一个在苯丙烷类通用途径中存在缺陷的拟南芥突变体。
An Arabidopsis mutant defective in the general phenylpropanoid pathway.
作者信息
Chapple C C, Vogt T, Ellis B E, Somerville C R
机构信息
Department of Energy Plant Research Laboratory, Michigan State University, East Lansing 48824.
出版信息
Plant Cell. 1992 Nov;4(11):1413-24. doi: 10.1105/tpc.4.11.1413.
Abstract
Mutants of Arabidopsis deficient in a major leaf phenylpropanoid ester, 2-O-sinapoyl-L-malate, were identified by thin-layer chromatographic screening of methanolic leaf extracts from several thousand mutagenized plants. Mutations at a locus designated SIN1 also eliminate accumulation of the sinapic acid esters characteristic of seed tissues. Because of increased transparency to UV light, the sin1 mutants exhibit a characteristic red fluorescence under UV light, whereas wild-type plants have a blue-green appearance due to the fluorescence of sinapoyl malate in the upper epidermis. As determined by in vivo radiotracer feeding experiments, precursor supplementation studies, and enzymatic assays, the defect in the sin1 mutants appears to block the conversion of ferulate to 5-hydroxyferulate in the general phenylpropanoid pathway. As a result, the lignin of the mutant lacks the sinapic acid-derived components typical of wild-type lignin.
摘要
通过对数千株诱变植物的甲醇叶提取物进行薄层色谱筛选,鉴定出拟南芥中缺乏主要叶片苯丙烷酯2-O-芥子酰基-L-苹果酸的突变体。位于SIN1位点的突变也消除了种子组织特有的芥子酸酯的积累。由于对紫外线的透明度增加,sin1突变体在紫外线下呈现出特征性的红色荧光,而野生型植物由于上表皮中芥子酰苹果酸的荧光而呈现蓝绿色外观。通过体内放射性示踪剂饲喂实验、前体补充研究和酶活性测定确定,sin1突变体中的缺陷似乎阻断了苯丙烷类通用途径中阿魏酸向5-羟基阿魏酸的转化。因此,突变体的木质素缺乏野生型木质素中典型的源自芥子酸的成分。
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