农科机构知识库联盟

The auxin response factor gene family in banana: genome-wide identification and expression analyses during development, ripening, and abiotic stress

文献类型：外文期刊

第一作者： Hu, Wei

作者： Hu, Wei;Zuo, Jiao;Hou, Xiaowan;Yan, Yan;Wei, Yunxie;Liu, Juhua;Li, Meiying;Xu, Biyu;Jin, Zhiqiang;Jin, Zhiqiang

作者机构：

关键词： auxin response factors (ARF) transcription factor;abiotic stresses;banana;development;expression analysis;ripening

期刊名称：FRONTIERS IN PLANT SCIENCE （影响因子：5.753；五年影响因子：6.612 ）

ISSN： 1664-462X

年卷期： 2015 年 6 卷

页码：

收录情况： SCI

摘要： Auxin signaling regulates various auxin-responsive genes via two types of transcriptional regulators, Auxin Response Factors (ARF) and Aux/IAA. ARF transcription factors act as critical components of auxin signaling that play important roles in modulating various biological processes. However, limited information about this gene family in fruit crops is currently available. Herein, 47 ARF genes were identified in banana based on its genome sequence. Phylogenetic analysis of the ARFs from banana, rice, and Arabidopsis suggested that the ARFs could be divided into four subgroups, among which most ARFs from the banana showed a closer relationship with those from rice than those from Arabidopsis. Conserved motif analysis showed that all identified MaARFs had typical DNA-binding and ARF domains, but 12 members lacked the dimerization domain. Gene structure analysis showed that the number of exons in MaARF genes ranged from 5 to 21, suggesting large variation amongst banana ARF genes. The comprehensive expression profiles of MaARF genes yielded useful information about their involvement in diverse tissues, different stages of fruit development and ripening, and responses to abiotic stresses in different varieties. Interaction networks and co-expression assays indicated the strong transcriptional response of banana ARFs and ARF-mediated networks in early fruit development for different varieties. Our systematic analysis of MaARFs revealed robust tissue-specific, development-dependent, and abiotic stress responsive candidate MaARF genes for further functional assays in planta. These findings could lead to potential applications in the genetic improvement of banana cultivars, and yield new insights into the complexity of the control of MaARF gene expression at the transcriptional level. Finally, they support the hypothesis that ARFs are a crucial component of the auxin signaling pathway, which regulates a wide range of physiological processes.

分类号：

相关文献

[1]Genome-Wide Identification and Expression Analyses of Aquaporin Gene Family during Development and Abiotic Stress in Banana. Hu, Wei,Hou, Xiaowan,Yan, Yan,Tie, Weiwei,Ding, Zehong,Wei, Yunxie,Liu, Juhua,Miao, Hongxia,Lu, Zhiwei,Li, Meiying,Xu, Biyu,Huang, Chao,Jin, Zhiqiang. 2015

[2]The banana E2 gene family: Genomic identification, characterization, expression profiling analysis. Dong, Chen,Hu, Huigang,Jue, Dengwei,Zhao, Qiufang,Chen, Hongliang,Xie, Jianghui,Jia, Liqiang,Dong, Chen,Hu, Huigang,Jue, Dengwei,Zhao, Qiufang,Chen, Hongliang,Xie, Jianghui,Jia, Liqiang.

[3]Identifying suitable reference genes for gene expression analysis in developing skeletal muscle in pigs. Niu, Guanglin,Yang, Yalan,Zhang, YuanYuan,Hua, Chaoju,Wang, Zishuai,Tang, Zhonglin,Li, Kui,Niu, Guanglin,Yang, Yalan,Tang, Zhonglin,Li, Kui. 2016

[4]Identification and expression analysis of group III WRKY transcription factors in cotton. DOU Ling-ling,GUO Ya-ning,Ondati Evans,PANG Chao-you,WEI Heng-ling,SONG Mei-zhen,FAN Shu-li,YU Shu-xun. 2016

[5]Differential Expression Patterns of Pleurotus ostreatus Catalase Genes during Developmental Stages and under Heat Stress. Wang, Lining,Wu, Xiangli,Gao, Wei,Zhao, Mengran,Zhang, Jinxia,Huang, Chenyang,Wang, Lining,Wu, Xiangli,Gao, Wei,Zhao, Mengran,Zhang, Jinxia,Huang, Chenyang. 2017

[6]Effects of Carbon Concentrations and Carbon to Nitrogen ratios on Sporulation of Two Biological Control Fungi as Determined by Different Culture Methods. Liu, Xingzhong,Gao, Li.

