文档介绍:: .
分子植物育种 NJ 与 JY 比对,
差异显著表达基因 47 个,NJ 与 LJ 比对,差异显著表达基因 35 个,NJ 与 LY 比对,差异显著表达基因 43
个。这些基因为进一步深入挖掘蕨菜功能基因、研究萜类化合物等天然活性成分和天然***等生物合成与
代谢调控分子机制提供依据。
关键词 蕨菜; 转录组测序; 功能注释; 萜类化合物
Transcriptome Sequencing and Analysis of Pteridium aquilinum
Li Shanshan * Wang Dan Zhang Meiling Yang Zhencai Xu Lian Li Bo
Heilongjiang Provincial Key Laboratory of Resistance Gene Engineering and Protection of Biodiversity in Cold Areas, College of Life
Sciences and Agriculture and Forestry, Qiqihar University, Qiqihar, 161006
* Corresponding author, ******@
Abstract Transcriptome sequencing was performed on the edible stem (NJ) and curled leaves (JY) and the old
stem (LJ) and old leaves (LY) samples in the inedible period from Pteridium aquilinum based on Illumina HiSeq
platform. A total of Gb data were obtained by RNA-Seq to the four samples (NJ, JY, LJ, LY) of Pteridium
aquilinum, and assembled into 76 427 unigenes with an average length of 1 013 bp. 42 177 (%) unigenes were
annotated in Nr, Nt, Swissprot, KEGG, KOG,Interpro and GO databases. 133 unigenes related to the terpenoids
were identified, mainly participated in the biosynthesis pathways of terpenoid backbone, monoterpenes,
sesquiterpenes, diterpenes and triterpenes. Among them, there are 47 differentially expressed genes in NJ-JY, 35
differentially expressed genes in NJ-LJ, and 43 differentially expressed genes in NJ-LY. It provides the basis for the
exploration of functional genes, main active components, natural toxins and other biosynthesis and metabolic
regulation molecular mechanisms of bracken.
Keywords Pteridium aquilinum, Transcriptome se