Long noncoding RNAs that respond to Fusarium oxysporum infection in 'Cavendish' banana (Musa acuminata)
文献类型: 外文期刊
第一作者: Li, Wenbin
作者: Li, Wenbin;Li, Chunqiang;Li, Shuxia;Peng, Ming
作者机构:
期刊名称:SCIENTIFIC REPORTS ( 影响因子:4.379; 五年影响因子:5.133 )
ISSN: 2045-2322
年卷期: 2017 年 7 卷
页码:
收录情况: SCI
摘要: Long noncoding RNAs (lncRNAs) are a class of genes that influence a variety of biological functions through acting as signal, decoy, guide, and scaffold molecules. In banana (Musa spp.), an important economic fruit crop, particularly in Southeast Asia, the wilt disease caused by Fusarium oxysporum f. sp. cubense (Foc), especially strain Foc TR4, is disastrous. In banana, how the biogenesis of these lncRNAs is regulated in response to pathogen infection is still largely unknown. In this study, strand-specific paired-end RNA sequencing of banana samples was performed on susceptible and resistant cultivars inoculated with Foc, with three biological replicates and at two different times after infection. Overall, 5,294 lncRNAs were predicted with high confidence through strict filtration, including long intergenic ncRNA (lincRNA) and antisense lncRNA. Differentially expressed (DE) lncRNAs were identified in response to Foc infection in the inoculated versus the mock-inoculated banana of the susceptible 'BX' and resistant 'NK' cultivars. Through KEGG, GO, and the expression levels of the DE lncRNAs, some DE lncRNAs were predicted to be involved in plant-pathogen interactions and phytohormone signal transduction. In this study, this catalog of lncRNAs and their properties will facilitate further experimental studies and functional classifications of these genes.
分类号:
- 相关文献
作者其他论文 更多>>
-
Insights into membrane-bound fatty acid desaturase genes in tigernut (Cyperus esculentus L.), an oil-rich tuber plant in Cyperaceae
作者:Zou, Zhi;Fu, Xiaowen;Li, Chunqiang;Huang, Jiaquan;Zhao, Yongguo;Huang, Jiaquan;Huang, Jiaquan;Zhao, Yongguo
关键词:
Cyperus esculentus ; Vegetative tissue; Underground tuber; FAD; Phylogenomics; Orthologous analysis; Syntenic analysis -
Capsid protein of turnip crinkle virus suppresses antiviral RNA decay by degrading Arabidopsis Dcp1 via the ubiquitination pathway (vol 121, e70075, 2025)
作者:Wu, Kunxin;Xie, Qiuxian;Liu, Xueting;Fu, Yan;Li, Shuxia;Yu, Xiaoling;Li, Wenbin;Zhao, Pingjuan;Ren, Yanli;Ruan, Mengbin;Zhang, Xiuchun;Wu, Kunxin;Xie, Qiuxian;Liu, Xueting;Fu, Yan;Li, Shuxia;Yu, Xiaoling;Li, Wenbin;Zhao, Pingjuan;Ren, Yanli;Ruan, Mengbin;Zhang, Xiuchun;Xie, Qiuxian;Liu, Xueting;Fu, Yan;Ren, Yanli;Li, Shuxia;Yu, Xiaoling;Li, Wenbin;Zhao, Pingjuan;Ruan, Mengbin;Zhang, Xiuchun
关键词:
-
Insights into the Stearoyl-Acyl Carrier Protein Desaturase (SAD) Family in Tigernut (Cyperus esculentus L.), an Oil-Bearing Tuber Plant
作者:Zou, Zhi;Fu, Xiaowen;Li, Chunqiang;Yi, Xiaoping;Huang, Jiaquan;Zhao, Yongguo;Huang, Jiaquan;Zhao, Yongguo
关键词:vegetative tissue; underground tuber; oleic acid; FAB2; AAD; structural variation; expression divergence
-
Integrative Analysis Provides Insights into Genes Encoding LEA_5 Domain-Containing Proteins in Tigernut (Cyperus esculentus L.)
作者:Zou, Zhi;Fu, Xiaowen;Yi, Xiaoping;Li, Chunqiang;Huang, Jiaquan;Zhao, Yongguo;Huang, Jiaquan;Huang, Jiaquan;Zhao, Yongguo
关键词:Cyperaceae; vegetative tissue; underground tuber; desiccation tolerance; late embryogenesis-abundant protein; phylogenomics
-
MeWRKY30, a cassava stress-responsive WRKY transcription factor, confers drought resistance to transgenic Arabidopsis
作者:Zhu, Yufei;Li, Zhibo;Wang, Wenjuan;Liu, Xiaojie;Xie, Qiuxian;Yu, Xiaoling;Zhang, Xiuchun;Li, Shuxia;Ruan, Mengbin;Zhu, Yufei;Li, Zhibo;Wang, Wenjuan;Liu, Xiaojie
关键词:Cassava;
Arabidopsis ; Drought tolerance; WRKY transcription factor; MeWRKY30 -
Interacting MeZFP29 and MebZIPW regulates MeNRT2.2 from cassava responding to nitrate signaling
作者:Li, Wenbin;Yu, Xiaoling;Zhao, Pingjuan;Li, Shuxia;Zou, Liangping;Zhang, Xiuchun;Li, Jiuhui;Ruan, Mengbin;Li, Wenbin;Zhao, Pingjuan;Zou, Liangping;Li, Jiuhui;Ruan, Mengbin;Yu, Xiaoling;Li, Shuxia;Zhang, Xiuchun;Ruan, Mengbin
关键词:Cassava; High-affinity nitrate transporter 2.2; Nitrate-responsive
cis -element; MeZFP29; MebZIPW; Regulatory mechanism -
Capsid protein of turnip crinkle virus suppresses antiviral RNA decay by degrading Arabidopsis Dcp1 via ubiquitination pathway
作者:Wu, Kunxin;Xie, Qiuxian;Liu, Xueting;Fu, Yan;Li, Shuxia;Yu, Xiaoling;Li, Wenbin;Zhao, Pingjuan;Ruan, Mengbin;Zhang, Xiuchun;Wu, Kunxin;Li, Shuxia;Yu, Xiaoling;Li, Wenbin;Zhao, Pingjuan;Ruan, Mengbin;Zhang, Xiuchun;Xie, Qiuxian;Liu, Xueting;Fu, Yan;Ren, Yanli
关键词:turnip crinkle virus; viral suppressor of RNA decay; antiviral; decapping 1; protein degradation
