Digital Inventory of Arabidopsis Transcripts Revealed by 61 RNA Sequencing Samples

文献类型: 外文期刊

第一作者: Sun, Xiaoyong

作者: Sun, Xiaoyong;Yang, Qiuying;Deng, Zhiping;Ye, Xinfu

作者机构:

关键词: Digital;Inventory;of;Arabidopsis

期刊名称:PLANT PHYSIOLOGY ( 影响因子:8.34; 五年影响因子:8.972 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Alternative splicing is an essential biological process to generate proteome diversity and phenotypic complexity. Recent improvements in RNA sequencing accuracy and computational algorithms have provided unprecedented opportunities to examine the expression levels of Arabidopsis (Arabidopsis thaliana) transcripts. In this article, we analyzed 61 RNA sequencing samples from 10 totally independent studies of Arabidopsis and calculated the transcript expression levels in different tissues, treatments, developmental stages, and varieties. These data provide a comprehensive profile of Arabidopsis transcripts with single-base resolution. We quantified the expression levels of 40,745 transcripts annotated in The Arabidopsis Information Resource 10, comprising 73% common transcripts, 15% rare transcripts, and 12% nondetectable transcripts. In addition, we investigated diverse common transcripts in detail, including ubiquitous transcripts, dominant/subordinate transcripts, and switch transcripts, in terms of their expression and transcript ratio. Interestingly, alternative splicing was the highly enriched function for the genes related to dominant/subordinate transcripts and switch transcripts. In addition, motif analysis revealed that TC motifs were enriched in dominant transcripts but not in subordinate transcripts. These motifs were found to have a strong relationship with transcription factor activity. Our results shed light on the complexity of alternative splicing and the diversity of the contributing factors.

分类号: Q945

  • 相关文献

[1]ZmFKBP20-1 improves the drought and salt tolerance of transformed Arabidopsis. Yu, Yanli,Li, Yanjiao,Zhao, Meng,Li, Wencai,Sun, Qi,Li, Wenlan,Meng, Zhaodong,Jia, Fengjuan,Jia, Fengjuan,Li, Nana. 2017

[2]Functional characterization of GhSOC1 and GhMADS42 homologs from upland cotton (Gossypium hirsutum L.). Xiaohong Zhang,Jianghui wei,Shuli Fan,Meizhen Song,Chaoyou Pang,Hengling Wei,Chengshe Wang,Shuxun Yu. 2016

[3]A novel GhBEE1-Like gene of cotton causes anther indehiscence in transgenic Arabidopsis under uncontrolled transcription level. Eryong Chen;Xiaoqian Wang,Zhang, Xueyan,Qian Gong,Hamama Islam Butt,Yanli Chen,Chaojun Zhang,Zuoren Yang,Zhixia Wu,Xiaoyang Ge,Xianlong Zhang,Fuguang Li,Xueyan Zhang.

[4]Jasmonate inhibits COP1 activity to suppress hypocotyl elongation and promote cotyledon opening in etiolated Arabidopsis seedlings. Zheng, Yuyu,Zhu, Ziqiang,Cui, Xuefei,Gong, Qingqiu,Su, Liang,Yang, Jianping,Fang, Shuang,Chu, Jinfang. 2017

[5]Molecular dynamics simulations reveal the disparity in specific recognition of GCC-box by AtERFs transcription factors super family in Arabidopsis. Wang, Shichen,Yang, Shuo,Hao, Dongyun,Yin, Yuejia,Hao, Dongyun,Xi, Jinghui,Li, Shanyu. 2009

[6]A pair of light signaling factors FHY3 and FAR1 regulates plant immunity by modulating chlorophyll biosynthesis. Wang, Wanqing,Tang, Weijiang,Ma, Tingting,Lin, Rongcheng,Niu, De,Jin, Jing Bo,Wang, Haiyang,Lin, Rongcheng. 2016

[7]Glucose alleviates cadmium toxicity by increasing cadmium fixation in root cell wall and sequestration into vacuole in Arabidopsis. Shi, Yuan-Zhi,Shi, Yuan-Zhi,Shi, Yuan-Zhi,Wan, Jiang-Xue,Zheng, Shao-Jian,Zhu, Xiao-Fang,Li, Gui-Xin. 2015

[8]The Blue Light-Dependent Phosphorylation of the CCE Domain Determines the Photosensitivity of Arabidopsis CRY2. Wang, Qin,Wang, Qin,He, Reqing,Liu, Xuanming,Zhao, Xiaoying,Barshop, William D.,Vashisht, Ajay A.,Wohlschlegel, James A.,Bian, Mingdi,Liu, Bin,Wang, Qin,Yu, Xuhong,Nguyen, Paula,Lin, Chentao. 2015

[9]AtCPK6, a functionally redundant and positive regulator involved in salt/drought stress tolerance in Arabidopsis. Xu, Jing,Tian, Yong-Sheng,Peng, Ri-He,Xiong, Ai-Sheng,Zhu, Bo,Jin, Xiao-Fen,Gao, Feng,Fu, Xiao-Yan,Yao, Quan-Hong,Xu, Jing,Hou, Xi-Lin. 2010

