Li Laigeng, Zhou Yihua, Cheng Xiaofei, Sun Jiayan, Marita Jane M, Ralph John, Chiang Vincent L
School of Forestry and Wood Products, Michigan Technological University, Houghton, MI 49931, USA.
Proc Natl Acad Sci U S A. 2003 Apr 15;100(8):4939-44. doi: 10.1073/pnas.0831166100. Epub 2003 Mar 31.
Lignin quantity and reactivity [which is associated with its syringyl/guaiacyl (S/G) constituent ratio] are two major barriers to wood-pulp production. To verify our contention that these traits are regulated by distinct monolignol biosynthesis genes, encoding 4-coumarate-CoA ligase (4CL) and coniferaldehyde 5-hydroxylase (CAld5H), we used Agrobacterium to cotransfer antisense 4CL and sense CAld5H genes into aspen (Populus tremuloides). Trees expressing each one and both of the transgenes were produced with high efficiency. Lignin reduction by as much as 40% with 14% cellulose augmentation was achieved in antisense 4CL plants; S/G-ratio increases as much as 3-fold were observed without lignin quantity change in sense CAld5H plants. Consistent with our contention, these effects were independent but additive, with plants expressing both transgenes having up to 52% less lignin, a 64% higher S/G ratio, and 30% more cellulose. An S/G-ratio increase also accelerated cell maturation in stem secondary xylem, pointing to a role for syringyl lignin moieties in coordinating xylem secondary wall biosynthesis. The results suggest that this multigene cotransfer system should be broadly useful for plant genetic engineering and functional genomics.
木质素的含量和反应活性(与丁香基/愈创木基(S/G)组成比例相关)是木浆生产的两个主要障碍。为了验证我们的观点,即这些性状受编码4-香豆酸辅酶A连接酶(4CL)和松柏醛5-羟化酶(CAld5H)的不同单木质醇生物合成基因调控,我们利用农杆菌将反义4CL基因和正义CAld5H基因共转入杨树(毛果杨)。高效培育出了分别表达每个转基因以及同时表达两个转基因的树木。在反义4CL植株中,木质素减少了多达40%,同时纤维素增加了14%;在正义CAld5H植株中,观察到S/G比例增加了多达3倍,而木质素含量没有变化。与我们的观点一致,这些效应是独立但可累加的,同时表达两个转基因的植株木质素含量减少了多达52%,S/G比例提高了64%,纤维素增加了30%。S/G比例的增加还加速了茎次生木质部细胞的成熟,表明丁香基木质素部分在协调木质部次生壁生物合成中发挥作用。结果表明,这种多基因共转化系统在植物基因工程和功能基因组学中应具有广泛的用途。