Flower Development and Photoperiodic Control of Flowering in Rice 被引量：4

Flower Development and Photoperiodic Control of Flowering in Rice

下载PDF

导出

摘要 Floral transition,which is referred to as a plant＇s transition from vegetative stage to reproductive stage,is considered to be a critical developmental switch in higher plants,for a timely flowering is a major factor of reproductive success.Endogenous and environmental cues,such as photoperiod,light quality,plant hormones concentrations and temperature,provide information to the plants whether the environment is favorable for flowering.These cues promote,or prevent,flowering through a complex genetic network,mediated by a careful orchestration of temporal and spatial gene expression.One of such cues is photoperiod.Rice（Oryza sativa L.） serves as a powerful model species for the understanding of flowering in higher plants,including flower development and photoperiodic control of flowering.In this review,we overviewed and discussed the flower development and its model.We also overviewed the photoperiodic pathways in rice flowering control,and summarized the pathways at molecular level. Floral transition,which is referred to as a plant＇s transition from vegetative stage to reproductive stage,is considered to be a critical developmental switch in higher plants,for a timely flowering is a major factor of reproductive success.Endogenous and environmental cues,such as photoperiod,light quality,plant hormones concentrations and temperature,provide information to the plants whether the environment is favorable for flowering.These cues promote,or prevent,flowering through a complex genetic network,mediated by a careful orchestration of temporal and spatial gene expression.One of such cues is photoperiod.Rice（Oryza sativa L.） serves as a powerful model species for the understanding of flowering in higher plants,including flower development and photoperiodic control of flowering.In this review,we overviewed and discussed the flower development and its model.We also overviewed the photoperiodic pathways in rice flowering control,and summarized the pathways at molecular level.

作者 XIANG Chao QU Li-jun GAO Yong-ming SHI Ying-yao

机构地区 College of Agronomy Institute of Crop Science/National Key Facility for Crop Gene Resources and Genetic Improvement

出处《Rice science》 SCIE 2013年第2期79-87,共9页 水稻科学（英文版）

基金 funded by the National High Technology Research and Development Program fromthe Ministry of Science and Technology of China(Grant No. 2010AA101806) the Bill & Melinda Gates Foundation (Grant No. OPP51587)

关键词 RICE flowering time gene floral transition flower development PHOTOPERIOD rice flowering time gene floral transition flower development photoperiod

分类号 S511 [农业科学—作物学]

引文网络
相关文献

参考文献3

1Wen-Hao Yan Peng Wang Hua-Xia Chen Hong-Ju Zhou Qiu-Ping Li Chong-Rong Wang Ze-Hong Ding Yu-Shan Zhang Si-Bin Yu Yong-Zhong Xing Qi-Fa Zhang.A Major QTL, Ghd8, Plays Pleiotropic Roles in Regulating Grain Productivity, Plant Height, and Heading Date in Rice[J].Molecular Plant,2011,4(2):319-330. 被引量：156
2彭凌涛.控制拟南芥和水稻开花时间光周期途径的分子机制[J].植物生理学通讯,2006,42(6):1021-1031. 被引量：32
3Guixia Xu,Hongzhi Kong.Duplication and Divergence of Floral MADS-Box Genes in Grasses： Evidence for the Generation and Modification of Novel Regulators[J].Journal of Integrative Plant Biology,2007,49(6):927-939. 被引量：9

