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细胞色素P450 710A1(CYP710A1)和细胞色素P450 710A4(CYP710A4)在转基因拟南芥植物中的过表达以牺牲谷甾醇为代价提高了豆甾醇的水平。

Overexpression of CYP710A1 and CYP710A4 in transgenic Arabidopsis plants increases the level of stigmasterol at the expense of sitosterol.

作者信息

Arnqvist Lisa, Persson Mattias, Jonsson Lisbeth, Dutta Paresh C, Sitbon Folke

机构信息

Department of Plant Biology and Forest Genetics, Swedish University of Agricultural Sciences, P.O. Box 7080, 75007, Uppsala, Sweden.

出版信息

Planta. 2008 Jan;227(2):309-17. doi: 10.1007/s00425-007-0618-8. Epub 2007 Oct 2.

DOI:10.1007/s00425-007-0618-8
PMID:17909855
Abstract

Sitosterol and stigmasterol are major sterols in vascular plants. An altered stigmasterol:sitosterol ratio has been proposed to influence the properties of cell membranes, particularly in relation to various stresses, but biosynthesis of stigmasterol is poorly understood. Recently, however, Morikawa et al. (Plant Cell 18:1008-1022, 2006) showed in Arabidopsis thaliana that synthesis of stigmasterol and brassicasterol is catalyzed by two separate sterol C-22 desaturases, encoded by the genes CYP710A1 and CYP710A2, respectively. The proteins belong to a small cytochrome P450 subfamily having four members, denoted by CYP710A1-A4, and are related to the yeast sterol C-22 desaturase Erg5p acting in ergosterol synthesis. Here, we report on our parallel investigation of the Arabidopsis CYP710A family. To elucidate the function of CYP710A proteins, transgenic Arabidopsis plants were generated overexpressing CYP710A1 and CYP710A4. Compared to wild-type plants, both types of transformant displayed a normal phenotype, but contained increased levels of free stigmasterol and a concomitant decrease in the level of free sitosterol. CYP710A1 transformants also displayed higher levels of esterified forms of stigmasterol, cholesterol, 24-methylcholesterol and isofucosterol. The results confirm the findings of Morikawa et al. (Plant Cell 18:1008-1022, 2006) regarding the function of CYP710A1 in stigmasterol synthesis, and show that CYP710A4 also has this capacity. Furthermore, our results suggest that an increased stigmasterol level alone is sufficient to stimulate esterification of other major sterols.

摘要

谷甾醇和豆甾醇是维管植物中的主要甾醇。有人提出,改变豆甾醇与谷甾醇的比例会影响细胞膜的特性,特别是与各种胁迫相关的特性,但豆甾醇的生物合成却知之甚少。然而,最近森川等人(《植物细胞》18:1008 - 1022,2006年)在拟南芥中表明,豆甾醇和油菜甾醇的合成分别由两种不同的甾醇C - 22去饱和酶催化,这两种酶分别由CYP710A1和CYP710A2基因编码。这些蛋白质属于一个小型细胞色素P450亚家族,该亚家族有四个成员,分别命名为CYP710A1 - A4,并且与参与麦角甾醇合成的酵母甾醇C - 22去饱和酶Erg5p相关。在此,我们报告对拟南芥CYP710A家族的平行研究。为了阐明CYP710A蛋白的功能,构建了过表达CYP710A1和CYP710A4的转基因拟南芥植株。与野生型植株相比,这两种类型的转化体均表现出正常的表型,但游离豆甾醇水平升高,同时游离谷甾醇水平降低。CYP710A1转化体还表现出较高水平的豆甾醇、胆固醇、24 - 甲基胆固醇和异岩藻甾醇的酯化形式。这些结果证实了森川等人(《植物细胞》18:1008 - 1022,2006年)关于CYP710A1在豆甾醇合成中功能的发现,并表明CYP710A4也具有这种能力。此外,我们的结果表明,仅豆甾醇水平的升高就足以刺激其他主要甾醇的酯化。

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本文引用的文献

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Stigmasterol reduces plasma cholesterol levels and inhibits hepatic synthesis and intestinal absorption in the rat.豆甾醇可降低大鼠血浆胆固醇水平,并抑制其肝脏合成及肠道吸收。
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