Combined transcriptome and metabolome analysis reveals the effects of light quality on maize hybrids

被引:0
作者
Weimin Zhan
Guanghui Guo
Lianhua Cui
Muhammad Abdul Rehman Rashid
Liangliang Jiang
Guanghua Sun
Jianping Yang
Yanpei Zhang
机构
[1] Collaborative Innovation Center of Henan Grain Crops,State Key Laboratory of Wheat and Maize Crop Science
[2] College of Agronomy,State Key Laboratory of Crop Stress Adaptation and Improvement, College of Agriculture
[3] Henan Agricultural University,Department of Bioinformatics and Biotechnology
[4] Henan University,undefined
[5] Government College University Faisalabad,undefined
来源
BMC Plant Biology | / 23卷
关键词
Maize; Light quality; Differentially expressed pattern; Interaction network; Non-additivity;
D O I
暂无
中图分类号
学科分类号
摘要
引用
收藏
相关论文
共 50 条
[31]   Effects of maize organ-specific drought stress response on yields from transcriptome analysis [J].
Baomei Wang ;
Can Liu ;
Dengfeng Zhang ;
Chunmei He ;
Juren Zhang ;
Zhaoxia Li .
BMC Plant Biology, 19
[32]   Comparative transcriptome analysis of salt-sensitive and salt-tolerant maize reveals potential mechanisms to enhance salt resistance [J].
Mingquan Wang ;
Yufeng Wang ;
Yifei Zhang ;
Chunxia Li ;
Shichen Gong ;
Shuqin Yan ;
Guoliang Li ;
Guanghui Hu ;
Honglei Ren ;
Jianfei Yang ;
Tao Yu ;
Kejun Yang .
Genes & Genomics, 2019, 41 :781-801
[33]   Transcriptome Analysis of Tolerant and Susceptible Maize Genotypes Reveals Novel Insights about the Molecular Mechanisms Underlying Drought Responses in Leaves [J].
Waititu, Joram Kiriga ;
Zhang, Xingen ;
Chen, Tianci ;
Zhang, Chunyi ;
Zhao, Yang ;
Wang, Huan .
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 2021, 22 (13)
[34]   Transcriptome analysis of a new maize albino mutant reveals that zeta-carotene desaturase is involved in chloroplast development and retrograde signaling [J].
Wang, Meiping ;
Zhu, Xianfeng ;
Li, Yu ;
Xia, Zongliang .
PLANT PHYSIOLOGY AND BIOCHEMISTRY, 2020, 156 :407-419
[35]   Full-length transcriptome analysis of maize root tips reveals the molecular mechanism of cold stress during the seedling stage [J].
Li Xuhui ;
Chen Weiwei ;
Lu Siqi ;
Fang Junteng ;
Zhu Hang ;
Zhang Xiangbo ;
Qi Yongwen .
BMC PLANT BIOLOGY, 2022, 22 (01)
[36]   Comparative transcriptome analysis of salt-sensitive and salt-tolerant maize reveals potential mechanisms to enhance salt resistance [J].
Wang, Mingquan ;
Wang, Yufeng ;
Zhang, Yifei ;
Li, Chunxia ;
Gong, Shichen ;
Yan, Shuqin ;
Li, Guoliang ;
Hu, Guanghui ;
Ren, Honglei ;
Yang, Jianfei ;
Yu, Tao ;
Yang, Kejun .
GENES & GENOMICS, 2019, 41 (07) :781-801
[37]   Full-length transcriptome analysis of maize root tips reveals the molecular mechanism of cold stress during the seedling stage [J].
Li Xuhui ;
Chen Weiwei ;
Lu Siqi ;
Fang Junteng ;
Zhu Hang ;
Zhang Xiangbo ;
Qi Yongwen .
BMC Plant Biology, 22
[38]   Comparative transcriptome analysis reveals that tricarboxylic acid cycle-related genes are associated with maize CMS-C fertility restoration [J].
Liu, Yongming ;
Wei, Gui ;
Xia, Yuanyan ;
Liu, Xiaowei ;
Tang, Jin ;
Lu, Yanli ;
Lan, Hai ;
Zhang, Suzhi ;
Li, Chuan ;
Cao, Moju .
BMC PLANT BIOLOGY, 2018, 18
[39]   Comparative transcriptome analysis reveals that tricarboxylic acid cycle-related genes are associated with maize CMS-C fertility restoration [J].
Yongming Liu ;
Gui Wei ;
Yuanyan Xia ;
Xiaowei Liu ;
Jin Tang ;
Yanli Lu ;
Hai Lan ;
Suzhi Zhang ;
Chuan Li ;
Moju Cao .
BMC Plant Biology, 18
[40]   A Combination of a Genome-Wide Association Study and a Transcriptome Analysis Reveals circRNAs as New Regulators Involved in the Response to Salt Stress in Maize [J].
Liu, Peng ;
Zhu, Yuxiao ;
Liu, Hao ;
Liang, Zhenjuan ;
Zhang, Minyan ;
Zou, Chaoying ;
Yuan, Guangsheng ;
Gao, Shibin ;
Pan, Guangtang ;
Shen, Yaou ;
Ma, Langlang .
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 2022, 23 (17)
12345