Genome-Wide Identification of the MPK Gene Family and Expression Analysis under Low-Temperature Stress in the Banana
文献类型: 外文期刊
第一作者: Fan, Zhengyang
作者: Fan, Zhengyang;Zhao, Bianbian;Lai, Ruilian;Wu, Huan;Jia, Liang;Zhao, Xiaobing;Luo, Jie;Huang, Yuji;Chen, Yukun;Lin, Yuling;Lai, Zhongxiong;Lai, Ruilian
作者机构:
关键词: banana; MAPK; low temperature stress; miR172
期刊名称:PLANTS-BASEL ( 影响因子:4.5; 五年影响因子:4.8 )
ISSN:
年卷期: 2023 年 12 卷 16 期
页码:
收录情况: SCI
摘要: Mitogen-activated protein kinases (MAPKs and MPKs) are important in the process of resisting plant stress. In this study, 21,12,18, 16, and 10 MPKs were identified from Musa acuminata, Musa balbisiana, Musa itinerans, Musa schizocarpa, and Musa textilis, respectively. These MPKs were divided into Group A, B, C, and D. Phylogenetic analysis revealed that this difference in number was due to the gene shrinkage of the Group B subfamily of Musa balbisiana and Musa textilis. KEGG annotations revealed that K14512, which is involved in plant hormone signal transduction and the plant-pathogen interaction, was the most conserved pathway of the MPKs. The results of promoter cis-acting element prediction and focTR4 (Fusarium oxysporum f. sp. cubense tropical race 4) transcriptome expression analysis preliminarily confirmed that MPKs were relevant to plant hormone and biotic stress, respectively. The expression of MPKs in Group A was significantly upregulated at 4 degrees C, and dramatically, the MPKs in the root were affected by low temperature. miR172, miR319, miR395, miR398, and miR399 may be the miRNAs that regulate MPKs during low-temperature stress, with miR172 being the most critical. miRNA prediction and qRT-PCR results indicated that miR172 may negatively regulate MPKs. Therefore, we deduced that MPKs might coordinate with miR172 to participate in the process of the resistance to low-temperature stress in the roots of the banana. This study will provide a theoretical basis for further analysis of the mechanism of MPKs under low-temperature stress of bananas, and this study could be applied to molecular breeding of bananas in the future.
分类号:
- 相关文献
作者其他论文 更多>>
-
Genetic regulation of human brain proteome reveals proteins implicated in psychiatric disorders
作者:Luo, Jie;Li, Ling;Kong, Dehui;Wang, Xusheng;Niu, Mingming;Peng, Junmin;Niu, Mingming;Peng, Junmin;Jiang, Yi;Poudel, Suresh;Wang, Xusheng;Shieh, Annie W.;Cheng, Lijun;Giase, Gina;Grennan, Kay;White, Kevin P.;Chen, Chao;Chen, Chao;Wang, Sidney H.;Pinto, Dalila;Wang, Yue;Liu, Chunyu
关键词:
-
Diaporthe arecae is a new pathogen causing Chinese olive ( Canarium album ) dieback in China
作者:Lai, Duo;Wang, Delin;Shao, Xuehua;Qin, Jian;Zhuang, Qingli;Xiao, Weiqiang;Lai, Ruilian;Ni, Xiaorong
关键词:Canarium album; Diaporthe arecae; Pathogenicity; Molecular identification
-
Piriformospora indica Enhances Resistance to Fusarium wilt in Strawberry by Increasing the Activity of Superoxide Dismutase, Peroxidase, and Catalase, While Reducing the Content of Malondialdehyde in the Roots
作者:Huang, Yuji;Li, Jinman;Nong, Chaocui;Lin, Tong;Feng, Xu;Lin, Yuling;Lai, Zhongxiong;Miao, Lixiang;Huang, Yuji;Fang, Li;Chen, Yiting
关键词:strawberry; Piriformospora indica; Fusarium wilt; Benihoppe
-
First Report of Kiwifruit Root Rot Caused by Globisporangium spinosum in China
作者:Feng, Xin;Liu, Xiaochi;Lu, Yudan;Gao, Minxia;Lai, Ruilian;Chen, Yiting;Feng, Xin;Gao, Minxia;Chen, Yiting;Ye, Wei
关键词:Actinidia spp.; etiology; Globisporangium spinosum; root rot
-
Analysis of the Genetic Diversity in Tea Plant Germplasm in Fujian Province Based on Restriction Site-Associated DNA Sequencing
作者:Jiang, Lele;Zhou, Chengzhe;Tian, Caiyun;Lai, Zhongxiong;Guo, Yuqiong;Xie, Siyi;Zhou, Chengzhe;Lai, Zhongxiong;Zhu, Chen;Zhu, Chen;You, Xiaomei;Chen, Changsong;Guo, Yuqiong
关键词:Camellia sinensis; genetic diversity; selection pressure; genome-wide association analysis
-
Comparative Transcriptome Analysis Provides Insights into the Effect of Epicuticular Wax Accumulation on Salt Stress in Coconuts
作者:Sun, Xiwei;Feng, Yalan;Zhong, Yazhu;Dou, Yajing;Kaleri, Ghulam Abid;Mu, Zhihua;Yang, Zhuang;Xu, Hang;Zhou, Junjie;Luo, Jie;Xiao, Yong
关键词:coconut; transcriptome; salt tolerance
-
OsBCAT2, a gene responsible for the degradation of branched-chain amino acids, positively regulates salt tolerance by promoting the synthesis of vitamin B5
作者:Sun, Yangyang;Long, Qiyuan;Liu, Yanchen;Zhang, Changjian;Zhang, Yuanyuan;Luo, Yuehua;Luo, Jie;Jin, Cheng;Sun, Yangyang;Zhou, Yutong;Long, Qiyuan;Xing, Junwei;Guo, Peizhen;Liu, Yanchen;Zhang, Changjian;Zhang, Yuanyuan;Luo, Yuehua;Jin, Cheng;Sun, Yangyang;Fernie, Alisdair R.;Shi, Yuheng;Luo, Jie
关键词:branched-chain amino acids; degradation; rice; salt; vitamin B5
