文献类型：期刊文献

中文题名：Transcriptome Profiling of the Salt-Stress Response in Paper Mulberry

作者：Jie Zhang[1] Yingwei Zhao[2] Hongying Li[3] Jianwei Ni[4] Dongmei Wang[1]

第一作者：Jie Zhang

机构：[1]College of Forestry,Northwest A&F University,Yangling,712100,China;[2]Guangxi Dongmen Farm,Dongmen Forest Farm,Chongzuo,5321808,China;[3]College of Forestry,Henan University of Science and Technology,Luoyang,471023,China;[4]Key Laboratory of Tree Breeding and Cultivation of National Forestry and Grassland Administration,Research Institute of Forestry,Chinese Academy of Forestry,Beijing,100091,China

年份：2023

卷号：92

期号：9

起止页码：2591-2610

中文期刊名：国际实验植物学杂志(英文)

外文期刊名：Phyton-International Journal of Experimental Botany

收录：Scopus;PubMed

基金：supported by the National Natural Science Foundation of China(31600552).

语种：英文

中文关键词：Gene regulation;paper mulberry;salt stress;transcriptome

分类号：R73

摘要：Paper mulberry is a high-quality woody feed resource plant with high crude protein content.It is widely distributed in China and has excellent characteristics of salt and alkali tolerance.Paper mulberry has ecological and economic importance.Salt stress has become a critical factor with the increasing degree of soil salinity that restricts plant growth.In the saline-alkali environments,transcriptome expression is altered leading to phenotypic defects in most plants.However,the regulatory mechanism related to paper mulberry’s salt-stress(SS)response is not clearly understood.In the present study de novo transcriptomic assembly was performed,and gene expression levels were measured between different SS and natural conditions(25℃)as a control for paper mulberry plants.According to the results of our study,under NaCl stress conditions,the differential gene expression was observed in the leaves of paper mulberry compared with the control.A total of 2126 differentially expressed unigenes were observed.Among these unigenes the expression of 812 DEGs was up-regulated and the expression of 1,314 DEGs was down-regulated.Additionally,The GO and KEGG analyses regarding differentially expressed unigenes(DEUs)revealed that the observed critical transcriptomic alterations under salt stress(SS)conditions were associated with primary and secondary metabolism,photosynthesis,and plant hormone signaling pathways.Further investigations such as gene function studies regarding the unigenes depicting altered expression under salt stress conditions in paper mulberry will help understand the mechanism of salt tolerance,and this information can be utilized in paper mulberry breeding and improvement programs.