Identification of circularRNAs and their targets in Gossypium under Verticillium wilt stress based on RNA-seq
文献类型: 外文期刊
第一作者: Liuxin Xiang
作者: Liuxin Xiang;Cai, Yingfan;Yuan, Youlu;Chaowei Cai;Jieru Cheng;Lu Wang;Chaofeng Wu;Yuzhen Shi;Jingzhi Luo;Lin He;Yushan Deng;Xiao Zhang;Youlu Yuan;Yingfan Cai
作者机构:
关键词: Circular RNA; Differential expression; Verticillium wilt; Cotton chromosome segment substitution lines; NBS family genes
期刊名称:PEERJ ( 影响因子:2.984; 五年影响因子:3.369 )
ISSN: 2167-8359
年卷期: 2018 年 6 卷
页码:
收录情况: SCI
摘要: Circular RNAs (circRNAs), a class of recently discovered non-coding RNAs, play a role in biological and developmental processes. A recent study showed that circRNAs exist in plants and play a role in their environmental stress responses. However, cotton circRNAs and their role in Verticillium wilt response have not been identified up to now. In this study, two CSSLs (chromosome segment substitution lines) of G.barbadense introgressed into G. hirsutum, CSSL-1 and CSSL-4 (a resistant line and a susceptible line to Verticillium wilt, respectively), were inoculated with V. dahliae for RNA-seq library construction and circRNA analysis. A total of 686 novel circRNAs were identified. CSSL-1 and CSSL-4 had similar numbers of circRNAs and shared many circRNAs in common. However, CSSL-4 differentially expressed approximately twice as many circRNAs as CSSL-1, and the differential expression levels of the common circRNAs were generally higher in CSSL-1 than in CSSL-4. Moreover, two C-RRI comparisons, C-RRI-vs-C-RRM and C-RRI-vs-C-RSI, possessed a large proportion (approximately 50%) of the commonly and differentially expressed circRNAs. These results indicate that the differentially expressed circRNAs may play roles in the Verticillium wilt response in cotton. A total of 280 differentially expressed circRNAs were identified. A Gene Ontology analysis showed that most of the stimulus response term source genes were NBS family genes, of which most were the source genes from the differentially expressed circRNAs, indicating that NBS genes may play a role in Verticillium wilt resistance and might be regulated by circRNAs in the disease-resistance process in cotton.
分类号:
- 相关文献
作者其他论文 更多>>
-
The PAP Gene Family in Cotton: Impact of Genome-Wide Identification on Fiber Secondary Wall Synthesis
作者:Sun, Cong;Li, Weijie;Qi, Ruiqiang;Liu, Yangming;Wang, Xiaoyu;Gong, Juwu;Gong, Wankui;Pan, Jingtao;Li, Yang;Shi, Yuzhen;Yan, Haoliang;Shang, Haihong;Yuan, Youlu;Wang, Xiaoyu;Shang, Haihong
关键词:cotton; purple acid phosphatase (PAP); cotton fiber; expression analysis
-
Machine Learning-Driven Identification of Key Environmental Factors Influencing Fiber Yield and Quality Traits in Upland Cotton
作者:Souaibou, Mohamadou;Yan, Haoliang;Pan, Jingtao;Li, Yang;Shi, Yuzhen;Gong, Wankui;Shang, Haihong;Gong, Juwu;Yuan, Youlu;Yan, Haoliang;Pan, Jingtao;Li, Yang;Shi, Yuzhen;Shang, Haihong;Gong, Juwu;Yuan, Youlu;Dai, Panhong;Yuan, Youlu
关键词:cotton; machine learning; genotype environment interaction; SHAP interpretation; environmental factors
-
Coenzyme Q GhCoQ9 enhanced the salt resistance by preserving the homeostasis of mitochondrial in upland cotton
作者:Xu, Nan;Zhong, Yike;Chen, Zhuona;Zhang, Doudou;Han, Xu;Wei, Renhui;Wang, Panpan;Li, Xinru;Gong, Juwu;Li, Yang;Yan, Haoliang;Yuan, Youlu;Shang, Haihong;Xu, Nan;Zhong, Yike;Zhang, Yuanming;Yuan, Youlu;Shang, Haihong;Chen, Zhuona;Zhang, Doudou;Han, Xu;Wang, Panpan;Li, Xinru;Zhao, Yanpeng;Li, Gangling;Yang, Zheng;Yuan, Youlu;Shang, Haihong;Gao, Xu
关键词:Cotton; CoQ; GhCoQ9; Salt stress; Ultrastructure
-
Genome-Wide Identification and Classification of Arabinogalactan Proteins Gene Family in Gossypium Species and GhAGP50 Increases Numbers of Epidermal Hairs in Arabidopsis
作者:Wei, Renhui;Guo, Ziru;Yan, Haoliang;Pan, Jingtao;Liu, Aiying;Gong, Wankui;Ge, Qun;Gong, Juwu;Yuan, Youlu;Shang, Haihong;Yang, Zheng;Zhao, Yanpeng;Azhar, Muhammad Tehseen;Zhang, Yamin;Li, Gangling;Yuan, Youlu;Shang, Haihong;Azhar, Muhammad Tehseen
关键词:cotton; arabinogalactan protein; gene regulation; functional characterization
-
Identification and overexpression of RNA-decapping protein GhLSM1BS: Enhancing cotton somatic embryogenesis through up-regulating brassinosteroid biosynthesis
作者:Yang, Zheng;He, Jie;Gong, Juwu;Yan, Haoliang;Zhao, Yanpeng;Li, Yang;Yuan, Youlu;Shang, Haihong;He, Jie;Yao, Shuqian;Li, Xuxin;Gong, Juwu;Yan, Haoliang;Li, Yang;Yuan, Youlu;He, Jie;Shang, Haihong;Du, Chang
关键词:cotton; LSM1B; somatic embryogenesis; brassinosteroid; CYP450
-
Integrated analysis of lipid metabolites and expressed genes reveals dynamic changes of lipid metabolism in high- and low-oil containing L. genotypes
作者:Zhong, Yike;Wang, Ye;Xu, Nan;Yan, Haoliang;Wei, Renhui;Yao, Shuqian;Gong, Wankui;Ge, Qun;Gong, Juwu;Shang, Haihong;Yuan, Youlu;Zhong, Yike;Xu, Nan;Shang, Haihong;Yuan, Youlu;Zhao, Yanpeng;Han, Xu;Chen, Zhuona;Zhang, Doudou;Gong, Juwu;Shang, Haihong;Yuan, Youlu;Yuan, Youlu;Han, Li
关键词:Lipidome; Transcriptome; Oil accumulation; G. hirsutum L.
-
Fine mapping of the fiber length-related qFL-A12-2 QTL through the use of chromosome segment substitution lines and candidate gene validation
作者:Xiao, Xianghui;Liu, Ruixian;Gong, Juwu;Li, Pengtao;Zhang, Haibo;Chen, Yu;Sun, Zhihao;Peng, Renhai;Lu, Quanwei;Gong, Juwu;Gong, Wankui;Liu, Aiying;Ge, Qun;Liu, Yangming;Shang, Haihong;Li, Junwen;Yan, Haoliang;Pan, Jingtao;Shi, Yuzhen;Yuan, Youlu;Gong, Juwu;Yang, Rui;Wang, Yongbo;Gong, Juwu
关键词:Single segment introgression line; Fiber length; BSA; Fine mapping; GhALMT12_A12
