A flavonoid 3’-hydroxylase gene cDNA sequence was cloned by RACE and RT-PCR techniques fromChromolaena odorata. The obtained full-length cDNA was named asCoF3’H with GenBank accession number HQ268505.1. It is 1628 bp in length, containing a 1524 bp open reading frame, encoding 507 amino acid residues. The amino acid sequence ofCoF3’H con-tains cytochrome P450 domain and cysteine heme binding region (F××G×R×C×G). Homology analysis by DNAMAN software showed that the deducedCoF3’H protein was highly homologous to F3’H proteins from different species.CoF3’H gene was transferred into tobacco byAgrobacterium-mediated genetic transformation. There was higher content of flavonvoids in T2 trans-genic tobacco than in the wild type. This result shows thatCoF3’H plays an important role in flavonoid biosynthesis, and provides a basis for researches on allelopathy and comprehensive utilization ofC. odorata in the future.%利用RT-PCR和RACE技术从飞机草中克隆得到1628 bp的类黄酮3’-羟化酶cDNA的全长序列,命名为CoF3’H, GenBank登录号为HQ268505.1。CoF3’H基因的编码区长度为1524 bp,编码507个氨基酸。氨基酸序列含P450蛋白结构域和半胱氨酸亚铁血红素结合域保守区(F××G×R×C×G),利用 DNAMAN 软件比对显示, CoF3’H 与其他植物的F3’H蛋白的同源性很高。通过农杆菌介导成功地将CoF3’H基因导入烟草, T2代的转CoF3’H基因烟草植株的黄酮含量显著高于野生型。说明CoF3’H在黄酮的生物合成中起重要作用,为后续研究飞机草的化感作用及综合利用提供基础。
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