Genome-Wide Identification and Expression Analysis of MYC Transcription Factor Family Genes in Rubber Tree (Hevea brasiliensis Muell. Arg.)
文献类型: 外文期刊
作者: Zhang, Shi-Xin 1 ; Wu, Shao-Hua 1 ; Chao, Jin-Quan 1 ; Yang, Shu-Guang 1 ; Bao, Jie 1 ; Tian, Wei-Min 1 ;
作者机构: 1.CATAS, State Key Lab Incubat Base Cultivat & Physiol Tro, Key Lab Biol & Genet Resources Rubber Tree, Minist Agr & Rural Affairs,Minist Agr,Rubber Res, Haikou 571100, Hainan, Peoples R China
关键词: Hevea brasiliensis; MYC transcriptional factor; jasmonate; laticifer differentiation; rubber biosynthesis
期刊名称:FORESTS ( 影响因子:3.282; 五年影响因子:3.292 )
ISSN:
年卷期: 2022 年 13 卷 4 期
页码:
收录情况: SCI
摘要: Myelocytomatosis (MYC) transcription factors play a core regulator in the jasmonic acid signaling pathway, which regulates the secondary laticifer differentiation and rubber biosynthesis in rubber tree (Hevea brasiliensis). However, there are currently no reports on the MYC gene family in rubber trees, an important industrial raw material crop worldwide. In the present study, 32 HblMYCs were isolated and identified. The diversity in gene structure and presence of various cis-regulatory elements in promotors suggest that HblMYCs participate in various biological processes. Based on the expression patterns in the cambium region and laticifer in, respectively, response to coronatine (COR) and tapping, and the phylogenetic relationship with the MYCs that have been functionally identified in other plants, the HblMYC24 and HblMYC30 may be related to laticifer differentiation while the HblMYC6, HblMYC11 and HblMYC15, as well as HblMYC16 and HblMYC21, may positively regulate rubber biosynthesis. The results provide a foundation for understanding the molecular mechanism of jasmonate signaling in regulating laticifer differentiation and rubber biosynthesis in rubber tree.
- 相关文献
作者其他论文 更多>>
-
Genomic insight into domestication of rubber tree
作者:Chao, Jinquan;Wu, Shaohua;Shi, Minjing;Yang, Shuguang;Zhang, Shixin;Deng, Xiaomin;Gao, Xinsheng;Zhang, Xiaofei;Hu, Yanshi;Zeng, Xia;Li, Weiguo;Tian, Wei-Min;Chao, Jinquan;Wu, Shaohua;Shi, Minjing;Yang, Shuguang;Zhang, Shixin;Deng, Xiaomin;Huang, Xiao;Gao, Xinsheng;Zhang, Xiaofei;Hu, Yanshi;Zeng, Xia;Li, Weiguo;Wu, Jilin;Hao, Bingzhong;Tian, Wei-Min;Chao, Jinquan;Wu, Shaohua;Shi, Minjing;Yang, Shuguang