拟南芥野生型和突变型光敏色素B全蛋白的生化特性分析
Biochemical characterization of Arabidopsis wild-type and mutant phytochrome B holoproteins.
作者信息
Elich T D, Chory J
机构信息
Howard Hughes Medical Institute, Salk Institute for Biological Studies, La Jolla, California 92037, USA.
出版信息
Plant Cell. 1997 Dec;9(12):2271-80. doi: 10.1105/tpc.9.12.2271.
Abstract
Although phytochrome B (phyB) plays a particularly important role throughout the life cycle of a plant, it has not been studied in detail at the molecular level due to its low abundance. Here, we report on the expression, assembly with chromophore, and purification of epitope-tagged Arabidopsis phyB. In addition, we have reconstructed two missense mutations, phyB-4 and phyB-101, isolated in long hypocotyl screens. We show that mutant proteins phyB-4 and phyB-101 exhibit altered spectrophotometric and biochemical properties relative to the wild-type protein. In particular, we demonstrate that phyB-101 Pfr exhibits rapid nonphotochemical (dark) reversion to Pr that results in a lower photoequilibrium level of the active Pfr form. We conclude that this occurs in vivo as well because phyB-101 mutants are shown to lack an end-of-day-far-red hypocotyl elongation response that requires a stable Pfr species. We propose that this Pfr instability may be the primary molecular mechanism underlying the phyB-101 mutant phenotype.
摘要
尽管植物光敏色素B(phyB)在植物的整个生命周期中发挥着特别重要的作用,但由于其丰度较低,尚未在分子水平上进行详细研究。在此,我们报告了表位标记的拟南芥phyB的表达、与发色团的组装及纯化。此外,我们重建了在长下胚轴筛选中分离出的两个错义突变体phyB-4和phyB-101。我们表明,相对于野生型蛋白,突变蛋白phyB-4和phyB-101表现出改变的分光光度和生化特性。特别是,我们证明phyB-101的Pfr形式表现出快速的非光化学(暗)逆转至Pr,导致活性Pfr形式的光平衡水平较低。我们得出结论,这在体内也会发生,因为phyB-101突变体显示缺乏需要稳定Pfr物种的日终远红光下胚轴伸长反应。我们提出,这种Pfr不稳定性可能是phyB-101突变体表型的主要分子机制。
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