1 | Wils C R,Kaufmann K.Gene-regulatory networks controlling inflorescence and flower development in Arabidopsis thaliana[J].Biochimica et Biophysica Acta(BBA)-Gene Regulatory Mechanisms,2017,1860(1):95-105. |
2 | Cheng J Z,Zhou Y P,Lv T X,et al.Research progress on the autonomous flowering time pathway in Arabidopsis[J].Physiology and Molecular Biology of Plants,2017,23(3):477-485. |
3 | Gras D E,Vidal E A,Undurraga S F,et al.SMZ/SNZ and gibberellin signaling are required for nitrate-elicited delay of flowering time in Arabidopsis thaliana[J].Journal of experimental botany,2018,69(3): 619-631. |
4 | 魏丹凤,曾黎辉.木本果树开花相关基因的研究进展[J].亚热带农业研究,2014,10(2):134-140. |
4 | Wei D F,Zeng L H.Flowering integrator genes in woody fruit trees[J].Subtropical Agriculture Research,2014,10(2):134-140. |
5 | Goldberg A D,Allis C D,Bernstein E.Epigenetics: A Landscape Takes Shape[J].Cell,2007,128(4):635-638. |
6 | Vermeulen M,Mulder K W,Denissov S,et al.Selective anchoring of TFIID to nucleosomes by trimethylation of histone H3 lysine 4[J].Cell,2007,131(1):58-69. |
7 | 阎晗,于明航,尹洁,等.组蛋白H3K4甲基转移酶KMT2D研究进展[J].天津医科大学学报,2018,24(6):562-565. |
7 | Yan H,Yu M H,Yi J,Wang X,et al.Research progress of histone H3K4 methyltransferase KMT2D[J].Journal of Tianjin Medical University,2018,24(6):562-565. |
8 | Calo E,Wysocka J.Modification of Enhancer Chromatin:What,How,and Why?[J].Molecular Cell,2013,49(5):825-837. |
9 | Napsucialy-Mendivil S,Alvarez-Venegas R,Shishkova S,et al.ARABIDOPSIS HOMOLOG OF TRITHORAX1(ATX1) is required for cell production,patterning,and morphogenesis in root development[J].Journal of Experimental Botany,2014,65(22):6373-6384. |
10 | 贺希格都楞.组蛋白H3K4甲基化对拟南芥花期和根发育的调控机制研究[D].上海:中国科学院上海生命科学研究院,2016. |
10 | He X G D L.Regulation of histone H3K4 methylation on flowering and root development in Arabidopsis thaliana[D].Shanghai:Shanghai Institutes for Biological Sciences,2016. |
11 | Wang X Q,Wang D H,Xu W J,et al.Histone methyltransferase ATX1 dynamically regulates fiber secondary cell wall biosynthesis in Arabidopsis inflorescencestem[J].Nucleic Acids Research,2021,49(1):190-205. |
12 | Kitamura N,Ikekita M,Sato T,et al.Mouse Na+/K+-ATPase β1-subunit has a K+-dependent cell adhesion activity for β-GlcNAc-terminating glycans[J].Proceedings of the National Academy of Sciences of the United States of America,2005,102(8):2796-2801. |
13 | Xing L J,Lin Y,Xiao J,et al.Arabidopsis O-GlcNAc transferase SEC activates histone methyltransferase ATX1 to regulate flowering[J].Embo Journal,2018,37(19):e98115. |
14 | Song Z T,Zhang L L,Han J J,et al.Histone H3K4 methyltransferases SDG25 and ATX1 maintain heat-stress gene expression during recovery in Arabidopsis[J].The Plant Journal,2020,105(5):doi:10.1111/TPJ.15114. |
15 | 郭彤,许梓荣.细胞内铜途径:铜伴侣蛋白的作用[J].科技通报,2004,20(1):73-76. |
15 | Guo T,Xu Z R.Intracellular Copper Routing:The Role of Copper Chaperones [J].Bulletin of Science and Technology,2004,20(1):73-76. |
16 | Hoppen C,Groth G.Novel insights into the transfer routes of the essential copper cofactor to the ethylene plant hormone receptor family[J].Plant signaling and behavior,2020,15(2):1716512. |
17 | Saleh A,Alvarez-Venegas R,Yilmaz M,et al.The Highly Similar Arabidopsis Homologs of Trithorax ATX1 and ATX2 Encode Proteins with Divergent Biochemical Functions[J].The Plant Cell Online,2008,20(3):568-579. |
18 | Fan X,Tony K,Yenny R,et al.Trithorax Group Proteins Act Together with a Polycomb Group Protein to Maintain Chromatin Integrity for Epigenetic Silencing during Seed Germination in Arabidopsis[J].Molecular Plant,2018,11(5):doi:10.1016/j.molp.2018.01.010. |
19 | Petruk S,Sedkov Y,Johnston D M,et al.TrxG and PcG Proteins but Not Methylated Histones Remain Associated with DNA through Replication[J].Cell,2012,150(5):922-933. |
