肌醇加氧酶控制拟南芥中肌醇的水平,但不会增加抗坏血酸的含量。
Myoinositol oxygenase controls the level of myoinositol in Arabidopsis, but does not increase ascorbic acid.
作者信息
Endres Stefanie, Tenhaken Raimund
机构信息
University of Salzburg, 5020 Salzburg, Austria.
出版信息
Plant Physiol. 2009 Feb;149(2):1042-9. doi: 10.1104/pp.108.130948. Epub 2008 Dec 17.
Abstract
Ascorbic acid (AsA) is a major plant antioxidant. Mutants like vtc1 show a reduced AsA concentration, which confirmed by genetic evidence the previously proposed AsA pathway via GDP-Man. Here we investigate the role of an animal-like alternative biosynthesis route to AsA, starting from the metabolite D-GlcUA, which is produced in plants by myoinositol oxygenase (Miox). Miox-overexpressing lines have a more than 30-fold up-regulated transcript level and higher enzymatic activity as shown by increased incorporation of Miox-derived sugars into cell wall polymers. In addition, Miox overexpressors exhibit a lower steady-state level of myoinositol and accumulate less myoinositol in feeding experiments due to an enhanced turnover rate. The AsA concentration remains the same in wild-type and Miox overexpressor lines. Even challenging plants with stress, which increases AsA concentration 4-fold, reveals no difference in AsA biosynthesis between wild-type and Miox-overexpressing lines. We conclude that D-GlcUA derived from the Miox reaction plays a negligible role for AsA biosynthesis. However, Miox controls the metabolite level of myoinositol in plants.
摘要
抗坏血酸(AsA)是植物中的一种主要抗氧化剂。像vtc1这样的突变体显示出AsA浓度降低,这通过遗传证据证实了先前提出的经由GDP-甘露糖的AsA合成途径。在此,我们研究了一条类似动物的AsA替代生物合成途径的作用,该途径从代谢物D-葡糖醛酸(D-GlcUA)开始,植物中由肌醇加氧酶(Miox)产生D-葡糖醛酸。Miox过表达系的转录水平上调超过30倍,且酶活性更高,这表现为Miox衍生的糖更多地掺入细胞壁聚合物中。此外,Miox过表达体的肌醇稳态水平较低,并且在饲喂实验中由于周转率提高而积累的肌醇较少。野生型和Miox过表达系中的AsA浓度保持相同。即使对植物施加胁迫使其AsA浓度增加4倍,野生型和Miox过表达系之间的AsA生物合成也没有差异。我们得出结论,Miox反应产生的D-葡糖醛酸在AsA生物合成中起的作用微不足道。然而,Miox控制着植物中肌醇的代谢物水平。
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