[7]Hydrogen gas prolongs the shelf life of kiwifruit by decreasing ethylene biosynthesis. Hu, Huali,Shen, Wenbiao,Hu, Huali,Zhao, Suping,Li, Pengxia,Hu, Huali. 2018

[8]Transcriptional Regulation of Genes Encoding Key Enzymes of Abscisic Acid Metabolism During Melon (Cucumis melo L.) Fruit Development and Ripening. Sun, Yufei,Chen, Pei,Duan, Chaorui,Wang, Yanping,Ji, Kai,Hu, Yin,Li, Qian,Dai, Shengjie,Wu, Yan,Luo, Hao,Sun, Liang,Leng, Ping,Tao, Pang. 2013

[9]Function of a citrate synthase gene (MaGCS) during postharvest banana fruit ripening. Liu, Ju-Hua,Chi, Guang-Hong,Jia, Cai-Hong,Zhang, Jian-Bin,Xu, Bi-Yu,Jin, Zhi-Qiang,Jin, Zhi-Qiang. 2013

[10]Dissecting the Variations of Ripening Progression and Flavonoid Metabolism in Grape Berries Grown under Double Cropping System. Wang, Yu,He, Lei,Yang, Xiao-Hui,He, Fei,Duan, Chang-Qing,Wang, Jun,Chen, Wei-Kai,Wang, Yu,He, Lei,Yang, Xiao-Hui,He, Fei,Duan, Chang-Qing,Wang, Jun,Bai, Xian-Jin,Cao, Mu-Ming,Cheng, Guo,Cao, Xiong-Jun,Guo, Rong-Rong. 2017

[11]Effects of chitosan coating on postharvest life and quality of guava (Psidium guajava L.) fruit during cold storage. Hong, Keqian,Xie, Jianghui,Zhang, Lubin,Sun, Dequan,Gong, Deqiang. 2012

[12]PpYUC11, a strong candidate gene for the stony hard phenotype in peach (Prunus persica L. Batsch), participates in IAA biosynthesis during fruit ripening. Pan, Lei,Zeng, Wenfang,Niu, Liang,Lu, Zhenhua,Liu, Hui,Cui, Guochao,Zhu, Yunqin,Fang, Weichao,Cai, Zuguo,Wang, Zhiqiang,Pan, Lei,Li, Guohuai,Chu, Jinfang,Li, Weiping.

[13]Expression of ethylene biosynthetic and signaling genes in relation to ripening of banana fruit after cold storage. Xie, Jianghui,Zhang, Ezhen,Xin, Min,Huang, Maokang,He, Quanguang,He, Quanguang,Zou, Ru.

[14]Molecular Characterization of Ethylene-Regulated Anthocyanin Biosynthesis in Plums During Fruit Ripening. Cheng, Yudou,Liu, Liqin,Yuan, Can,Guan, Junfeng,Cheng, Yudou,Liu, Liqin,Yuan, Can,Guan, Junfeng.

