BBX17 Interacts with CO and Negatively Regulates Flowering Time in Arabidopsis thaliana.

Plant & Cell Physiology Pub Date : 2022-03-11 DOI:10.1093/pcp/pcac005

Xiaorui Xu, Jingya Xu, Chen Yuan, Qianqian Chen, Qinggang Liu, Xuming Wang, Cheng Qin

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引用次数: 9

Abstract

Floral transition, the change from vegetative growth to reproductive development, is dramatic in flowering plants. Here, we show that one subgroup III member of the B-box (BBX) family, BBX17, is a repressor of floral transition under long-day conditions. BBX17 contains a B-box domain and a CCT domain. Although the phenotype of the BBX17 loss-of-function plants was comparable to that of wild-type plants, BBX17-overexpression plants displayed a delayed-flowering phenotype under long-day conditions. The delayed-flowering phenotype was not the result of an altered CONSTANS (CO) expression level but rather the repression of the FLOWERING LOCUS T (FT) expression level. BBX17 physically associated with CO and repressed its ability to control FT expression. Furthermore, the BBX17 protein degraded in the dark, but irradiating seedlings with white, blue, red or far-red light stabilized the BBX17 level. We also proved that the degradation of BBX17 was via 26S proteasome and requires COP1. Thus, BBX17 acts as a key factor in the CO-FT regulatory system to control Arabidopsis thaliana flowering.

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BBX17与CO相互作用负向调控拟南芥开花时间

花的转变，从营养生长到生殖发育的变化，在开花植物中是戏剧性的。在这里，我们发现B-box (BBX)家族的一个亚群III成员BBX17是长日照条件下花过渡的抑制因子。BBX17包含一个B-box域和一个CCT域。虽然BBX17功能缺失植物的表型与野生型植物相当，但BBX17过表达植物在长日照条件下表现出延迟开花的表型。延迟开花的表型不是CONSTANS (CO)表达水平改变的结果，而是开花位点T (FT)表达水平受到抑制的结果。BBX17与CO有物理关联，并抑制其控制FT表达的能力。此外，BBX17蛋白在黑暗中降解，但在白光、蓝光、红光或远红光照射下，BBX17蛋白水平稳定。我们还证明了BBX17的降解是通过26S蛋白酶体进行的，并且需要COP1。因此，BBX17在CO-FT调控系统中是控制拟南芥开花的关键因子。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Plant & Cell Physiology

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