Rasmussen S, Dixon RA
Plant Biology Division, Samuel Roberts Noble Foundation, 2510 Sam Noble Parkway, Ardmore, Oklahoma 73401, USA.
Plant Cell. 1999 Aug;11(8):1537-52. doi: 10.1105/tpc.11.8.1537.
3H-l-Phenylalanine is incorporated into a range of phenylpropanoid compounds when fed to tobacco cell cultures. A significant proportion of (3)H-trans-cinnamic acid formed from (3)H-l-phenylalanine did not equilibrate with exogenous trans-cinnamic acid and therefore may be rapidly channeled through the cinnamate 4-hydroxylase (C4H) reaction to 4-coumaric acid. Such compartmentalization of trans-cinnamic acid was not observed after elicitation or in cell cultures constitutively expressing a bean phenylalanine ammonia-lyase (PAL) transgene. Channeling between PAL and C4H was confirmed in vitro in isolated microsomes from tobacco stems or cell suspension cultures. This channeling was strongly reduced in microsomes from stems or cell cultures of transgenic PAL-overexpressing plants or after elicitation of wild-type cell cultures. Protein gel blot analysis showed that tobacco PAL1 and bean PAL were localized in both soluble and microsomal fractions, whereas tobacco PAL2 was found only in the soluble fraction. We propose that metabolic channeling of trans-cinnamic acid requires the close association of specific forms of PAL with C4H on microsomal membranes.
将3H-L-苯丙氨酸加入烟草细胞培养物中时,它会掺入一系列苯丙烷类化合物中。由3H-L-苯丙氨酸形成的相当一部分3H-反式肉桂酸并未与外源性反式肉桂酸达到平衡,因此可能会迅速通过肉桂酸4-羟化酶(C4H)反应转化为4-香豆酸。在诱导后或在组成型表达菜豆苯丙氨酸解氨酶(PAL)转基因的细胞培养物中未观察到反式肉桂酸的这种区室化现象。在从烟草茎或细胞悬浮培养物中分离出的微粒体中,体外证实了PAL和C4H之间的通道化作用。在转基因PAL过表达植物的茎或细胞培养物的微粒体中或野生型细胞培养物诱导后,这种通道化作用大大降低。蛋白质凝胶印迹分析表明,烟草PAL1和菜豆PAL定位于可溶性和微粒体部分,而烟草PAL2仅存在于可溶性部分。我们提出,反式肉桂酸的代谢通道化需要微粒体膜上特定形式的PAL与C4H紧密结合。