独脚金内酯信号途径的新发现——抑制子也是转录因子

植物激素信号传导途径中的抑制子(repressor) DELLA、AUX/IAA、JAZ和D53/SMXL均结合下游转录因子并抑制其转录活性, 从而阻遏激素响应基因的表达; 激素分子则激活信号传导链降解抑制子、释放转录因子, 从而诱导响应基因表达并介导相应的生物学功能。中国科学院遗传与发育生物学研究所李家洋研究团队最新的研究发现, 独脚金内酯(SL)信号途径中的SMXL6、SMXL7和SMXL8是具有抑制子和转录因子双重功能的新型抑制子, 他们还通过研究SL转录调控网络发现了大量新的SL响应基因, 揭示了SL调控植物分枝、叶片伸长和花色素苷积累的分子机制。这些重要发现为探索植物激素作用机理提供了新思路, 具有重要科学意义和应用前景。     

Evidence that the Arabidopsis nuclear gibberellin signalling protein GAI is not destabilised by gibberellin

Plant growth is regulated by bioactive gibberellin (GA), although there is an unexplained diversity in the magnitude of the GA responses exhibited by different plant species. GA acts via a group of orthologous proteins known as the DELLA proteins. The Arabidopsis genome contains genes encoding five different DELLA proteins, the best known of which are GAI and RGA. The DELLA proteins are thought to act as repressors of GA-regulated processes, whilst GA is thought to act as a negative regulator of DELLA protein function. Recent experiments have shown that GA induces rapid disappearance of nuclear RGA, SLR1 and SLN1 (DELLA proteins from rice and barley), suggesting that GA signalling and degradation of DELLA proteins are coupled. However, RGL1, another Arabidopsis DELLA protein, does not disappear from the nucleus in response to GA treatment. Here, we present evidence suggesting that GAI, like RGL1, is stable in response to GA treatment, and show that transgenic Arabidopsis plants containing constructs that enable high-level expression of GAI exhibit a dwarf, GA non-responsive phenotype. Thus, GAI appears to be less affected by GA than RGA, SLR1 or SLN1. We also show that neither of the two putative nuclear localisation signals contained in DELLA proteins are individually necessary for nuclear localisation of GAI. The various DELLA proteins have different properties, and we suggest that this functional diversity may explain, at least in part, why plant species differ widely in their GA response magnitudes.