Sharma Ashish, Bhattacharyya Dipto, Sharma Shilpa, Chauhan Rajinder Singh
Department of Biotechnology, School of Engineering & Applied Sciences, Bennett University, Greater Noida, Uttar Pradesh 201310, India.
Department of Biotechnology, School of Engineering & Applied Sciences, Bennett University, Greater Noida, Uttar Pradesh 201310, India.
Genomics. 2021 Sep;113(5):3381-3394. doi: 10.1016/j.ygeno.2021.07.024. Epub 2021 Jul 28.
Picrorhiza kurroa is a medicinal herb rich in hepatoprotective iridoid glycosides, picroside-I (P-I) and picroside-II (P-II). The biosynthetic machinery of picrosides is poorly understood, therefore, 'no-direction' gene co-expression networks were used to extract linked/closed and separated interactions in terpenoid glycosides-specific sub-networks. Transcriptomes generated from different organs, varying for P-I and P-II contents such as shoots grown at 15 and 25 °C and nursery-grown shoots, stolons, and roots resulted in 47,726, 44,958, 40,117, 66,979, and 55,578 annotated transcripts, respectively. Occurrence of 2810 ± 136 nodes and 15,626 ± 696 edges in these networks indicated intense, co-expressed, closed loop interactions. Either deregulation/inhibition of abscisic acid (ABA) biosynthesis/signaling or constitutive degradation of ABA resulted in organ-specific accumulation of P-I and P-II. Biosynthesis, condensation and glucosylation of isoprene units may occur in shoots, roots or stolons; but addition of phenylpropanoid moiety and further modification/s of the iridoid backbone occurs mainly inside vacuoles in roots.
胡黄连是一种富含具有肝脏保护作用的环烯醚萜苷类化合物(如胡黄连苷-I(P-I)和胡黄连苷-II(P-II))的药用植物。目前对胡黄连苷的生物合成机制了解甚少,因此,利用“无向”基因共表达网络来提取萜类糖苷特异性子网中的连锁/封闭和分离相互作用。从不同器官生成的转录组,其P-I和P-II含量各不相同,如在15℃和25℃下生长的嫩枝以及苗圃培育的嫩枝、匍匐茎和根,分别产生了47726、44958、40117、66979和55578条注释转录本。这些网络中出现2810±136个节点和15626±696条边,表明存在强烈的、共表达的闭环相互作用。脱落酸(ABA)生物合成/信号传导的失调/抑制或ABA的组成型降解导致了P-I和P-II在器官特异性的积累。异戊二烯单元的生物合成、缩合和糖基化可能发生在嫩枝、根或匍匐茎中;但苯丙烷部分的添加以及环烯醚萜骨架的进一步修饰主要发生在根中的液泡内。
