Molecular Control of Flowering in Response to Day Length in Rice  被引量：10

作　　者：Vittoria Brambilla Fabio Fornara 

机构地区：[1]Department of Biosciences,University of Milan

出　　处：《Journal of Integrative Plant Biology》2013年第5期410-418,共9页植物学报（英文版）

基　　金：supported by an ERC Starting Grant(No.260963) to F.F

摘　　要：Flowering at the most appropriate times of the year requires careful monitoring of environmental conditions and correct integration of such information with an endogenous molecular network. Rice （Oryza sativa） is a facultative short day plant, and flowers quickly under short day lengths, as opposed to Arabidopsis thaliana whose flowering is accelerated by longer days. Despite these physiological differences, several genes controlling flowering in response to day length （or photoperiod） are conserved between rice and Arabidopsis, and the molecular mechanisms involved are similar. Inductive day lengths trigger expression of florigenic proteins in leaves that can move to the shoot apical meristem to induce reproductivedevelopment. As compared to Arabidopsis, rice also possesses unique factors that regulate expression of florigenic genes. Here, we discuss recent advances in understanding the molecular mechanisms involved in day length perception, production of florigenic signals, and molecular responses of the shoot apical meristem to florigenic proteins.Flowering at the most appropriate times of the year requires careful monitoring of environmental conditions and correct integration of such information with an endogenous molecular network. Rice （Oryza sativa） is a facultative short day plant, and flowers quickly under short day lengths, as opposed to Arabidopsis thaliana whose flowering is accelerated by longer days. Despite these physiological differences, several genes controlling flowering in response to day length （or photoperiod） are conserved between rice and Arabidopsis, and the molecular mechanisms involved are similar. Inductive day lengths trigger expression of florigenic proteins in leaves that can move to the shoot apical meristem to induce reproductivedevelopment. As compared to Arabidopsis, rice also possesses unique factors that regulate expression of florigenic genes. Here, we discuss recent advances in understanding the molecular mechanisms involved in day length perception, production of florigenic signals, and molecular responses of the shoot apical meristem to florigenic proteins.

关 键 词：RICE FLORIGEN FLOWERING PHOTOPERIOD shoot apical meristem. 

分 类 号：S511[农业科学—作物学] O613.72[理学—无机化学]