[15]Distinct expression profiles of ripening related genes in the 'Nanguo' pear (Pyrus ussuriensis) fruits. Li, Tong,Li, Xinyue,Tan, Dongmei,Jiang, Zhongyu,Wei, Yun,Du, Guodong,Wang, Aide,Li, Juncai. 2014

[16]The Role of ABA in the Maturation and Postharvest Life of a Nonclimacteric Sweet Cherry Fruit. Luo, Hao,Dai, ShengJie,Ding, Ying,Sun, Yufei,Ji, Kai,Wang, Yanping,Li, Qian,Chen, Pei,Duan, Chaorui,Wang, Ya,Leng, Ping,Ren, Jie,Zhang, CaiXia,Li, Zhuang. 2014

[17]Diffusivity of 1-methylcyclopropene in spinach and bok choi leaf tissue, disks of tomato and avocado fruit tissue, and whole tomato fruit. Dong, Xiaoqing,Ramirez-Sanchez, Maricruz,Huber, Donald J.,Zhang, Zhengke,Choi, Sun Tay,Lee, James H.,Dong, Xiaoqing,Rao, Jingping,Zhang, Zhengke,Choi, Sun Tay. 2013

[18]1-methylcyclopropene (1-MCP) for extending postharvest quality of 'Cuiguan' pears (Pyrus pyrifolia Nak.). Chang, Youhong,Lin, Jing,Yan, Zhimei. 2008

[19]Effects of acetylsalicylic acid on kiwifruit ethylene biosynthesis and signaling components. Yin, Xue-ren,Zhang, Yu,Zhang, Bo,Yang, Shao-lan,Shi, Yan-na,Ferguson, Ian B.,Chen, Kun-song,Zhang, Yu,Yang, Shao-lan,Ferguson, Ian B.. 2013

[20]Effect of blue light on ethylene biosynthesis, signalling and fruit ripening in postharvest peaches. Gong, Duoduo,Sheng, Tao,Shao, Jiarong,Song, Chunbo,Wo, Fengchao,Chen, Wei,Yang, Zhenfeng,Cao, Shifeng.

作者其他论文更多>>

Identification of the geographical origin of wild rice field eel (Monopterus albus) in China by stable isotopes

作者：Lv, Weiwei;Li, Muyan;Zhao, Yifan;Huang, Weiwei;Yang, Hang;Yuan, Quan;Zhang, Yuning;Zhou, Wenzong;Lu, Yangyang;Yao, Chunxia;Wang, Danhe;Song, Wei;Song, Weiguo;Li, Muyan;Zhao, Yifan;Li, Mingyou;Hu, Wei

关键词：Monopterus albus; Stable isotope; Geographical origin; Traceability; Discriminant analysis
Physiological activities, transcriptomes and metabolomes of Pyropia yezoensis conchocelis unveil the roles of pyPGK, pyBCKDHA, and pyDLD in response to freshwater soaking

作者：Huang, Xueying;Li, Feng;He, Linwen;Huang, Xueying;Wang, Yu;Zhao, Hui;Li, Huiliang;Gu, Fenglin;Tan, Deguan;Hu, Wei;Guo, Anping;Ji, Changmian;Huang, Xueying;Wang, Yu;Zhao, Hui;Li, Huiliang;Gu, Fenglin;Tan, Deguan;Hu, Wei;Guo, Anping;Ji, Changmian;Wang, Yu;Zeng, Liwang

关键词：Pyropia yezoensis; Freshwater stress; Physiological activities; Transcriptome; Metabolome
Methyl jasmonate activated regulatory module Ma14-3-3e-MbHLH130-MbACO13/MbACS7 promoting ethylene biosynthesis and fruit ripening in banana

作者：Li, Meiying;Yan, Yan;Xie, Zhengnan;Ding, Zehong;Yang, Jinghao;Wang, Yu;Ma, Jianxiang;Huo, Kaisen;Yang, Xiaoliang;Xia, Qiyu;Ye, Xiao xue;Li, Chaochao;Jin, Zhiqiang;Hu, Wei;Ren, Licheng;Hu, Wei;Zeng, Liwang

关键词：MeJA; Banana fruit ripening; Ethylene biosynthesis; Ma14-3-3e; MabHLH130
Genome-wide analysis of autophagy-related genes (ATGs) in banana highlights MaATG8s in cell death and autophagy in immune response to Fusarium wilt (vol 36, pg 1237, 2017)

