The phytochrome-interacting factor genes PIF1 and PIF4 are functionally diversified due to divergence of promoters and proteins

Hanim Kim, Nayoung Lee, Yeojae Kim, Giltsu Choi
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Abstract

Phytochrome-interacting factors (PIFs) are basic helix-loop-helix transcription factors that regulate light responses downstream of phytochromes. In Arabidopsis (Arabidopsis thaliana), eight PIFs (PIF1-8) regulate light responses, either redundantly or distinctively. Distinctive roles of PIFs may be attributed to differences in mRNA expression patterns governed by promoters or variations in molecular activities of proteins. However, elements responsible for the functional diversification of PIFs have yet to be determined. Here, we investigated the role of promoters and proteins in the functional diversification of PIF1 and PIF4 by analyzing transgenic lines expressing promoter-swapped PIF1 and PIF4, as well as chimeric PIF1 and PIF4 proteins. For seed germination, PIF1 promoter played a major role, conferring dominance to PIF1 gene with a minor contribution from PIF1 protein. Conversely, for hypocotyl elongation under red light, PIF4 protein was the major element conferring dominance to PIF4 gene with the minor contribution from PIF4 promoter. In contrast, both PIF4 promoter and PIF4 protein were required for the dominant role of PIF4 in promoting hypocotyl elongation at high ambient temperatures. Together, our results support that the functional diversification of PIF1 and PIF4 genes resulted from contributions of both promoters and proteins, with their relative importance varying depending on specific light responses.
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植物色素相互作用因子基因 PIF1 和 PIF4 因启动子和蛋白质的不同而功能多样化
植物色素相互作用因子(Phytochrome-interacting factors,PIFs)是基本螺旋环螺旋转录因子,可调节植物色素下游的光反应。在拟南芥(Arabidopsis thaliana)中,有八个 PIF(PIF1-8)以冗余或独特的方式调节光反应。PIFs 的不同作用可能是由于启动子支配的 mRNA 表达模式不同或蛋白质的分子活性不同。然而,导致 PIFs 功能多样化的因素尚未确定。在此,我们通过分析表达启动子互换的 PIF1 和 PIF4 以及嵌合的 PIF1 和 PIF4 蛋白的转基因系,研究了启动子和蛋白在 PIF1 和 PIF4 功能多样化中的作用。在种子萌发方面,PIF1 启动子起主要作用,赋予 PIF1 基因优势,PIF1 蛋白的贡献较小。相反,在红光条件下,对于下胚轴伸长,PIF4 蛋白是主要元素,赋予 PIF4 基因优势,PIF4 启动子的贡献较小。相比之下,PIF4 启动子和 PIF4 蛋白都是 PIF4 在高温环境下促进下胚轴伸长的主导因子。综上所述,我们的研究结果表明,PIF1 和 PIF4 基因的功能多样化是启动子和蛋白质共同作用的结果,它们的相对重要性因特定的光反应而异。
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