Physiological Analysis and Transcriptome Sequencing Reveal the Effects of Salt Stress on Banana (Musa acuminata cv. BD) Leaf
文献类型: 外文期刊
第一作者: Wei, Junya
作者: Wei, Junya;Wei, Shouxing;Liu, Debing;Liu, Yuewei
作者机构:
关键词: salt stress; banana; physiological analysis; transcriptomic analysis; effects
期刊名称:FRONTIERS IN PLANT SCIENCE ( 影响因子:6.627; 五年影响因子:7.255 )
ISSN: 1664-462X
年卷期: 2022 年 13 卷
页码:
收录情况: SCI
摘要: The salinization of soil is a widespread environmental problem. Banana (Musa acuminata L.) is a salt-sensitive plant whose growth, development, and production are constrained by salt stresses. However, the tolerance mechanism of this salt-sensitive banana to salt stress is still unclear. This study aimed to investigate the influence of NaCl treatment on phenotypic, physiological, and transcriptome changes in bananas. We found that the content of root activity, MDA, Pro, soluble sugar, soluble protein, and antioxidant enzymes activity in salt-stress treatment were significantly higher than the control in bananas. Transcriptome sequencing result identified an overall of 3,378 differentially expressed genes (DEGs) in banana leaves, and the Kyoto Encyclopedia of Genes and Genomes analysis indicated that these DEGs were involved in phenylpropanoid biosynthesis process, ribosome process, starch and sucrose metabolism, amino sugar process, and plant hormone signal transduction process that had simultaneously changed their expression under salt stress, which indicated these DEGs may play a role in promoting BD banana growth under salt treatments. The genes which were enriched in the phenylpropanoid biosynthesis process, starch and sucrose metabolism process, amino sugar process, and plant hormone signal transduction process were specifically regulated to respond to the salt stress treatments. Here, totally 48 differentially expressed transcription factors (TFs), including WRKY, MYB, NAC, and bHLH, were annotated in BD banana under salt stress. In the phenylpropane biosynthesis pathway, all transcripts encoding key enzymes were found to be significantly up-regulated, indicating that the genes in these pathways may play a significant function in the response of BD banana to salt stress. In conclusion, this study provides new insights into the mechanism of banana tolerance to salt stress, which provides a potential application for the genetic improvement of banana with salt tolerance.
分类号:
- 相关文献
作者其他论文 更多>>
-
Acetic acid delays fresh-cut cassava browning through fine-tunning redox homeostasis
作者:Liu, Guoyin;Zhang, Xueyi;Wei, Yunxie;Zhao, Huiping;Shi, Haitao;Wei, Yunxie;Zhao, Huiping;Shi, Haitao;Wei, Junya
关键词:Fresh -cut cassava; Browning; Enzyme; Acetic acid
-
The male germ unit association is independently regulated of GUM in Arabidopsis thaliana
作者:Rauf, Abdur;Wang, Anbang;Li, Yujia;Lian, Zhihao;Wei, Shouxing;Li, Jingyang;Rauf, Abdur;Wang, Anbang;Li, Yujia;Lian, Zhihao;Wei, Shouxing;Li, Jingyang;Rauf, Abdur;Wisal, Muhammad;Khan, Ikramullah;Rauf, Abdur;Rauf, Abdur;Li, Jingyang;Jabbar, Kashmala;Khalid, Muhammad
关键词:A. thaliana; generative cell; germ unit malformed; male germ unit; sperm cell
-
Melatonin-induced physiology and transcriptome changes in banana seedlings under salt stress conditions
作者:Wei, Junya;Wei, Shouxing;Liang, Jinhao;Liu, Debing;Liu, Yuewei;Liu, Guoyin
关键词:melatonin; banana; physiological change; transcriptomic analysis; salinity
-
Effects of nitrogen reduction combined with organic fertilizer on growth and nitrogen fate in banana at seedling stage
作者:Huang, Lina;Cheng, Shimin;Zhao, Zengxian;Wei, Shouxing;Liu, Hailin;Sun, Shaolong
关键词:Nitrogen fertilizer reduction; Organic fertilizer; Banana; Physiological resistance; Nitrogen fate
-
Identification of a stable major QTL for fresh-seed germination on chromosome Arahy.04 in cultivated peanut (Arachis hypogaea L.)
作者:Zhang, Maoning;Liu, Hua;Qi, Feiyan;Sun, Ziqi;Miao, Lijuan;Li, Xiaona;Li, Chenyu;Guo, Junjia;Xu, Jing;Shi, Lei;Tian, Mengdi;Dong, Wenzhao;Huang, Bingyan;Zhang, Xinyou;Zhang, Maoning;Li, Xiaona;Li, Chenyu;Guo, Junjia;Zeng, Qing;Liu, Debing;Zhang, Mengyuan
关键词:Peanut; QTL mapping; Fresh -seed germination (FSG); Dynamic germination; KASP
-
The genome evolution and domestication of tropical fruit mango
作者:Wang, Peng;Huang, Jianfeng;Dang, Zhiguo;Gai, Jiangtao;Zhu, Min;Ye, Xiuxu;Gao, Aiping;Bai, Beibei;Zhao, Zhichang;Li, Qian;Wei, Junya;Chen, Huarui;Luo, Ruixiong;Chen, Yeyuan;Wang, Peng;Huang, Jianfeng;Dang, Zhiguo;Gai, Jiangtao;Zhu, Min;Ye, Xiuxu;Gao, Aiping;Bai, Beibei;Zhao, Zhichang;Li, Qian;Wei, Junya;Chen, Huarui;Luo, Ruixiong;Chen, Yeyuan;Luo, Yingfeng;Gao, Shenghan;Tan, Xinyu;Hu, Songnian;Luo, Yingfeng;Gao, Shenghan;Yang, Meng;Zhang, Huangkai;Tan, Xinyu;Wang, Sen;Wu, Shuangyang;Zhang, Bing;Hu, Songnian;Zhu, Guopeng;Bai, Beibei;Chen, Yeyuan;Cahoon, Edgar B.;Cahoon, Edgar B.;Gong, Deyong;Tang, Kexuan;Zhang, Bing;Ni, Zhangguang;Huang, Guodi;Hu, Songnian
关键词:Mango genome; Whole-genome duplication; Photosynthesis; Urushiol; Germplasm
-
Effects of Plant Growth Regulators on the Growth and Resistance Physiology of Banana Planting Big Seedlings
作者:Huang, Li Na;Cheng, Shimin;Yang, Zhenrong;Zhao, Zengxian;Xie, Zisi;Wei, Shouxing
关键词:Plant growth regulator;Banana provisonal planting seedling;Growth;Resistance physiological