二级参考文献128

1Abe M,Kobayashi Y,Yamamoto S,Daimon Y,Yamaguchi A,Ikeda Y,Ichinoki H,Notaguchi M,Goto K,Araki T (2005).FD,a bZIP protein mediating signals from the floral pathway integrator FT at the shoot apex.Science,309 (5737):1052～1056
2Ahn JH,Miller D,Winter VJ,Banfield MJ,Lee JH,Yoo SY,Henz SR,Brady RL,Weigel D (2006).A divergent external loop confers antagonistic activity on floral regulators FT and TFL1.EMBO J,25 (3):605～614
3Basu D,Dehesh K,Schneider-Poetsch HJ,Harrington SE,McCouch SR,Quail PH (2000).Rice PHYC gene:structure,expression,map position and evolution.Plant Mol Biol,44 (1):27～42
4Baurle I,Dean C (2006).The timing of development transitions in plants.Cell,125 (4):655-664
5Bruun AW,Svendsen I,Sorensen SO,Kielland-Brandt MC,Winther JR (1998).A high-affinity inhibitor of yeast carboxypeptidase Y is encoded by TFS1 and shows homology to a family of lipid binding proteins.Biochemistry,37 (10):3351～3357
6Dehesh K,Tepperman J,Christensen AH,Quail PH (1991).phyB is evolutionarily conserved and constitutively expressed in rice seedling shoots.Mol Gen Genet,225 (2):305～313
7Doi K,Izawa T,Fuse T,Yamanouchi U,Kubo T,Shimatani Z,Yano M,Yoshimura A (2004).Ehdl,a B-type response regulator in rice,confers short-day promotion of flowering and controls FT-like gene expression independently of Hd(l).Genes Dev,18 (8):926～936
8Doyle MR,Davis SJ,Bastow RM,McWatters HG,Kozma-Bognár L,Nagy F,Millar AJ,Amasina RM (2002).The ELF4 gene controls circadian rhythms and flowering time in Arabidopsis thaliana.Nature,379 (6902):694～699
9Fowler S,Lee K,Onouchi H,Samach A,Richardson K,Morris B,Coupland G,Putterill J (1999).GIGANTEA:a circadian clock-controlled gene that regulates photoperiodic flowering in Arabidopsis and encodes a protein with several possible membrane-spanning domains.EMBO J,18 (17):4679～4688
10Garner WW,Allard HA (1920).Effect of the relative length of day and night and other factors of the environment on growth and reproduction in plants.J Agr Res,18:553～606

共引文献194

1叶卫军,杨勇,张丽亚,田东丰,张玲玲,周斌.绿豆EMS诱变突变体库的构建及表型分析[J].中国农学通报,2020,36(17):36-41. 被引量：10
2Zhuo Chen,Xiuxiu Li,Hongwei Lu,Qiang Gao,Huilong Du,Hua Peng,Peng Qin,Chengzhi Liang.Genomic atlases of introgression and differentiation reveal breeding footprints in Chinese cultivated rice[J].Journal of Genetics and Genomics,2020,47(10):637-649. 被引量：5
3蔡海亚,徐得泽,程建平,赵锋,吴建平.水稻抽穗期基因qHY-8对植株干物质积累及产量性状的影响[J].湖北农业科学,2013,52(16):3771-3773.
4汤青林,王小佳,宋明,李成琼,张洪.与拟南芥春化作用相关的基因及其春化记忆模型[J].植物生理学通讯,2007,43(5):805-810. 被引量：5
5汤青林,王小佳,宋明,张洪,任雪松,牛义.芥菜和甘蓝启动抽薹的温光诱导体系研究[J].西南大学学报（自然科学版）,2007,29(12):113-117. 被引量：9
6李靖,李庆军.小桐子花的性别与开花时间的相互关系[J].热带亚热带植物学报,2009,17(1):1-4. 被引量：5
7汤青林,宋明,王小佳,王志敏,任雪松,李成琼.温光诱导芥菜和甘蓝抽薹的生化变化研究[J].西南大学学报（自然科学版）,2009,31(4):52-57. 被引量：5
8胡瑞波,范成明,李宏宇,林辰涛,傅永福.大豆MIKC型MADS-box基因家族分析[J].分子植物育种,2009,7(3):429-436. 被引量：16
9郭春晓,田素波,郑成淑,王文莉,孙宪芝.光周期途径植物开花决定关键基因FT[J].基因组学与应用生物学,2009,28(3):613-618. 被引量：24
10宋明,汤青林,王志敏,张敏,刘婷,任雪松.低温春化和GA3处理后芥菜发育的生化变化[J].西南大学学报（自然科学版）,2009,31(12):48-52. 被引量：2