[10]MPK3/MPK6 are involved in iron deficiency-induced ethylene production in Arabidopsis. Ye, Lingxiao,Li, Lin,Wang, Lu,Wang, Shoudong,Li, Sen,Du, Juan,Zhang, Shuqun,Shou, Huixia,Wang, Lu. 2015

[11]Somatic embryogenesis receptor-like kinase 5 in the ecotype Landsberg erecta of Arabidopsis is a functional RD LRR-RLK in regulating brassinosteroid signaling and cell death control. Wu, Wangze,Wu, Yujun,Gao, Yang,Li, Meizhen,Yin, Hongju,Lv, Minghui,Zhao, Jianxin,Li, Jia,He, Kai,Wu, Wangze. 2015

[12]Ethylene Regulates Levels of Ethylene Receptor/CTR1 Signaling Complexes in Arabidopsis thaliana. Shakeel, Samina N.,Gao, Zhiyong,Amir, Madiha,Chen, Yi-Feng,Rai, Muneeza Iqbal,Ul Haq, Noor,Schaller, G. Eric,Shakeel, Samina N.,Amir, Madiha,Rai, Muneeza Iqbal,Ul Haq, Noor,Chen, Yi-Feng. 2015

[13]The Arabidopsis J-protein AtDjB1 facilitates thermotolerance by protecting cells against heat-induced oxidative damage. Zhou, Wei,Zhou, Ting,Li, Mi-Xin,Zhao, Chun-Lan,Jia, Ning,Wang, Xing-Xing,Sun, Yong-Zhen,Xu, Meng,Li, Bing,Zhou, Wei,Li, Guo-Liang,Zhou, Ren-Gang,Zhou, Wei. 2012

[14]Arabidopsis is Susceptible to Rice stripe virus Infections. Sun, Feng,Yuan, Xia,Zhou, Tong,Fan, Yongjian,Zhou, Yijun,Yuan, Xia. 2011

[15]Regulation of Leaf Morphology by MicroRNA394 and its Target LEAF CURLING RESPONSIVENESS. Song, Jian Bo,Huang, Si Qi,Yang, Zhi Min,Dalmay, Tamas,Huang, Si Qi. 2012

[16]Reproduction and In-Depth Evaluation of Genome-Wide Association Studies and Genome-Wide Meta-analyses Using Summary Statistics. Niu, Yao-Fang,Guo, Long-Biao,Ye, Chengyin,Zheng, Hou-Feng,He, Ji,Han, Fang,Zheng, Hou-Feng,Chen, Guo-Bo. 2017

[17]microRNA/microRNA* complementarity is important for the regulation pattern of NFYA5 by miR169 under dehydration shock in Arabidopsis. Du, Qingguo,Gao, Wei,Sun, Suzhen,Li, Wen-Xue,Zhao, Meng. 2017

[18]Disruption of AtWNK8 Enhances Tolerance of Arabidopsis to Salt and Osmotic Stresses via Modulating Proline Content and Activities of Catalase and Peroxidase. Zhang, Baige,Liu, Kaidong,Zheng, Yan,Wang, Yingxiang,Wang, Jinxiang,Liao, Hong,Zhang, Baige,Liu, Kaidong,Wang, Jinxiang. 2013

[19]Phosphoinositide-specific phospholipase C9 is involved in the thermotolerance of Arabidopsis. Zheng, Shu-Zhi,Liu, Yu-Liang,Li, Bing,Shang, Zhong-lin,Sun, Da-Ye,Zhou, Ren-Gang. 2012

[20]Distinguishing transgenic from non-transgenic Arabidopsis plants by H-1 NMR-based metabolic fingerprinting. Xia, Bin,Ren, Yanfei,Qu, Li-Jia,Peng, Yufa. 2009

作者其他论文 更多>>
  • The m6A reader SlYTH2 negatively regulates tomato fruit aroma by impeding the translation process

    作者:Bian, Hanxiao;Gao, Ying;Wang, Hanqing;Ye, Bingbing;Chen, Kunsong;Klee, Harry J.;Zhang, Bo;Song, Peizhe;Cai, Zhihe;Jia, Guifang;Gao, Ying;Deng, Zhiping;Huang, Chenyang;Liu, Jianzhao;Yu, Lei;Gao, Xiangwei;Pan, Yu;Wang, Fengqin;Jia, Guifang;Jia, Guifang;Zhang, Bo

    关键词:phase separation; translation repression; RNA methylation; flavor quality

  • The kiwifruit amyloplast proteome (kfALP): a resource to better understand the mechanisms underlying amyloplast biogenesis and differentiation

