Molecular cloning and functional analysis of one ZEITLUPE homolog GmZTL3 in soybean

文献类型: 外文期刊

第一作者: Zhang, Xiao-Mei

作者: Zhang, Xiao-Mei;Fu, Yong-Fu;Xue, Zheng-Gang;Chen, Xin-Jian;Lei, Chen-Fang;Chen, Xin-Jian

作者机构:

关键词: ZEITLUPE (ZTL);Photoreceptor;Circadian clock;Flowering;Soybean

期刊名称:MOLECULAR BIOLOGY REPORTS ( 影响因子:2.316; 五年影响因子:2.357 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: ZEITLUPE (ZTL) plays an important role in the control of flowering time and photomorpogenesis in Arabidopsis and is highly conserved throughout the plant kingdom. Here, we report the characterization of a soybean ZTL homolog GmZTL3 (Glycine max ZTL 3). The absorption spectrum of the recombinant GmZTL3 proteins indicates that it may be a UV/blue photoreceptor. The GmZTL3 expression is independent of diurnal cycles and varies in different tissues along with developmental stages. Before the unifoliolates open fully, GmZTL3 transcripts concentrate in the roots and hypocotyls, while at flowering GmZTL3 accumulates at higher abundance in stems and petioles. Furthermore, the GmZTL3 mRNA accumulates in all kinds of leaves before flowering and concentrates in maturation seeds. In Arabidopsis, the ectopic expression of GmZTL3 delays flowering, implicating GmZTL3 is an inhibitor of flowering induction. Our data indicate that GmZTL3 probably functions as a photoreceptor and plays a role in multiple developmental processes, including the control of flowering time.

分类号: Q7

  • 相关文献

[1]Photoperiodism dynamics during the domestication and improvement of soybean. Zhang, Sheng-Rui,Wang, Zhongyu,Ren, Yao,Liu, Jun,Liu, Bin,Wang, Huan,Niu, Lifang,Ren, Yao. 2017

[2]Analysis of the independent- and interactive-photo-thermal effects on soybean flowering. Wu Ting-ting,Li Jin-yu,Wu Cun-xiang,Sun Shi,Mao Ting-ting,Jiang Bing-jun,Hou Wen-sheng,Han Tian-fu. 2015

[3]Blue-light-dependent interaction of cryptochrome 1 with SPA1 defines a dynamic signaling mechanism. He, Sheng-Bo,Zhang, Yan-Chun,Zhang, Jing-Yi,Jia, Kun-Peng,Li, Ling,Yang, Hong-Quan,Zhu, Dan-Meng,Sun, Shu-Xia. 2011

[4]Growth and nutritional properties of lettuce affected by different alternating intervals of red and blue LED irradiation. Chen, Xiao-li,Song, Wen-pin,Wang, Li-chun,Guo, Wen-zhong,Xue, Xu-zhang,Chen, Xiao-li,Yang, Qi-chang.

[5]Protective Effect of Proanthocyanidins from Sea Buckthorn (Hippophae Rhamnoides L.) Seed against Visible Light-Induced Retinal Degeneration in Vivo. Wang, Yong,Zhao, Liang,Huo, Yazhen,Zhou, Feng,Lu, Feng,Yang, Xue,Guo, Xiaoxuan,Ji, Baoping,Wu, Wei,Chen, Peng,Deng, Qianchun,Chen, Peng,Deng, Qianchun. 2016

[6]Protective Effect of Total Flavones from Hippophae rhamnoides L. against Visible Light-Induced Retinal Degeneration in Pigmented Rabbits. Wang, Yong,Zhao, Liang,Wang, Ou,Guo, Xiaoxuan,Lu, Feng,Yang, Xue,Ji, Baoping,Huang, Fenghong,Deng, Qianchun,Huang, Fenghong,Deng, Qianchun,Zhang, Di.

[7]Retinoprotective Effects of Bilberry Anthocyanins via Antioxidant, Anti-Inflammatory, and Anti-Apoptotic Mechanisms in a Visible Light-Induced Retinal Degeneration Model in Pigmented Rabbits. Wang, Yong,Zhao, Liang,Lu, Feng,Yang, Xue,Ji, Baoping,Deng, Qianchun,Huang, Fenghong,Deng, Qianchun,Huang, Fenghong.

[8]Comparison of transcriptome under red and blue light culture of Saccharina japonica (Phaeophyceae). Wang, Wen-Jun,Wang, Fei-Jiu,Sun, Xiu-Tao,Liu, Fu-Li,Liang, Zhou-Rui.