同被引文献64

1马赛斐,王永锋,何景新,刘建,裴桂英,张跃进.大豆花荚脱落的研究[J].大豆通报,2005(3):11-12. 被引量：2
2王忠,顾蕴洁,高煜珠.水稻开颖机理的探讨 V.不育系与可育系浆片和花丝结构的比较[J].作物学报,1994,20(1):13-17. 被引量：19
3彭凌涛.控制拟南芥和水稻开花时间光周期途径的分子机制[J].植物生理学通讯,2006,42(6):1021-1031. 被引量：32
4郭涛,蔡金洋,王慧,刘永柱,张建国,陈志强.水稻空间诱变SP_2代品质性状变异分析[J].华南农业大学学报,2007,28(1):6-9. 被引量：9
5许涛,李天来,齐明芳.钙处理对乙烯诱导的番茄离体花柄脱落的抑制作用[J].园艺学报,2007,34(2):366-370. 被引量：13
6齐明芳,李天来,许涛,曹霞.园艺作物器官脱落相关酶的研究进展[J].北方园艺,2007(6):62-65. 被引量：10
7丛楠,程治军,万建民.控制花器官发育的ABCDE模型[J].中国农学通报,2007,23(7):124-128. 被引量：23
8孙昌辉,邓晓建,方军,储成才.高等植物开花诱导研究进展[J].遗传,2007,29(10):1182-1190. 被引量：55
9李晓红,齐明芳,李天来,王倩,许宏伟.不同温度处理对番茄离体花柄脱落及其相关酶活性的影响[J].沈阳农业大学学报,2007,38(6):780-783. 被引量：12
10姜雪梅,陶佩君,柴江,王艳锋,董伟欣,张月辰.红小豆花芽分化与结实率的研究[J].华北农学报,2008,23(B06):144-149. 被引量：8

引证文献4

1尹宝重,刘盼,张月辰.红小豆花器官脱落对短日照诱导的生理响应[J].作物杂志,2015(1):78-85. 被引量：4
2陈立凯,黄明,刘永柱,王慧,陈志强,郭涛.水稻开颖半不育突变体的观察、遗传分析和基因定位[J].中国农业科学,2016,49(1):1-13. 被引量：7
3王玉博,王悦,刘雄,唐文帮.水稻光周期调控开花的研究进展[J].中国水稻科学,2021,35(3):207-224. 被引量：18
4曾跃辉,邹文广,赵福铭,肖长春,黄建鸿,马彬林,杨旺兴,韦新宇,许旭明.一个新的水稻颖花开裂基因OsSG2的图位克隆与功能验证[J].中国农业科学,2025,58(11):2062-2080.

