Biotechnology Department, CSIR-Institute of Himalayan Bioresource Technology (CSIR-IHBT), Palampur, Himachal Pradesh, 176061, India; Academy of Scientific and Innovative Research (AcSIR), CSIR-HRDC Campus, Ghaziabad, Uttar Pradesh, 201 002, India.
Biotechnology Department, CSIR-Institute of Himalayan Bioresource Technology (CSIR-IHBT), Palampur, Himachal Pradesh, 176061, India.
Phytochemistry. 2021 Jul;187:112772. doi: 10.1016/j.phytochem.2021.112772. Epub 2021 Apr 16.
Fritillaria roylei Hook. is a critically endangered high altitude Himalayan medicinal plant species with rich source of pharmaceutically active structurally diverse steroidal alkaloids. Nevertheless, except few marker compounds, the chemistry of the plant remains unexplored. Therefore, in the current study, transcriptome sequencing efforts were made to elucidate isosteroidal alkaloids biosynthesis by creating first organ-specific genomic resource using bulb, stem, and leaf tissues derived from natural populations of Indian Himalayan region. Overall, 349.9 million high quality paired-end reads obtained using NovaSeq 6000 platform were assembled (de novo) into 82,848 unigenes and 31,061 isoforms. Functional annotation and organ specific differential expression (DE) analysis identified 2488 significant DE transcripts, grouped into three potential sub-clusters (sub-cluster I: 728 transcripts; sub-cluster II: 446 transcripts and Sub-cluster III: 1314 transcripts). Subsequently, pathway enrichment (GO, KEGG) and protein-protein network analysis revealed significantly higher enrichment of phenyl-propanoid and steroid backbone including terpenoid, sesquiterpenoid and triterpenoid biosynthesis in bulb. Additionally, upregulated expression of cytochrome P450, UDP-dependent Glucuronosyltransferase families and key transcription factor families (FAR1, bHLH, GRAS, C2H2, TCP and MYB) suggests 'bulb' as a primary site of MVA mediated isosteroidal alkaloids biosynthesis. The comprehensive elucidation of molecular insights in this study is a first step towards the understanding of isosteroidal alkaloid biosynthesis pathway in F. roylei. Furthermore, key genes and regulators identified here can facilitate metabolic engineering of potential bioactive compounds at industrial scale.
宝兴百合(Fritillaria roylei Hook.)是一种濒危的喜马拉雅高山药用植物,具有丰富的具有药用活性的结构多样的甾体生物碱。然而,除了少数标记化合物外,该植物的化学性质仍未得到探索。因此,在本研究中,通过利用源自印度喜马拉雅地区的天然种群的鳞茎、茎和叶组织,进行了转录组测序工作,以阐明同型甾体生物碱的生物合成。总体而言,使用 NovaSeq 6000 平台获得了 3.499 亿条高质量的配对末端读取,这些读取通过从头组装成 82848 条非冗余基因和 31061 个同型。功能注释和器官特异性差异表达(DE)分析确定了 2488 个显著的 DE 转录本,分为三个潜在的亚群(亚群 I:728 个转录本;亚群 II:446 个转录本和亚群 III:1314 个转录本)。随后,途径富集(GO、KEGG)和蛋白质-蛋白质网络分析显示,在鳞茎中苯丙素和甾体骨架(包括萜类、倍半萜和三萜类生物合成)的富集程度显著较高。此外,细胞色素 P450、UDP 依赖性葡萄糖醛酸转移酶家族和关键转录因子家族(FAR1、bHLH、GRAS、C2H2、TCP 和 MYB)的上调表达表明,“鳞茎”是 MVA 介导的同型甾体生物碱生物合成的主要部位。本研究中对分子见解的全面阐述是理解宝兴百合同型甾体生物碱生物合成途径的第一步。此外,这里鉴定的关键基因和调节剂可以促进具有潜在生物活性化合物的代谢工程在工业规模上的应用。
