Grotewold E, Chamberlin M, Snook M, Siame B, Butler L, Swenson J, Maddock S, St Clair G, Bowen B
Cold Spring Harbor Laboratory, 1 Bungtown Road, P.O. Box 100, Cold Spring Harbor, New York 11724, USA.
Plant Cell. 1998 May;10(5):721-40.
Manipulation of plant natural product biosynthesis through genetic engineering is an attractive but technically challenging goal. Here, we demonstrate that different secondary metabolites can be produced in cultured maize cells by ectopic expression of the appropriate regulatory genes. Cell lines engineered to express the maize transcriptional activators C1 and R accumulate two cyanidin derivatives, which are similar to the predominant anthocyanin found in differentiated plant tissues. In contrast, cell lines that express P accumulate various 3-deoxy flavonoids. Unexpectedly, P-expressing cells in culture also accumulate phenylpropanoids and green fluorescent compounds that are targeted to different subcellular compartments. Two endogenous biosynthetic genes (c2 and a1, encoding chalcone synthase and flavanone/dihydroflavonol reductase, respectively) are independently activated by ectopic expression of either P or C1/R, and there is a dose-response relationship between the transcript level of P and the degree to which c2 or a1 is expressed. Our results support a simple model showing how the gene encoding P may act as a quantitative trait locus controlling insecticidal C-glycosyl flavone level in maize silks, and they suggest how p1 might confer a selective advantage against insect predation in maize.
通过基因工程操纵植物天然产物生物合成是一个具有吸引力但技术上具有挑战性的目标。在此,我们证明通过异位表达适当的调控基因,可以在培养的玉米细胞中产生不同的次生代谢产物。经过基因工程改造以表达玉米转录激活因子C1和R的细胞系积累了两种花青素衍生物,它们与分化植物组织中发现的主要花青素相似。相比之下,表达P的细胞系积累了各种3-脱氧黄酮类化合物。出乎意料的是,培养中表达P的细胞还积累了靶向不同亚细胞区室的苯丙烷类化合物和绿色荧光化合物。两个内源性生物合成基因(c2和a1,分别编码查尔酮合酶和黄烷酮/二氢黄酮醇还原酶)通过P或C1/R的异位表达而被独立激活,并且P的转录水平与c2或a1的表达程度之间存在剂量反应关系。我们的结果支持了一个简单的模型,该模型展示了编码P的基因如何作为一个数量性状位点控制玉米雌蕊中杀虫C-糖基黄酮的水平,并且它们表明p1可能如何赋予玉米对昆虫捕食的选择性优势。