Transcriptional Regulation and Transport of Terpenoid Indole Alkaloid in Catharanthus roseus: Exploration of New Research Directions

文献类型: 外文期刊

第一作者: Yang, Shihai

作者: Yang, Shihai;Liu, Jiaqi;Wang, Rui;Cai, Junjun

作者机构:

关键词: terpenoid indole alkaloids;biosynthesis;transcription factor;transporter;regulatory network;compartmentation

期刊名称:INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES ( 影响因子:5.923; 五年影响因子:6.132 )

ISSN: 1422-0067

年卷期: 2017 年 18 卷 1 期

页码:

收录情况: SCI

摘要: As one of the model medicinal plants for exploration of biochemical pathways and molecular biological questions on complex metabolic pathways, Catharanthus roseus synthesizes more than 100 terpenoid indole alkaloids (TIAs) used for clinical treatment of various diseases and for new drug discovery. Given that extensive studies have revealed the major metabolic pathways and the spatial-temporal biosynthesis of TIA in C. roseus plant, little is known about subcellular and inter-cellular trafficking or long-distance transport of TIA end products or intermediates, as well as their regulation. While these transport processes are indispensable for multi-organelle, -tissue and -cell biosynthesis, storage and their functions, great efforts have been made to explore these dynamic cellular processes. Progress has been made in past decades on transcriptional regulation of TIA biosynthesis by transcription factors as either activators or repressors; recent studies also revealed several transporters involved in subcellular and inter-cellular TIA trafficking. However, many details and the regulatory network for controlling the tissue-or cell-specific biosynthesis, transport and storage of serpentine and ajmalicine in root, catharanthine in leaf and root, vindoline specifically in leaf and vinblastine and vincristine only in green leaf and their biosynthetic intermediates remain to be determined. This review is to summarize the progress made in biosynthesis, transcriptional regulation and transport of TIAs. Based on analysis of organelle, tissue and cell-type specific biosynthesis and progresses in transport and trafficking of similar natural products, the transporters that might be involved in transport of TIAs and their synthetic intermediates are discussed; according to transcriptome analysis and bioinformatic approaches, the transcription factors that might be involved in TIA biosynthesis are analyzed. Further discussion is made on a broad context of transcriptional and transport regulation in order to guide our future research.

分类号:

  • 相关文献

[1]A Novel AP2/ERF Transcription Factor CR1 Regulates the Accumulation of Vindoline and Serpentine in Catharanthus roseus. Gao, Fangyuan,Ren, Juansheng,Lu, Xianjun,Ren, Guangjun,Wang, Rui. 2017

[2]Intracellular compartmentation and membrane permeability to sugars and acids at different growth stages of peach. Jiang, Fengchao,Wang, Yuzhu,Ma, Lvyi,Jiang, Fengchao,Wang, Yuzhu,Sun, Haoyuan,Yang, Li,Zhang, Junhuan. 2013

[3]Subcellular Distribution and Mechanism of Detoxifying Arsenic in Porphyra Yezoensis. Shang De-Rong,Zhang Ji-Hong,Zhao Yan-Fang,Zhai Yu-Xiu,Ning Jin-Song,Ding Hai-Yan,Sheng Xiao-Feng,Duan Yuan-Hui. 2013

[4]Cd accumulation and subcellular distribution in two ecotypes of Kyllinga brevifolia Rottb as affected by Cd treatments. Hao, Xiaoqing,Li, Tingxuan,Yu, Haiying,Zhang, Xizhou,Zheng, Zicheng,Chen, Guangdeng,Zhang, Shujin,Zhao, Li,Pu, Yong,Hao, Xiaoqing,Zhang, Shujin,Pu, Yong.

[5]Manipulating volatile emission in tobacco leaves by expressing Aspergillus niger beta-glucosidase in different subcellular compartments. Wei, S,Marton, I,Dekel, M,Shalitin, D,Lewinsohn, E,Bravdo, BA,Shoseyov, O.

[6]Protein-DNA interactions in the promoter region of the gene encoding diapause hormone and pheromone biosynthesis activating neuropeptide of the cotton bollworm, Helicoverpa armigera. Hong, B,Zhang, ZF,Tang, SM,Yi, YZ,Zhang, TY,Xu, WH.

[7]Genome-wide characterization of differentially expressed genes provides insights into regulatory network of heat stress response in radish (Raphanus sativus L.). Wang, Ronghua,Xu, Liang,Wang, Yan,Liu, Liwang,Wang, Ronghua,Mei, Yi,Guo, Jun,Zhu, Xianwen. 2018

[8]Evolution and functional divergence of monocarboxylate transporter genes in vertebrates. Liu, Qingpo,Dou, Shijuan,Wang, Guang'en,Li, Zhimin,Feng, Ying. 2008

[9]Advance in genetical genomics. Liu Xiu-Yan,Xie Zheng-Miao,Chen Hui-Zhe. 2006

[10]Parsing the Regulatory Network between Small RNAs and Target Genesin Ethylene Pathway in Tomato. Wang, Yunxiang,Wang, Qing,Gao, Lipu,Zuo, Jinhua,Wang, Yunxiang,Wang, Qing,Gao, Lipu,Zuo, Jinhua,Wang, Yunxiang,Wang, Qing,Gao, Lipu,Zuo, Jinhua,Wang, Yunxiang,Wang, Qing,Gao, Lipu,Zuo, Jinhua,Zhu, Benzhong,Ju, Zheng,Luo, Yunbo. 2017

