东南园艺2024,Vol.12Issue(4):285-295,11.DOI:10.20023/j.cnki.2095-5774.2024.04.006
两种叶色血叶兰的转录组分析
Transcriptome Analysis of Ludisia discolor with two Leaf Colors
摘要
Abstract
[Objective]To enrich transcriptome data of Ludisia discolor in order to assist in its functional gene mining.[Method]Leaves of two kinds of L.discolor cultivars with different leaf colors were sequenced by Illumina Hiseq 2 000 and further analyzed by bioinformatics.[Result]37.23 Gb clean reads were generated from three replicates of L.discolor with two leaf colors,which was the de novo assembled into 97 089 unigenes with a mean length of 1 038.76bp,N50 of 1 892 bp.31 095 unigenes were annotated against 8 prominent bioinformatics databases.Within the NR database,a total of 29 730 unigenes were primarily annotated from L.discolor;with the most homologous sequences to Dendrobium officinale.23 871 unigenes were annotated in GO database and were divided into three categories:cellular component,biological process and molecular function.There were 14 791 unigenes annotated in KOG function categories,which mainly focused on general function prediction,posttranslational modification and signal transduction.A total of 5 791 DEGs were screened out from'XGH'vs'BX'.Compared with the dark-purple leaves,the expression of 3 120 genes increased while the expression of 2 671 genes decreased in green leaves.KEGG enrichment analysis showed that the differentially expressed genes were most significantly enriched in plant-pathogen interaction;the secondary enriched was MAPK signaling pathway and plant hormone signal transduction,photosynthesis-antenna protein,and the other pathway including phenylpropanoid biosynthesis,flavonoid biosynthesis,porphyrin and chlorophyll metabolism.[Conclusion]This investigation furnished scientific support for study of functional genes in L.discolor as medicinal plant.关键词
血叶兰/转录组/基因注释/叶色Key words
Ludisia discolor L./Transcriptome/Gene annotation/Leaf color分类
农业科技引用本文复制引用
吴英详,杨俊杰,陈芸芸,蔡坤秀,陈羡德,张天翔,吴思浩,符稳群,郑涛..两种叶色血叶兰的转录组分析[J].东南园艺,2024,12(4):285-295,11.基金项目
福建省科技计划项目(2019N0017) (2019N0017)
福建省自然科学基金项目(2021J011001) (2021J011001)