[9]Arabidopsis cryptochrome 1 functions in nitrogen regulation of flowering. Zheng, Chong,Zhao, Zhong-Yi,Wang, Yu,Niu, Guoqi,Bao, Fang,Hu, Yong,Cao, Ying,Ma, Ligeng,Xiao, Wei,He, Yikun,Yuan, Shu,Zhang, Zhong-Wei,Feng, Ling-Yang,Wang, Chang-Quan,Zhao, Zhong-Yi,Lin, Hong-Hui,Wang, Jian-Hui,Feng, Hong,Xu, Fei,Wang, Haiyang,Kong, Dong-Dong.

[10]OsBBX14 delays heading date by repressing florigen gene expression under long and short-day conditions in rice. Bai, Bo,Zhao, Jie,Li, Yaping,Zhou, Jinjun,Xie, Xianzhi,Li, Yaping,Zhang, Fang,Chen, Fan.

[11]The antiphasic regulatory module comprising CDF5 and its antisense RNA FLORE links the circadian clock to photoperiodic flowering. Henriques, Rossana,Wang, Huan,Liu, Jun,Huang, Li-Fang,Chua, Nam-Hai,Henriques, Rossana,Boix, Marc,Liu, Jun. 2017

[12]Evidence for the circadian gene period as a proximate mechanism of protandry in a pollinating fig wasp. Gu, Hai-Feng,Xiao, Jin-Hua,Wang, Bo,Jia, Ling-Yi,Huang, Da-Wei,Gu, Hai-Feng,Jia, Ling-Yi,Dunn, Derek W.,Niu, Li-Ming,Huang, Da-Wei. 2014

[13]GmPLP1, a PAS/LOV protein, functions as a possible new type of blue light photoreceptor in soybean. Li, Yongguang,Zhang, Yanzheng,Li, Mengting,Jing, Ya,Zhang, Yuhang,Zhao, Lin,Li, Wenbin,Luo, Qiulan,Luo, Qiulan,Mallano, Ali Inayat. 2018

[14]Maternal chitosan oligosaccharide supplementation affecting expression of circadian clock genes, and possible association with hepatic cholesterol accumulation in suckling piglets. Xie, Chunyan,Wu, Xin,Guo, Xiaoyun,Long, Cimin,Yin, Yulong,Wu, Xin,Yin, Yulong,Li, Siming,Hu, Chien-An Andy,Yin, Yulong.

[15]Comparative transcriptome analysis revealed the genotype specific cold response mechanism in tobacco. Xiang, Shipeng,Zhu, Lieshu,Zhu, Xianxin,Xiang, Shipeng,Zhou, Qingming,Zhu, Lieshu,Zhan, Youguo,Zhu, Mingdong,Yin, Hanqi,Zhang, Xianwen,Liu, Zhi.

[16]Overexpression of PvPin1, a Bamboo Homolog of PIN1-Type Parvulin 1, Delays Flowering Time in Transgenic Arabidopsis and Rice. Zheng, Zhigang,Yang, Xiaoming,Zhu, Longfei,Wei, Hantian,Lin, Xinchun,Fu, Yaping. 2017

[17]A model for photothermal responses of flowering in rice .1. Model description and parameterization. Yin, XY,Kropff, MJ,Horie, T,Nakagawa, H,Centeno, HGS,Zhu, DF,Goudriaan, J. 1997

[18]Molecular Cloning and Characterization of Four Genes Encoding Ethylene Receptors Associated with Pineapple (Ananas comosus L.) Flowering. Li, Yun-He,Wu, Qing-Song,Liu, Sheng-Hui,Zhang, Hong-Na,Zhang, Zhi,Sun, Guang-Ming,Li, Yun-He,Huang, Xia. 2016

[19]OsAREB1, an ABRE-binding protein responding to ABA and glucose, has multiple functions in Arabidopsis. Jin, Xiao-Fen,Xiong, Ai-Sheng,Peng, Ri-He,Liu, Jin-Ge,Gao, Feng,Yao, Quan-Hong,Chen, Jian-Min.

[20]Cloning and expression analysis of GmGAL1, SOC1 homolog gene in soybean. Zhong, Xiaofang,Xv, Jiaohui,Wu, Hanying,Liu, Bin,Li, Hongyu,Dai, Xi.

作者其他论文 更多>>

微信小程序