;Zhang, Shixin;Li, Yan;Deng, Xiaomin;Huang, Xiao;Gao, Xinsheng;Zhang, Xiaofei;Hu, Yanshi;Zeng, Xia;Li, Weiguo;Wu, Jilin;Hao, Bingzhong;Tian, Wei-Min;Xu, Xia;Du, Huilong;Fan, Xiuli;Hai, Chunyan;Kou, Liquan;Yu, Hong;Li, Jiayang;Liang, Chengzhi;Gao, Qiang;Zhang, Liangsheng;Gao, Qiang;Du, Huilong;Du, Huilong;Fan, Xiuli;Hai, Chunyan;Li, Jiayang;Liang, Chengzhi;Gao, Bin;Guo, Dong;Peng, Shiqing;Zhang, Jiao;Wang, Zhiwei;Li, Yan;Xue, Wenbo;Xu, Jiang;Wang, Xuchu;Li, Jiayang
关键词:
-
Differential miRNA expression profiling reveals a correlation between hbr-miR156 and laticifer differentiation in rubber trees
作者:Wu, Shaohua;Zhang, Shixin;Chao, Jinquan;Li, Yan;Yang, Shuguang;Deng, Xiaomin;Shi, Minjing;Tian, Wei-Min
关键词:Small RNA deep sequencing; Laticifer differentiation; Vascular cambia; miRNA; miR156
-
Database Resources of the National Genomics Data Center, China National Center for Bioinformation in 2023
作者:Xue, Yongbiao;Bao, Yiming;Zhang, Zhang;Zhao, Wenming;Xiao, Jingfa;Ma, Yingke;Chen, Meili;Li, Cuiping;Jiang, Shuai;Zou, Dong;Gong, Zheng;Zhao, Xue-tong;Wang, Yanqing;Zhu, Junwei;Song, Shuhui;Duan, Guangya;Wu, Gangao;Chen, Xiaoning;Tian, Dongmei;Li, Zhaohua;Sun, Yan-ling;Du, Zhenglin;Hao, Lili;Gao, Yuan;Tang, Bixia;Zhang, Yadong;Zhang, Hao;Qian, Qiheng;Zhang, Zhewen;Kang, Hailong;Huang, Tianhao;Wang, Zhonghuang;Zhu, Jun-wei;Zhang, Sisi;Wang, Wenquan;Wu, Song;Zhang, Mochen;Wang, Guoliang;Zheng, Xin-chang;Zong, Wenting;Zhao, Wei;Li, Rujiao;Lu, Mingming;Yang, Fengchun;Mai, Jialin;Gao, Qianwen;Shang, Yunfei;Qain, Qiheng;Jiang, Meiye;Bu, Congfan;Zeng, Jingyao;Li, Jiao;Zheng, Xinchang;Sun, Yanling;Xiong, Zhuang;Yang, Fei;Chen, Xu;Chen, Tingting;Yu, Caixia;Dong, Lili;Zhai, Shuang;Sun, Yubin;Chen, Qiancheng;Yang, Xiaoyu;Zhang, Xin;Sang, Zhengqi;Wang, Yonggang;Zhao, Yilin;Chen, Huanxin;Lan, Li;Wang, Yan-qing;Wang, Anke;Jia, Yaokai;Zhao, Xuetong;Pan, Yitong;Liu, Xiaonan;Zhang, Rongqin;Wang, Yi;Ma, Lina;Teng, Xufei;Li, Lun;Li, Na;Cui, Ying;Jin, Tong;Jin, Enhui;Zhang, Tao;Xu, Tianyi;Chen, Ming;Niu, Guangyi;Pan, Rong;Zhu, Tongtong;Chu, Yuan;Sang, Jian;Zhang, Yuan-sheng;Zhang, Xinran;Guo, Xutong;Li, Zhao;Liu, Lin;Feng, Changrui;Qin, Yuxin;Jing, Wei;Luo, Sicheng;Zhu, Tong-tong;Zhang, Yuansheng;Wu, Zis-han;Li, Qianpeng;Fan, Zhuojing;Zhao, Wen-ming;Xue, Yongbiao;Bao, Yiming;Zhang, Zhang;Zhao, Wenming;Xiao