Kay S. A., Nagatani A., Keith B., Deak M., Furuya M., Chua N. H.
The Laboratory of Plant Molecular Biology, The Rockefeller University, New York, New York 10021.
Plant Cell. 1989 Aug;1(8):775-782. doi: 10.1105/tpc.1.8.775.
To investigate the mechanisms of phytochrome action in vivo, we have overexpressed rice phytochrome in transgenic tobacco plants. A full-length rice phytochrome cDNA was fused to the cauliflower mosaic virus 35S promoter and transferred to tobacco. The progeny of some of the transgenic plants contain large amounts of rice phytochrome mRNA in green leaves. Extracts prepared from overexpressing plants contain twofold to fivefold more spectrophotometrically detectable phytochrome than extracts from control plants. Species-specific, anti-phytochrome monoclonal antibodies were used in immunoblots to discriminate between rice and tobacco phytochrome apoproteins in fractions eluted from a DEAE-Sepharose column. Red minus far-red difference spectra of the partially purified rice phytochrome from the transgenic plants indicate that the rice phytochrome assembles with chromophore and is photoreversible. Analysis of the circadian pattern of Cab mRNA levels in transgenic plants versus controls demonstrates that the overproduction of rice phytochrome extends the duration of the free-running rhythm of Cab gene expression. The rice phytochrome is, therefore, biologically active in the transgenic tobacco plant, which establishes a system for in vivo functional analysis of phytochrome.
为了研究植物色素在体内的作用机制,我们在转基因烟草植株中过量表达了水稻植物色素。将全长水稻植物色素cDNA与花椰菜花叶病毒35S启动子融合,然后转入烟草。一些转基因植株的后代在绿叶中含有大量的水稻植物色素mRNA。与对照植株提取物相比,过量表达植株提取物中通过分光光度法可检测到的植物色素多两到五倍。在免疫印迹中使用物种特异性的抗植物色素单克隆抗体,以区分从DEAE-琼脂糖柱洗脱的组分中的水稻和烟草植物色素脱辅基蛋白。转基因植株中部分纯化的水稻植物色素的红减远红差光谱表明,水稻植物色素与发色团组装在一起且具有光可逆性。对转基因植株与对照植株中Cab mRNA水平的昼夜模式分析表明,水稻植物色素的过量产生延长了Cab基因表达自由运行节律的持续时间。因此,水稻植物色素在转基因烟草植株中具有生物活性,这建立了一个用于植物色素体内功能分析的系统。