摘要
用RT_PCR方法从毛白杨 (PopulustomentosaCarr.)中克隆了CCoAOMT基因的cDNA片段 ,并对其序列进行了分析。Northern杂交表明该基因在毛白杨正在木质化的次生木质部高水平表达 ,且与木质化进程同步。构建了该基因反义表达载体 ,根癌土壤杆菌 (Agrobacteriumtumefaciens (SmithetTownsend)Conn)介导转化杂交杨 (欧洲山杨×银白杨 ,P .tremula×P .alba)。采用PCR、PCR_Southern及Southern杂交对获得的转基因植株进行分子检测 ,并测定移栽 5~ 6个月的转基因植株的Klason木质素含量 ,其中一个转基因株系的Klason木质素含量比未转基因对照杨树下降 17.9%。结果表明利用反义RNA技术对杨树CCoAOMT基因的表达可以降低转基因植株的木质素含量 。
cDNA encoding caffeoyl CoA O-methyltransferase (CCoAOMT) from Chinese white poplar ( Populus tomentosa Carr.) was cloned by RT-PCR and sequenced. Northern analysis displayed that the CCoAOMT was expressed specifically in the developing secondary xylem and its expression was coincident with lignification. The antisense CCoAOMT cDNA was transformed into P. tremula x P. alba mediated by Agrobacterium tumefaciens ( Smith et Townsend) Conn. Transgenic plants were identified with PCR, PCR-Southern and Southern analysis. Lignin content in 5- to 6-month-old transgenic plants was measured. One of the transgenic lines had significant reduction of 17.9% in Klason lignin content as compared with that of untransformed poplar. The results demonstrate that antisense repression of CCoAOMT is an efficient way to reduce lignin content for improving pulping property in engineered trees.