, Jingfa;Ma, Yingke;Chen, Meili;Li, Cuiping;Jiang, Shuai;Zou, Dong;Gong, Zheng;Zhao, Xue-tong;Wang, Yanqing;Zhu, Junwei;Song, Shuhui;Duan, Guangya;Wu, Gangao;Chen, Xiaoning;Tian, Dongmei;Li, Zhaohua;Sun, Yan-ling;Du, Zhenglin;Hao, Lili;Gao, Yuan;Tang, Bixia;Zhang, Yadong;Zhang, Hao;Qian, Qiheng;Zhang, Zhewen;Kang, Hailong;Huang, Tianhao;Wang, Zhonghuang;Zhu, Jun-wei;Zhang, Sisi;Wang, Wenquan;Wu, Song;Zhang, Mochen;Wang, Guoliang;Zheng, Xin-chang;Zong, Wenting;Zhao, Wei;Li, Rujiao;Lu, Mingming;Yang, Fengchun;Mai, Jialin;Gao, Qianwen;Shang, Yunfei;Qain, Qiheng;Jiang, Meiye;Bu, Congfan;Zeng, Jingyao;Li, Jiao;Zheng, Xinchang;Sun, Yanling;Xiong, Zhuang;Yang, Fei;Chen, Xu;Chen, Tingting;Yu, Caixia;Dong, Lili;Zhai, Shuang;Sun, Yubin;Chen, Qiancheng;Yang, Xiaoyu;Zhang, Xin;Sang, Zhengqi;Wang, Yonggang;Zhao, Yilin;Chen, Huanxin;Lan, Li;Wang, Yan-qing;Wang, Anke;Jia, Yaokai;Zhao, Xuetong;Pan, Yitong;Liu, Xiaonan;Zhang, Rongqin;Wang, Yi;Ma, Lina;Teng, Xufei;Li, Lun;Li, Na;Cui, Ying;Jin, Tong;Jin, Enhui;Zhang, Tao;Xu, Tianyi;Chen, Ming;Niu, Guangyi;Pan, Rong;Zhu, Tongtong;Chu, Yuan;Sang, Jian;Zhang, Yuan-sheng;Zhang, Xinran;Guo, Xutong;Li, Zhao;Liu, Lin;Feng, Changrui;Qin, Yuxin;Jing, Wei;Luo, Sicheng;Zhu, Tong-tong;Zhang, Yuansheng;Wu, Zis-han;Li, Qianpeng;Fan, Zhuojing;Zhao, Wen-ming;Xue, Yongbiao;Bao, Yiming;Zhang, Zhang;Zhao, Wenming;Xiao, Jingfa;Ma, Yingke;Chen, Meili;Li, Cuiping;Jiang, Shuai;Zou, Dong;Gong, Zheng;Zhao, Xue-tong;Wang, Yanqing;Zhu, Junwei;Song, Shuhui;Duan, Guangya;Wu, Gangao;Chen, Xiaoning;Tian, Dongmei;Li, Zhaohua;Sun, Yan-ling;Du, Zhenglin;Hao, Lili;Gao, Yuan;Tang, Bixia;Zhang, Yadong;Zhang, Hao;Qian, Qiheng;Zhang, Zhewen;Kang, Hailong;Huang, Tianhao;Wang, Zhonghuang;Zhu, Jun-wei;Zhang, Sisi;Wu, Song;Huang, Yue;Zhang, Mochen;Wang, Guoliang;Zheng, Xin-chang;Zong, Wenting;Zhao, Wei;Xing, Peiqi;Li, Rujiao;Liu, Zhaoqi;Lu, Mingming;Mai, Jialin;Gao, Qianwen;Shang, Yunfei;Qain, Qiheng;Jiang, Meiye;Bu, Congfan;Zeng, Jingyao;Pan, Siyu;Kang, Hongen;Liu, Xinxuan;Lin, Shiqi;Yuan, Na;Jia, Peilin;Zheng, Xinchang;Sun, Yanling;Xiong, Zhuang;Yang, Fei;Chen, Xu;Chen, Tingting;Yu, Caixia;Dong, Lili;Zhai, Shuang;Sun, Yubin;Chen, Qiancheng;Yang, Xiaoyu;Zhang, Xin;Sang, Zhengqi;Wang, Yonggang;Zhao, Yilin;Chen, Huanxin;Lan, Li;Wang, Yan-qing;Wang, Anke;Jia, Yaokai;Zhao, Xuetong;Pan, Yitong;Liu, Xiaonan;Zhang, Rongqin;Wang, Yi;Ma, Lina;Teng, Xufei;Li, Lun;Li, Na;Cui, Ying;Jin, Tong;Jin, Enhui;Zhang, Tao;Xu, Tianyi;Chen, Ming;Niu, Guangyi;Pan, Rong;Zhu, Tongtong;Chu, Yuan;Sang, Jian;Zhang, Yuan-sheng;Zhang, Xinran;Guo, Xutong;Li, Zhao;Liu, Lin;Feng, Changrui;Qin, Yuxin;Jing, Wei;Luo, Sicheng;Zhu, Tong-tong;Zhang, Yuansheng;Wu, Zis-han;Li, Qianpeng;Fan, Zhuojing;Zhao, Wen-ming;Xue, Yongbiao;Bao, Yiming;Zhang, Zhang;Zhao, Wenming;Xiao, Jingfa;He, Shun-min;Li, Yixue;Zhao, Guoping;Gong, Zheng;Zhao, Xue-tong;Song, Shuhui;Duan, Guangya;Wu, Gangao;Chen, Xiaoning;Li, Zhaohua;Gao, Yuan;Zhang, Hao;Qian, Qiheng;Kang, Hailong;Huang, Tianhao;Wang, Zhonghuang;Wu, Song;Huang, Yue;Zhang, Mochen;Wang, Guoliang;Zong, Wenting;Zhao, Wei;Li, Rujiao;Liu, Zhaoqi;Lu, Mingming;Mai, Jialin;Gao, Qianwen;Shang, Yunfei;Qain, Qiheng;Jiang, Meiye;Pan, Siyu;Kang, Hongen;Lin, Shiqi;Xiong, Zhuang;Yang, Fei;Pan, Yitong;Liu, Xiaonan;Zhang, Rongqin;Wang, Yi;Ma, Lina;Teng, Xufei;Cui, Ying;Jin, Tong;Jin, Enhui;Zhang, Tao;Chen, Ming;Niu, Guangyi;Pan, Rong;Zhu, Tongtong;Chu, Yuan;Sang, Jian;Zhang, Yuan-sheng;Zhang, Xinran;Guo, Xutong;Li, Zhao;Feng, Changrui;Qin, Yuxin;Jing, Wei;Zhu, Tong-tong;Zhang, Yuansheng;Wu, Zis-han;Li, Qianpeng;Zhao, Wen-ming;Yuan, Hao;Su, Tianhan;Zhang, Yong E.;Liao, Xingyu;He, Shun-min;Chen, Runsheng;Yang, Fengchun;Li, Jiao;Liao, Xingyu;He, Shun-min;Chen, Runsheng;Yang, Fengchun;Li, Jiao;Liao, Xingyu;Zhang, Guoqing;Li, Yixue;Zhao, Guoping;Ling, Yunchao;Wang, Yiwei;Yang, Jiaxin;Zhuang, Xinhao;Liu, Wan;Cao, Ruifang;Zhang, Guo-qing;Zhou, Chenfen;Wang, Pengyu;Zhang, Guoqing;Li, Yixue;Zhao, Guoping;Ling, Yunchao;Wang, Yiwei;Yang, Jiaxin;Zhuang, Xinhao;Liu, Wan;Cao, Ruifang;Zhang, Guo-qing;Zhou, Chenfen;Wang, Pengyu;Zhao, Guoping;Zhao, Guoping;Chen, Runsheng;Zhang, Zaichao;Xia, Zhiqiang;Zhou, Xincheng;Chao, Jin-quan;Tian, Weimin;Huang, Yue;Xing, Peiqi;Liu, Zhaoqi;Pan, Siyu;Kang, Hongen;Liu, Xinxuan;Lin, Shiqi;Yuan, Na;Jia, Peilin;Xu, Xiaowei;Kang, Hongyu;Hou, Li;Gao, Qianwen;Liu, Jie;Wang, Jinyue;Liu, Xinxuan;Zhang, Yuanpu;Wang, Zhennan;Yuan, Hao;Su, Tianhan;Zhang, Yong E.;Wang, Zhennan;Yuan, Hao;Su, Tianhan;Zhang, Yong