百日草属植物木质素生物合成中的另一种甲基化途径。

An alternative methylation pathway in lignin biosynthesis in Zinnia.

作者信息

Ye Z H, Kneusel R E, Matern U, Varner J E

机构信息

Department of Biology, Washington University, St. Louis, Missouri 63130.

出版信息

Plant Cell. 1994 Oct;6(10):1427-39. doi: 10.1105/tpc.6.10.1427.

DOI:10.1105/tpc.6.10.1427

PMID:7994176

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC160531/

Abstract

S-Adenosyl-L-methionine:trans-caffeoyl-coenzyme A 3-O-methyltransferase (CCoAOMT) is implicated in disease resistant response, but whether it is involved in lignin biosynthesis is not known. We isolated a cDNA clone for CCoAOMT in differentiating tracheary elements (TEs) induced from Zinnia-isolated mesophyll cells. RNA gel blot analysis showed that the expression of the CCoAOMT gene was markedly induced during TE differentiation from the isolated mesophyll cells. Tissue print hybridization showed that the expression of the CCoAOMT gene is temporally and spatially regulated and that it is associated with lignification in xylem and in phloem fibers in Zinnia organs. Both CCoAOMT and caffeic acid O-methyltransferase (COMT) activities increased when the isolated Zinnia mesophyll cells were cultured, whereas only CCoAOMT activity was markedly enhanced during lignification in the in vitro-differentiating TEs. The induction pattern of the OMT activity using 5-hydroxyferuloyl CoA as substrate during lignification was the same as that using caffeoyl CoA. Taken together, the results indicate that CCoAOMT is associated with lignification during xylogenesis both in vitro and in the plant, whereas COMT is only involved in a stress response in vitro. We propose that CCoAOMT is involved in an alternative methylation pathway in lignin biosynthesis. In Zinnia in vitro-differentiating TEs, the CCoAOMT mediated methylation pathway is dominant.

摘要

S-腺苷-L-甲硫氨酸：反式咖啡酰辅酶A 3-O-甲基转移酶（CCoAOMT）与抗病反应有关，但它是否参与木质素生物合成尚不清楚。我们从百日草分离的叶肉细胞诱导分化的管状分子（TEs）中分离出一个CCoAOMT的cDNA克隆。RNA凝胶印迹分析表明，在从分离的叶肉细胞分化为TEs的过程中，CCoAOMT基因的表达明显被诱导。组织印记杂交表明，CCoAOMT基因的表达在时间和空间上受到调控，并且与百日草器官中木质部和韧皮部纤维的木质化有关。当培养分离的百日草叶肉细胞时，CCoAOMT和咖啡酸O-甲基转移酶（COMT）的活性均增加，而在体外分化的TEs木质化过程中，只有CCoAOMT活性显著增强。在木质化过程中，以5-羟基阿魏酰辅酶A为底物时OMT活性的诱导模式与以咖啡酰辅酶A为底物时相同。综上所述，结果表明CCoAOMT在体外和植物体内的木质部形成过程中均与木质化有关，而COMT仅参与体外的应激反应。我们提出CCoAOMT参与木质素生物合成中的一条替代甲基化途径。在百日草体外分化的TEs中，CCoAOMT介导的甲基化途径占主导地位。

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