Gambetta G A, Lagarias J C
Section of Molecular and Cellular Biology, University of California, Davis, CA 95616, USA.
Proc Natl Acad Sci U S A. 2001 Sep 11;98(19):10566-71. doi: 10.1073/pnas.191375198.
The bilin prosthetic groups of the phytochrome photoreceptors and the light-harvesting phycobiliprotein antennae arise from the oxygen-dependent ring opening of heme. Two ferredoxin-dependent enzymes contribute to this conversion: a heme oxygenase and a bilin reductase with discrete double-bond specificity. Using a dual plasmid system, one expressing a truncated cyanobacterial apophytochrome 1, Cph1(N514), and the other expressing a two-gene operon consisting of a heme oxygenase and a bilin reductase, these studies establish the feasibility of producing photoactive phytochromes in any heme-containing cell. Heterologous expression systems for phytochromes not only will facilitate genetic analysis of their assembly, spectrophotometric activity, and biological function, but also might afford the means to regulate gene expression by light in nonplant cells.
光敏色素光感受器和捕光藻胆蛋白天线的胆色素辅基源于血红素的氧依赖性开环。两种铁氧还蛋白依赖性酶参与了这一转化过程:一种血红素加氧酶和一种具有离散双键特异性的胆色素还原酶。利用双质粒系统,一个表达截短的蓝细菌脱辅基光敏色素1(Cph1(N514)),另一个表达由血红素加氧酶和胆色素还原酶组成的双基因操纵子,这些研究证实了在任何含血红素的细胞中产生光活性光敏色素的可行性。光敏色素的异源表达系统不仅将有助于对其组装、分光光度活性和生物学功能进行遗传分析,而且还可能提供在非植物细胞中通过光调节基因表达的手段。