundant in polyphyllin III, and P. fargesii contains high levels of polyphyllin VI, VII and H. The three Paris species exhibit distinct metabolomic and transcriptomic profiles. Through an integrated analysis of metabolic and transcriptomic data, along with a phylogenetic analysis of genes related to polyphyllin synthesis in Paris, we annotated a total of six 2,3-oxidosqualene cyclases (OSCs), 120 cytochrome P450s (CYPs), and 138 UDP glycosyltransferases (UGTs). Phylogenetic tree analysis of the obtained data assisted in refining the candidate gene pool for OSC, CYP, and UGT. Subsequently, we identified 6, 12, and 26 candidate genes for OSC, CYP, and UGT, respectively. Finally, by combining the analyses of metabolic and genetic differences, we identified a total of 17 candidate genes, including 2 CAS, 4 CYP, and 11 UGT.
Conclusions: P. fargesii and P. forrestii are candidate medicinal plants for the development and application of specific polyphyllins. Transcripts from the UGT91 subfamily in Paris may play dual roles, contributing to both the synthesis of polyphyllin II and the catabolism of polyphyllin V and VI. The homologous genes of PpUGT73CE1 may regulate the synthesis of polyphyllin VI in P. fargesii. This study provides new insights into the investigation of biosynthetic pathways in medicinal plants that lack gene clusters.
期刊介绍:
BMC Plant Biology is an open access, peer-reviewed journal that considers articles on all aspects of plant biology, including molecular, cellular, tissue, organ and whole organism research.
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