E.;Yao, Qiliang;Luo, Sicheng;Shen, Wen-Kang;Guo, An-Yuan;Liu, Dan;Zhang, Chi;Xue, Yu;Gou, Yujie;Chen, Miaomiao;Peng, Di;Ning, Wanshan;Wei, Yuxiang;Liu, Chun-Jie;Xie, Gui-Yan;Zhang, Qiong;Fu, Shanshan;Tan, Xiaodan;Tang, Dachao;Zhang, Weizhi;Luo, Mei;Miao, Ya-Ru;Huang, Xinhe;Feng, Zihao;Xie, Guiyan;Han, Cheng;Tang, Qing;Zuo, Zhixiang;Ren, Jian;Xie, Yubin;Luo, XiaoTong;Zhang, Xinxin;Xiao, Yun;Li, Xia;Zhao, Zheng;Jiang, Tao;Wu, Wanying;Zhao, Fangqing;Chen, Ming;Meng, Xianwen;Zhou, Yincong;Yuan, Chunhui;Wu, Wenyi;Chen, Ming;Meng, Xianwen;Zhou, Yincong;Yuan, Chunhui;Wu, Wenyi;Luo, Hao;Gao, Feng;Luo, Hao;Gao, Feng;Luo, Hao;Gao, Feng;Luo, Hao;Gao, Feng;Zhang, Yong E.;Guo, Guoji;Gao, Xin;Liao, Xingyu;Wang, Jianxin;Yang, Dechang;Tian, Feng;Gao, Ge;Yang, Dechang;Tian, Feng;Gao, Ge;Cui, Qinghua;Cui, Qinghua;Xiao, Chunfu;Li, Chuan-Yun;Liu, Pei;Sun, Yongqing;Sang, Jian
关键词:
-
HbARF2 and HbARF16.3 function as negative regulators for the radial trunk growth of rubber tree
作者:Li, Yan;Yang, Shuguang;Shi, Minjing;Zhang, Shixin;Wu, Shaohua;Chen, Yueyi;Li, Weiguo;Tian, Wei-Min
关键词:Hevea brasiliensis Muell. Arg; Auxin response factor; Radial trunk growth; Tapping; Transgenic tobacco
-
Genome-Wide Identification and Characterization of the JAZ Gene Family in Rubber Tree (Hevea brasiliensis)
作者:Chao, Jinquan;Wu, Shaohua;Deng, Xiaomin;Chen, Yueyi;Tian, Wei-Min;Zhao, Yue;Jin, Jie
关键词:Hevea brasiliensis Muchll. Arg.; natural rubber biosynthesis; JAZ identification; laticifer differentiation; vascular cambium region
-
The formation and accumulation of protein-networks by physical interactions in the rapid occlusion of laticifer cells in rubber tree undergoing successive mechanical wounding
作者:Shi, Minjing;Li, Yan;Deng, Shunnan;Wang, Dongdong;Chen, Yueyi;Yang, Shuguang;Wu, Jilin;Tian, Wei-Min;Shi, Minjing;Li, Yan;Deng, Shunnan;Wang, Dongdong;Chen, Yueyi;Yang, Shuguang;Wu, Jilin;Tian, Wei-Min;Deng, Shunnan
关键词:Hevea brasilensis Muell; Arg; Laticifer cell; Protein-network; Protein interaction; Cytoskeleton; Mechanical wounding
-
Genome-Wide Identification and Characterization of Heat-Shock Transcription Factors in Rubber Tree
作者:Li, Yan;Li, Yan;Chen, Yueyi;Yang, Shuguang;Wu, Shaohua;Chao, Jinquan;Wang, Xinlong;Tian, Wei-Min;Li, Yan;Chen, Yueyi;Yang, Shuguang;Wu, Shaohua;Chao, Jinquan;Wang, Xinlong;Tian, Wei-Min;Yu, Wencai
关键词:Hevea brasiliensis Muell; Arg; heat-shock transcription factor; cold stress; cold-sensitive rubber-tree clones; cold-tolerant rubber-tree clones