    作者:Li, Ang;Lin, Jiajia;Zeng, Zhebin;Chen, Xiaoya;Ding, Gang;Zhu, Man;Xu, Bin;Cheng, Yunjiang;Deng, Xiuxin;Zeng, Yunliu;Deng, Zhiping;Tan, Jinjuan;Atkinson, Ross G.;Nieuwenhuizen, Niels J.;Ampomah-Dwamena, Charles

    关键词:Actinidia; amyloplast biogenesis; amyloplast differentiation; plastids; development; fruit quality; ripening

  • EGR1 and EGR2 positively regulate plant ABA signaling by modulating the phosphorylation of SnRK2.2

    作者:Li, Chuanling;Li, Xuetong;Song, Yuning;Liu, Xinye;Li, Ziye;Zhang, Ya;Zhang, Baowen;Tang, Wenqiang;Shang, Jian-Xiu;Sun, Yu;Li, Chuanling;Deng, Zhiping;Tang, Xiaohan Alex

    关键词:abscisic acid; Arabidopsis thaliana; EGR1; EGR2; protein phosphorylation; serine 31; SnRK2.2

  • The tRNA thiolation-mediated translational control is essential for plant immunity

    作者:Zheng, Xueao;Chen, Hanchen;Wu, Yujing;Wu, Chong;Yu, Xiaodan;Yan, Shunping;Zheng, Xueao;Chen, Qiansi;Zheng, Xueao;Chen, Hanchen;Wu, Yujing;Wu, Chong;Yu, Xiaodan;Yan, Shunping;Zheng, Xueao;Chen, Hanchen;Wu, Yujing;Wu, Chong;Yu, Xiaodan;Yan, Shunping;Zheng, Xueao;Chen, Hanchen;Wu, Yujing;Wu, Chong;Yu, Xiaodan;Yan, Shunping;Zheng, Xueao;Chen, Hanchen;Wu, Yujing;Wu, Chong;Yu, Xiaodan;Yan, Shunping;Deng, Zhiping;Zhong, Linlin

    关键词:plant immunity; translation; tRNA thiolation; NPR1; Arabidopsis; A. thaliana

  • Integrated transcriptome and metabolome analyses shed light on the defense mechanisms in tomato plants after (E)-2-hexenal fumigation

    作者:Zhang, Jihong;Liang, Quanwu;Li, Yuqiong;Song, Ge;Wang, Haihua;Yan, Mingli;Deng, Zhiping;Wang, Xuewen

    关键词:Tomato ( Solanum lycopersicum ); (E)-2-hexenal; Metabolomic; Transcriptomic; Amino acid biosynthesis

  • YTHDF2-mediated regulations bifurcate BHPF-induced programmed cell deaths

    作者:Lin, Jiebo;Zhan, Guankai;Liu, Jinfeng;Maimaitiyiming, Yasen;Su, Kunhui;Chen, Jiafeng;Sun, Siqi;Wang, Lingfang;Zhang, Jian;He, Wentao;Wu, Hengyu;Hsu, Chih-Hung;Lin, Jiebo;Zhan, Guankai;Liu, Jinfeng;Maimaitiyiming, Yasen;Su, Kunhui;Chen, Jiafeng;Sun, Siqi;Wang, Lingfang;Zhang, Jian;He, Wentao;Wu, Hengyu;Hsu, Chih-Hung;Lin, Jiebo;Zhan, Guankai;Liu, Jinfeng;Maimaitiyiming, Yasen;Su, Kunhui;Chen, Jiafeng;Sun, Siqi;He, Feng;Wang, Lingfang;Zhang, Jian;He, Wentao;Wu, Hengyu;Ma, Jun;Xu, Peng-Fei;Hsu, Chih-Hung;Liu, Jinfeng;Yao, Ziqin;Yang, Xinquan;Wang, Fudi;Maimaitiyiming, Yasen;Naranmandura, Hua;Maimaitiyiming, Yasen;Naranmandura, Hua;Deng, Zhiping;Li, Baohua;Zheng, Wanlin;Yu, Xianghui;He, Feng;Ma, Jun;Xu, Peng-Fei;Zheng, Wanlin;Yu, Xianghui;He, Feng;Ma, Jun;Xu, Peng-Fei;Zheng, Wanlin;Yu, Xianghui;He, Feng;Ma, Jun;Cheng, Xiaodong;Wang, Lingfang;Shen, Bin;Yao, Ziqin;Yang, Xinquan;Wang, Fudi;Chang, Kao-Jung;Min, Junxia;Bjoerklund, Mikael;Bjoerklund, Mikael

    关键词:RNA m(6)A modification; programmed cell deaths; bifurcation role of YTHDF2; environmental stress and m(6)A regulation; fluorene-9-bisphenol (BHPF)

  • Decoding plant adaptation: deubiquitinating enzymes UBP12 and UBP13 in hormone signaling, light response, and developmental processes

    作者:Feng, Hanqian;Tan, Jinjuan;Deng, Zhiping

    关键词:Circadian clock; deubiquitinase; deubiquitination; light signaling; phytohormone; polycomb group proteins; senescence; ubiquitination; ubiquitin-specific protease

微信小程序