Garg Anchal, Agrawal Lalit, Misra Rajesh Chandra, Sharma Shubha, Ghosh Sumit
Biotechnology Division, Council of Scientific and Industrial Research-Central Institute of Medicinal and Aromatic Plants, Lucknow, 226015, India.
Council of Scientific and Industrial Research-National Botanical Research Institute, Lucknow, 226001, India.
BMC Genomics. 2015 Sep 2;16(1):659. doi: 10.1186/s12864-015-1864-y.
Kalmegh (Andrographis paniculata) has been widely exploited in traditional medicine for the treatment of infectious diseases and health disorders. Ent-labdane-related diterpene (ent-LRD) specialized (i.e., secondary) metabolites of kalmegh such as andrographolide, neoandrographolide and 14-deoxy-11,12-didehydroandrographolide, are known for variety of pharmacological activities. However, due to the lack of genomic and transcriptomic information, underlying molecular basis of ent-LRDs biosynthesis has remained largely unknown. To identify candidate genes of the ent-LRD biosynthetic pathway, we performed comparative transcriptome analysis using leaf and root tissues that differentially accumulate ent-LRDs.
De novo assembly of Illumina HiSeq2000 platform-generated paired-end sequencing reads resulted into 69,011 leaf and 64,244 root transcripts which were assembled into a total of 84,628 unique transcripts. Annotation of these transcripts to the Uniprot, Kyoto Encyclopedia of Genes and Genomes (KEGG) and Carbohydrate-Active Enzymes (CAZy) databases identified candidate transcripts of the ent-LRD biosynthetic pathway. These included transcripts that encode enzymes of the plastidial 2C-methyl-D-erythritol-4-phosphate pathway which provides C5 isoprenoid precursors for the ent-LRDs biosynthesis, geranylgeranyl diphosphate synthase, class II diterpene synthase (diTPS), cytochrome P450 monooxygenase and glycosyltransferase. Three class II diTPSs (ApCPS1, ApCPS2 and ApCPS3) that showed distinct tissue-specific expression profiles and are phylogenetically related to the dicotyledon ent-copalyl diphosphate synthases, are identified. ApCPS1, ApCPS2 and ApCPS3 encode for 832-, 817- and 797- amino acids proteins of 55-63 % identity, respectively. Spatio-temporal patterns of transcripts and ent-LRDs accumulation are consistent with the involvement of ApCPS1 in general (i.e., primary) metabolism for the biosynthesis of phytohormone gibberellin, ApCPS2 in leaf specialized ent-LRDs biosynthesis and ApCPS3 in root diterpene biosynthesis. Moreover, simple sequence repeats (SSRs) that might assist in genotyping and developing specific chemotypes were identified in transcripts of the specialized metabolic pathways, including ent-LRDs.
Comparative analysis of root and leaf transcriptomes disclosed novel genes of the ent-LRD biosynthetic pathway, including three class II diTPSs that showed discrete spatio-temporal expression patterns; thus, suggesting their participation into distinct diterpene metabolic pathways of kalmegh. Overall, these results will be useful in understanding molecular basis of the medicinal ent-LRDs biosynthesis and developing breeding strategies for improving their yields.
穿心莲(Andrographis paniculata)在传统医学中已被广泛用于治疗传染病和健康紊乱。穿心莲的对映-贝壳杉烷型二萜(ent-LRD)类特殊(即次生)代谢产物,如穿心莲内酯、新穿心莲内酯和14-去氧-11,12-二脱氢穿心莲内酯,因其多种药理活性而闻名。然而,由于缺乏基因组和转录组信息,ent-LRD生物合成的潜在分子基础在很大程度上仍不清楚。为了鉴定ent-LRD生物合成途径的候选基因,我们使用差异积累ent-LRD的叶和根组织进行了比较转录组分析。
对Illumina HiSeq2000平台产生的双末端测序读数进行从头组装,得到69011个叶转录本和64244个根转录本,这些转录本共组装成84628个独特转录本。将这些转录本注释到通用蛋白质数据库(Uniprot)、京都基因与基因组百科全书(KEGG)和碳水化合物活性酶(CAZy)数据库中,鉴定出ent-LRD生物合成途径的候选转录本。这些包括编码质体2C-甲基-D-赤藓糖醇-4-磷酸途径中酶的转录本,该途径为ent-LRD生物合成提供C5类异戊二烯前体、香叶基香叶基二磷酸合酶、II类二萜合酶(diTPS)、细胞色素P450单加氧酶和糖基转移酶。鉴定出三个II类diTPS(ApCPS1、ApCPS2和ApCPS3),它们表现出明显的组织特异性表达模式,并且在系统发育上与双子叶植物对映-贝壳杉烯二磷酸合酶相关。ApCPS1、ApCPS2和ApCPS3分别编码832、817和797个氨基酸的蛋白质,同一性为55%-63%。转录本和ent-LRD积累的时空模式与ApCPS1参与植物激素赤霉素生物合成的一般(即初级)代谢、ApCPS2参与叶中特殊ent-LRD生物合成以及ApCPS3参与根中二萜生物合成一致。此外,在包括ent-LRD在内的特殊代谢途径的转录本中鉴定出可能有助于基因分型和开发特定化学型的简单序列重复(SSR)。
根和叶转录组的比较分析揭示了ent-LRD生物合成途径的新基因,包括三个表现出离散时空表达模式的II类diTPS;因此,表明它们参与了穿心莲不同的二萜代谢途径。总体而言,这些结果将有助于理解药用ent-LRD生物合成的分子基础,并制定提高其产量的育种策略。