[11]RNA-Seq-Based Transcriptome Profiling of Early Nitrogen Deficiency Response in Cucumber Seedlings Provides New Insight into the Putative Nitrogen Regulatory Network. Zhao, Wenchao,Yang, Xueyong,Yu, Hongjun,Jiang, Weijie,Sun, Na,Liu, Xiaoran,Liu, Xiaolin,Zhang, Xiaomeng,Wang, Yan,Gu, Xingfang,Zhao, Wenchao.

[12]Thiamine supplementation facilitates thiamine transporter expression in the rumen epithelium and attenuates high-grain-induced inflammation in low-yielding dairy cows. Pan, X. H.,Yang, L.,Xue, F. G.,Tang, Z. W.,Xiong, B. H.,Pan, X. H.,Beckers, Y.,Jiang, L. S..

[13]Comparative Transcriptional Profiling and Preliminary Study on Heterosis Mechanism of Super-Hybrid Rice. Song, Gui-Sheng,Zhai, Hong-Li,Peng, Yong-Gang,Zhang, Lei,Wei, Gang,Xiao, Yu-Guo,Wang, Lili,Chen, Yue-Jun,Wu, Bin,Chen, Bin,Zhang, Yu,Chen, Hua,Feng, Xiu-Jing,Gong, Wan-Kui,Liu, Yao,Yin, Zhi-Jie,Xu, Hong-Lin,Wei, Xiao-Li,Zhao, Xiao-Ling,Zhu, Zhen,Song, Gui-Sheng,Zhai, Hong-Li,Peng, Yong-Gang,Zhang, Lei,Wei, Gang,Xiao, Yu-Guo,Wang, Lili,Chen, Yue-Jun,Wu, Bin,Chen, Bin,Zhang, Yu,Chen, Hua,Feng, Xiu-Jing,Gong, Wan-Kui,Liu, Yao,Yin, Zhi-Jie,Xu, Hong-Lin,Wei, Xiao-Li,Zhao, Xiao-Ling,Lu, Cong-Ming,Zhu, Zhen,Wei, Gang,Chen, Xiao-Ying,Lu, Cong-Ming,Wang, Feng,Liu, Guo-Zhen,Ouwerkerk, Pieter B. F.,Hankemeier, Thomas,Reijmers, Theo,van der Heijden, Rob,van der Greef, Jan,Wang, Mei,van der Greef, Jan,Wang, Mei,van der Greef, Jan. 2010

[14]Phosphate deprivation decreases cadmium (Cd) uptake but enhances sensitivity to Cd by increasing iron (Fe) uptake and inhibiting phytochelatins synthesis in rice (Oryza sativa). Yang, Yongjie,Fu, Guanfu,Tao, Longxing,Chen, Ruijie,Xiong, Jie,Chen, Ruijie,Xiong, Jie.

[15]Quantitative Trait Transcripts Mapping Coupled with Expression Quantitative Trait Loci Mapping Reveal the Molecular Network Regulating the Apetalous Characteristic in Brassica napus L.. Yu, Kunjiang,Wang, Xiaodong,Chen, Feng,Peng, Qi,Chen, Song,Li, Hongge,Zhang, Wei,Fu, Sanxiong,Hu, Maolong,Long, Weihua,Zhang, Jiefu,Yu, Kunjiang,Chu, Pu,Guan, Rongzhan,Yu, Kunjiang. 2018

[16]Expression of OsAMT1 (1.1-1.3) in rice varieties differing in nitrogen accumulation. Zhao, S. P.,Ye, X. Z.,Zhao, S. P.,Shi, W. M..

[17]Iron deficiency stress can induce MxNRAMP1 protein endocytosis in M. xiaojinensis. Pan, Haifa,Wang, Yi,Zha, Qian,Yuan, Mudan,Yin, Lili,Wu, Ting,Zhang, Xinzhong,Xu, Xuefeng,Han, Zhenhai,Pan, Haifa.

[18]Responses to cadmium stress in two tomato genotypes differing in heavy metal accumulation. Zhao, Shouping,Zhang, Yongzhi,Ye, Xuezhu,Zhang, Qi,Xiao, Wendan.

[19]Identification of a UDP-glucose pyrophosphorylase from cotton (Gossypium hirsutum L.) involved in cellulose biosynthesis in Arabidopsis thaliana. Qinghua Wang,Xue Zhang,Fuguang Li,Yuxia Hou,Xingliang Liu,Xueyan Zhang.

[20]Optimization of culture conditions for violacein production by a new strain of Duganella sp B2. Jiang, Peixia,Lu, Yuan,Xing, Xin-Hui,Wang, Haisheng,Ruan, Zhiyong,Jiang, Ruibo,Lou, Kai,Wei, Dong. 2009

作者其他论文 更多>>

微信小程序