Yoo Jihye, Cho Man-Ho, Lee Sang-Won, Bhoo Seong Hee
Graduate School of Biotechnology.
Graduate School of Biotechnology
J Biochem. 2016 Oct;160(4):243-249. doi: 10.1093/jb/mvw031. Epub 2016 May 2.
Light signals recognized by phytochromes are transduced through interactions between down-stream signaling components. Phytochrome-interacting ankyrin repeat protein 2 (PIA2) was found to interact with phytochrome interacting factor 3 (PIF3), a well-known repressor of plant photomorphogenesis in response to phytochrome-mediated light signalling. Both PIA2 and PIF3 are known to be positive regulators of anthocyanin accumulation in Arabidopsis seedlings under far-red conditions. Thus, we investigated the functional relationship between PIA2 and PIF3 in light signalling. We found that PIA2 suppressed PIF3 phosphorylation by phyA. To elucidate how PIA2 modulates phyA-mediated PIF3 phosphorylation, we generated non-phosphorylation mutants and N-terminal α-helix breaking mutants of PIA2. PIF3 phosphorylation by phyA was not suppressed by α-helix breaking PIA2 mutants. The α-helix breaking mutations also resulted in remarkably decreased interactions between PIA2 and PIF3. However, the non-phosphorylation mutants exhibited no effect on phyA-mediated PIF3 phosphorylation. In addition, decreased anthocyanin accumulation in pia2 knockout plant seedlings was not rescued by overexpression of the α-helix breaking mutant in transgenic plants under far-red conditions. These results suggest that PIA2 modulates phyA-mediated PIF3 phosphorylation by physical interaction with PIF3 and that the secondary structure of the PIA2 N-terminus is important in this modulation.
由光敏色素识别的光信号通过下游信号成分之间的相互作用进行转导。人们发现,与光敏色素相互作用的锚蛋白重复序列蛋白2(PIA2)与光敏色素相互作用因子3(PIF3)相互作用,PIF3是植物光形态建成中响应光敏色素介导的光信号的一种著名阻遏物。已知PIA2和PIF3在远红光条件下都是拟南芥幼苗中花青素积累的正调控因子。因此,我们研究了PIA2和PIF3在光信号传导中的功能关系。我们发现PIA2抑制了phyA介导的PIF3磷酸化。为了阐明PIA2如何调节phyA介导的PIF3磷酸化,我们构建了PIA2的非磷酸化突变体和N端α螺旋断裂突变体。α螺旋断裂的PIA2突变体不能抑制phyA介导的PIF3磷酸化。α螺旋断裂突变还导致PIA2与PIF3之间的相互作用显著减少。然而,非磷酸化突变体对phyA介导的PIF3磷酸化没有影响。此外,在远红光条件下,转基因植物中α螺旋断裂突变体的过表达并不能挽救pia2基因敲除植物幼苗中花青素积累的减少。这些结果表明,PIA2通过与PIF3的物理相互作用调节phyA介导的PIF3磷酸化,并且PIA2 N端的二级结构在这种调节中很重要。
