Abscisic acid and GIGANTEA signalling converge to regulate the recruitment of CONSTANS to the FT promoter and activate floral transition

巨蜥 拟南芥 脱落酸 生物 分生组织 转录因子 细胞生物学 发起人 抄写(语言学) 基因 遗传学 植物 突变体 基因表达 语言学 哲学
作者
Alice Robustelli Test,Giorgio Perrella,Beatrice Landoni,Sara Colanero,Aldo Sutti,Paolo Korwin Krukowski,Tianyuan Xu,Elisa Vellutini,Giulia Castorina,Massimo Galbiati,Damiano Martignago,Eirini Kaiserli,Chiara Tonelli,Lucio Conti
出处
期刊:Journal of Experimental Botany [Oxford University Press]
标识
DOI:10.1093/jxb/eraf199
摘要

Abstract Plants align flowering with optimal seasonal conditions to increase reproductive success. This process depends on modulating signalling pathways that respond to diverse environmental and hormonal inputs, thereby regulating the transition to flowering at the shoot apical meristem. In Arabidopsis, long-day photoperiods (LDs) stimulate the transcription of FLOWERING LOCUS T (FT), encoding the main florigenic signal. FT activation is mediated by the transcriptional regulator CONSTANS (CO), which binds to the CO responsive elements (COREs) located in the proximal FT promoter region. The phytohormone abscisic acid (ABA) also contributes to FT activation together with GIGANTEA (GI) to regulate drought escape (DE). Whether CO is a target of ABA and GI actions for the regulation of FT is, however, unknown. Here, we report that ABA and its signalling components promote CO recruitment to the CORE1/2, without causing reductions in the diel pattern of CO protein accumulation. ChIPseq analyses show that ABA broadly shapes the CO DNA binding landscape, which is enriched at the promoters of genes involved in the response to abiotic stress. We also found that GI promotes CO recruitment to the CORE1/2 region, and that CO recruitment is required for the accumulation of RNAPol II at the transcription start site of FT. Finally, we show that GI and ABA signalling pathways are largely epistatic in the control of flowering time, suggesting their involvement in the same molecular process. Taken together, these observations suggest that varying water deficit conditions modulate CO recruitment and FT expression, thus dictating DE strategies in Arabidopsis.

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