作者：Wei, Yunxie;Liu, Guoyin;Wu, Chunjie;Liu, Wei;Zeng, Hongqiu;He, Chaozu;Shi, Haitao;Wei, Yunxie;Liu, Guoyin;Wu, Chunjie;Liu, Wei;Zeng, Hongqiu;He, Chaozu;Shi, Haitao;Liu, Wen;Hu, Wei

关键词：
Integrated metabolomic and transcriptomic analyses revealed the overlapping response mechanisms of banana to cold and drought stress

作者：Xing, Junchao;Meng, Fanjuan;Xing, Junchao;Ye, Xiaoxue;Huo, Kaisen;Ding, Zehong;Tie, Weiwei;Xie, Zhengnan;Li, Chaochao;Hu, Wei;Xing, Junchao;Ye, Xiaoxue;Huo, Kaisen;Ding, Zehong;Tie, Weiwei;Xie, Zhengnan;Li, Chaochao;Hu, Wei;Xing, Junchao;Ye, Xiaoxue;Huo, Kaisen;Ding, Zehong;Tie, Weiwei;Xie, Zhengnan;Li, Chaochao;Hu, Wei

关键词：Abiotic stresses; Transcriptome; Metabolome; Carbohydrate; Amino acid; Flavonoid; Ascorbate
GenoBaits Cassava35K: high-resolution multi-SNP arrays for genetic analysis and molecular breeding using targeted sequencing and liquid chip technology

作者：Li, Chaochao;Ye, Xiaoxue;Jin, Zhongxin;Huo, Kaisen;Ma, Jiangxiang;Tie, Weiwei;Ding, Zehong;Hu, Wei;Li, Chaochao;Ye, Xiaoxue;Jin, Zhongxin;Huo, Kaisen;Ma, Jiangxiang;Tie, Weiwei;Ding, Zehong;Hu, Wei;Zhou, Yongfeng

关键词：
MaEIL4-MaMADS36-MaACS7 module transcriptionally regulates ethylene biosynthesis during banana fruit ripening

作者：Fu, Maoni;Zheng, Yunke;Zhang, Jing;Zhang, Jianbin;Miao, Hongxia;Wang, Jingyi;Jin, Zhiqiang;Xie, Jianghui;Liu, Juhua;Fu, Maoni;Zheng, Yunke;Zhang, Jing;Zhang, Jianbin;Miao, Hongxia;Wang, Jingyi;Jin, Zhiqiang;Xie, Jianghui;Liu, Juhua;Fu, Maoni;Zhang, Jing;Zhang, Jianbin;Jia, Caihong;Miao, Hongxia;Wang, Jingyi;Liu, Juhua;Fu, Maoni;Li, Xinguo;Deng, Chengju;Zheng, Sijun

关键词：

The auxin response factor gene family in banana: genome-wide identification and expression analyses during development, ripening, and abiotic stress

作者其他论文 更多>>

Identification of the geographical origin of wild rice field eel (Monopterus albus) in China by stable isotopes

Physiological activities, transcriptomes and metabolomes of Pyropia yezoensis conchocelis unveil the roles of pyPGK, pyBCKDHA, and pyDLD in response to freshwater soaking

Methyl jasmonate activated regulatory module Ma14-3-3e-MbHLH130-MbACO13/MbACS7 promoting ethylene biosynthesis and fruit ripening in banana

Genome-wide analysis of autophagy-related genes (ATGs) in banana highlights MaATG8s in cell death and autophagy in immune response to Fusarium wilt (vol 36, pg 1237, 2017)

Integrated metabolomic and transcriptomic analyses revealed the overlapping response mechanisms of banana to cold and drought stress

GenoBaits Cassava35K: high-resolution multi-SNP arrays for genetic analysis and molecular breeding using targeted sequencing and liquid chip technology

MaEIL4-MaMADS36-MaACS7 module transcriptionally regulates ethylene biosynthesis during banana fruit ripening

作者其他论文更多>>