二级引证文献29

1胡志辉,汪艳杰,陈禅友.喷施细胞分裂素对豇豆花荚脱落率及花荚酶活性的影响[J].植物科学学报,2016,34(3):439-445. 被引量：12
2吕兴娜,杜久元,苏萍萍,王琪琳,吴建辉,黄丽丽,康振生,韩德俊.小麦航天诱变抗条锈病突变体的筛选与鉴定[J].麦类作物学报,2016,36(12):1599-1604. 被引量：7
3文晓鹏,仇志浪,洪怡.果树落果的生理及分子机制研究进展[J].山地农业生物学报,2018,37(4):1-17. 被引量：17
4陈睿,鲜小林,黄晋谷.不同品种杜鹃花朵自动脱落相关酶活性比较[J].南方农业学报,2018,49(12):2463-2468. 被引量：2
5潘孝武,刘文强,黎用朝,熊海波,盛新年,段永红,余亚莹,赵文锦,魏秀彩,李小湘.水稻裂颖突变体sh1的鉴定及基因定位[J].中国水稻科学,2019,33(4):323-330. 被引量：4
6夏澳运,彭子艾,李丹丹,赵壮壮,王慧,陈志强,郭涛.一种适用于高通量基因分型的水稻DNA样本制备技术研究[J].广东农业科学,2019,46(8):1-7.
7张磊,刘宇,韩丽丽,马艳杰,宁猛,肖凯,张月辰.光周期诱导对小豆顶端花序发育和花解剖学特性的影响[J].河北农业大学学报,2021,44(4):21-27. 被引量：5
8高媛,王小利,涂亮,刘鹏飞,郭向阳,王安贵,祝云芳,吴迅,陈泽辉.不同光照条件下热带玉米自交系间的转录水平差异分析[J].分子植物育种,2021,19(21):6972-6983.
9陆思宇,杨再强,杨立,张源达,郑涵.不同光周期对菊花生长发育及内源激素的影响[J].华北农学报,2021,36(6):106-115. 被引量：15
10赵凌,梁文化,赵春芳,魏晓东,周丽慧,姚姝,王才林,张亚东.利用高密度Bin遗传图谱定位水稻抽穗期QTL[J].作物学报,2023,49(1):119-128. 被引量：4

1CHEN Man-yuan,Ali j,FU Bin-ying,XU Jian-long,ZHAO Ming-fu,JIANG Yun-zhu,ZHU Ling-hua,SHI Ying-yao,YAO Da-nian,GAO Yong-ming,LI Zhi-kang.Detection of Drought-Related Loci in Rice at Reproductive Stage Using Selected Introgressed Lines[J].Agricultural Sciences in China,2011,10(1):1-8. 被引量：3
2LINing WANG Hongyan.Effect of RRS on nitrogen transition and related bacteria in rhizosphere soil[J].Journal of Northeast Agricultural University(English Edition),2007,14(4):333-336. 被引量：11
3水稻光温敏核不育基因克隆成功[J].粮食科技与经济,2012,37(2):3-3.
4ZHANG Di,SHEN Xiao-hui,ZHUO Li-huan.Flower Development and Anatomy of Agapanthus praecox ssp. orientalis (Leighton) Leighton[J].Agricultural Sciences in China,2011,10(9):1365-1373. 被引量：3
5Zu-Yu CHEN,Jing-Jing ZHANG,Jin KONG,Yan FU,Yang-Sheng LI,Ying-Guo ZHU.Endogenous Small RNA in Rice[J].Acta Biochimica et Biophysica Sinica,2004,36(2):153-153.
6舒理慧.RESPONSES OF THE YOUNG SPIKE OF WHEAT (TRITICUM AESTIVUM) AT DIFFERENT DEVELOPMENTAL STAGES TO CULTURE IN VITRO[J].Chinese Science Bulletin,1983,28(3):397-400.
7Yan-Fei Zeng,Wei-Ning Bai,Yu Zhou,Da-Yong Zhang.Variation in Floral Sex Allocation and Reproductive Success in Sequentially Flowering Inflorescence of Corydalis remota var. lineariloba(Fumariaceae)[J].Journal of Integrative Plant Biology,2009,51(3):299-307. 被引量：7
8Kasra Sabermanesh,Luke R. Holtham,Jessey George,Ute Roessner,Berin A. Boughton,Sigrid Heuer,Mark Tester,Darren C. Plett,Trevor P. Garnett.Transition from a maternal to external nitrogen source in maize seedlings[J].Journal of Integrative Plant Biology,2017,59(4):261-274. 被引量：3
9朱秦(译).杀菌剂Switch取得新的使用标签和轮作限制[J].农药市场信息,2007(2):27-27.
10GUO Shi-wei ZHOU Yi SONG Na SHEN Qi-rong.Some Physiological Processes Related to Water Use Efficiency of Higher Plants[J].Agricultural Sciences in China,2006,5(6):403-411. 被引量：3

Rice science

2013年第2期

浏览历史

内容加载中请稍等...