20 | 刘雨同.拟南芥组蛋白H3K4甲基转移酶ATX4和ATX5调控脱落酸及干旱胁迫响应的机制研究[D].长春:东北师范大学,2019. |
20 | Liu Y T.Arabidopsis histone H3K4 methylases ATX4 and ATX5 function in abscisic acid and dehydration stress responses [D].Changchun:Northeast Normal University,2019. |
21 | Chen L,Luo J H,Cui J H,et al.ATX3,ATX4,and ATX5 Encode Putative H3K4 Methyltransferases and Are Critical for Plant Development[J].Plant Physiology,2017,174(3):1795-1806. |
22 | 陈洁,杨肖芳,秦巧平.木本果树成花途径研究进展[J].现代农业科技,2017,174(3):1795-1806. |
22 | Chen J,Yang X F,Qin Q P.Research Progress on flowering pathway of woody fruit trees[J].Xiandai Nongye Keji,2017,174(3):1795-1806. |
23 | 景丹龙.楸树重瓣花发育的分子调控机制研究[D].北京:中国林业科学研究院,2017. |
23 | Jing D L.Regulatory mechanisms of double-flower development in Catalpa bungei[D].Beijing:Chinese Academy of Forestry,2017. |
24 | 王长兰,陈发菊,金玉佩,等.楸树的开花生物学及繁育系统研究[J].基因组学与应用生物学,2015,34(9):1981-1987. |
24 | Wang C L,Chen F J,Jin Y P,et al.Flower Phenology and Breeding System of Catalpa bungei(Bignoniaceae)[J].Genomics and Applied Biology,2015,34(9):1981-1987. |
25 | 樊莉丽,彭方仁,周琦,等.楸树大小孢子发生与雌雄配子体发育的研究[J].西北植物学报,2011,31(3):431-438. |
25 | Fan L L,Peng F R,Zhou Q,et al.Sporogenesis and Gametogenesis of Catalpa bungei(Bignoniaceae)[J].Acta Botanica Boreali-Occidentalia Sinica,2011,31(3):431-438. |
26 | 张博,李利平,毛伟兵,等.雄性不育与可育楸树花发育的细胞学比较研究[J].植物研究,2015,35(6):812-818. |
26 | Zhang B,Li L P,Mao W B,et al.Development of male and female gametophytes between fertile line and male sterile line's flowers of Catalpa bungei C.A.Meyer[J].Bulletin of Botanical Research,2015,35(6):812-818. |
27 | 姚远,王晓萍.拟南芥开花相关的分子调控机制的研究[J].安徽农业科学,2015,43(9):7-10. |
27 | Yao Y,Wang X P.Molecular Mechanisms of Flowering in Arabidopsis thaliana[J].Journal of Anhui Agricultural Sciences,2015,43(9):7-10. |
28 | 麻文俊,杨桂娟,王军辉,等.楸树不同单株花性状变异分析[J].植物研究,2020,40(3):386-393. |
28 | Ma W J,Yang G J,Wang J H,et al.Flower Characters Variation of Different Individuals of Catalpa bungei[J].Bulletin of Botanical Research,2020,40(3):386-393. |
29 | 范阿棋,毛娟,刘思妍,等.马铃薯StSnRK2.2基因克隆与生物信息学分析[J].植物研究,2013,33(3):294-301. |
29 | Fan A Q,Mao J,Liu S Y,et al.Cloning and Bioinformatic analysis of StSnRK2.2 gene in Solanum tuberosum[J].Bulletin of Botanical Research,2013,33(3):294-301. |
30 | 孙晓莎,王遂,赵曦阳,等.84K杨4CL3/4CL5基因克隆及生物信息学分析[J].植物研究,2019,39(4):547-556. |
30 | Sun X S,Wang S,Zhao X Y,et al.Cloning and Bioinformatics Analysis 4CL3/4CL5 Gene of Populus alba × P.glandulosa[J].Bulletin of Botanical Research,2019,39(4):547-556. |
31 | 安玉婷,李然红,陈鑫,等.白桦BpPR1基因生物信息学分析[J].湖北农业科学,2020,59(12):171-174 |
31 | An Y T,Li R H,Chen X,et al.Bioinformatics analysis of BpPR1 gene from Betula platyphylla[J].Hubei Agricultural Sciences,2020,59(12):171-174. |
32 | Wang Z,Zhu T Q,Ma W J,et al.Potential function of CbuSPL and gene encoding its interacting protein during flowering in Catalpa bungei[J].BMC Plant Biology,2020,20(1):105. |
33 | Lei X U,Fei-Fei J,Li-Lin W.Progresses on Molecular Mechanisms of Flowering Transition in Arabidopsis[J].Acta Botanica Boreali-Occidentalia Sinica,2011,31(5):1057-1065. |
34 | Yamaguchi,Ayako,Kobayashi,Yasushi,et al.TWIN SISTER of FT(TSF) Acts as a Floral Pathway Integrator Redundantly with FT[J].Plant and Cell Physiology,2005,46(8):1175-1189. |
35 | Glassop,Donna,Rae,Anne L,et al.Sugarcane Flowering Genes and Pathways in Relation to Vegetative Regression[J].Sugar Tech,2014,16(3):235-240. |
36 | Lee J,Lee I.Regulation and function of SOC1,a flowering pathway integrator[J].Journal of Experimental Botany,2010,61(9):2247-2254. |
37 | Tang M Y,TaoY B,et al.An ortholog of LEAFY in Jatropha curcas regulates flowering time and floral organ development[J].Scientific Reports,2016,6(11):1-15. |
38 | Shu H Y,Hao Y Y,Cai Q Z,et al.Recent research progress on the molecular regulation of flowering time in Arabidopsis thaliana[J].Plant Science Journal,2017,35(4):603-608. |