It is currently possible to transfer a biosynthetic pathway from a plant to another organism. This system has been exploited to transfer the metabolic richness of certain plant species to other plants or even to more simple metabolic organisms such as yeast or bacteria for the production of high added value plant compounds. Another application is to bioconvert substrates into scarcer or biologically more interesting compounds, such as piceatannol and pterostilbene. These two resveratrol-derived stilbenes, which have very promising pharmacological activities, are found in plants only in small amounts. By transferring the human cytochrome P450 hydroxylase 1B1 (HsCYP1B1) gene to tobacco hairy roots and cell cultures, we developed a system able to bioconvert exogenous t-resveratrol into piceatannol in quantities near to mg L−1. Similarly, after heterologous expression of resveratrol O-methyltransferase from Vitis vinifera (VvROMT) in tobacco hairy roots, the exogenous t-resveratrol was bioconverted into pterostilbene. We also observed that both bioconversions can take place in tobacco wild type hairy roots (pRiA4, without any transgene), showing that unspecific tobacco P450 hydroxylases and methyltransferases can perform the bioconversion of t-resveratrol to give the target compounds, albeit at a lower rate than transgenic roots.
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机译:目前有可能将生物合成途径从植物转移至另一生物。已经开发了该系统以将某些植物物种的代谢丰富性转移至其他植物,甚至转移至更简单的代谢生物,例如酵母或细菌,以生产高附加值的植物化合物。另一个应用是将底物生物转化为稀有的或生物学上更有趣的化合物,例如皮卡季诺醇和萜烯。这两种白藜芦醇衍生的对苯二酚具有非常有希望的药理活性,仅在植物中少量发现。通过将人类细胞色素P450羟化酶1B1(HsCYP1B1)基因转移到烟草毛状根和细胞培养物中,我们开发了一种系统,能够将外源t-白藜芦醇生物转化为苦味酚,其含量接近mg L -1 。类似地,在烟草毛状根中异种表达了来自葡萄的白藜芦醇O-甲基转移酶(VvROMT)之后,外源的t-白藜芦醇被生物转化为紫檀皮。我们还观察到,两种生物转化均可发生在烟草野生型毛状根(pRiA4,无任何转基因)中,表明非特异性烟草P450羟化酶和甲基转移酶可进行t-白藜芦醇的生物转化,从而以较低的速率转化为目标化合物。比转基因的根。
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