Genome-based discovery of pachysiphine synthases in Tabernaemontana elegans.

IF 6.2 1区 生物学 Q1 PLANT SCIENCES The Plant Journal Pub Date : 2024-10-20 DOI:10.1111/tpj.17085
Enzo Lezin, Mickael Durand, Caroline Birer Williams, Ana Luisa Lopez Vazquez, Thomas Perrot, Nicolas Gautron, Julien Pétrignet, Clément Cuello, Hans J Jansen, Florent Magot, Sarah Szwarc, Pierre Le Pogam, Mehdi A Beniddir, Konstantinos Koudounas, Audrey Oudin, Benoit St-Pierre, Nathalie Giglioli-Guivarc'h, Chao Sun, Nicolas Papon, Michael Krogh Jensen, Ron P Dirks, Sarah E O'Connor, Sébastien Besseau, Vincent Courdavault
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Abstract

Plant-specialized metabolism represents an inexhaustible source of active molecules, some of which have been used in human health for decades. Among these, monoterpene indole alkaloids (MIAs) include a wide range of valuable compounds with anticancer, antihypertensive, or neuroactive properties. This is particularly the case for the pachysiphine derivatives which show interesting antitumor and anti-Alzheimer activities but accumulate at very low levels in several Tabernaemontana species. Unfortunately, genome data in Tabernaemontanaceae are lacking and knowledge on the biogenesis of pachysiphine-related MIAs in planta remains scarce, limiting the prospects for the biotechnological supply of many pachysiphine-derived biopharmaceuticals. Here, we report a raw version of the toad tree (Tabernaemontana elegans) genome sequence. These new genomic resources led to the identification and characterization of a couple of genes encoding cytochrome P450 with pachysiphine synthase activity. Our phylogenomic and docking analyses highlight the different evolutionary processes that have been recruited to epoxidize the pachysiphine precursor tabersonine at a specific position and in a dedicated orientation, thus enriching our understanding of the diversification and speciation of the MIA metabolism in plants. These gene discoveries also allowed us to engineer the synthesis of MIAs in yeast through the combinatorial association of metabolic enzymes resulting in the tailor-made synthesis of non-natural MIAs. Overall, this work represents a step forward for the future supply of pachysiphine-derived drugs by microbial cell factories.

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基于基因组发现蛛形纲中的茯苓碱合成酶。
植物特有的新陈代谢是活性分子取之不尽用之不竭的源泉,其中一些活性分子几十年来一直被用于人类健康。其中,单萜吲哚生物碱(MIAs)包括多种具有抗癌、降压或神经活性的珍贵化合物。尤其是茯苓碱衍生物,它显示出有趣的抗肿瘤和抗阿尔茨海默氏症活性,但在几种 Tabernaemontana 树种中的积累水平非常低。遗憾的是,塔伯纳蒙坦科(Tabernaemontanaceae)中缺乏基因组数据,植物体内茯苓碱相关 MIAs 的生物生成知识仍然匮乏,这限制了许多茯苓碱衍生生物制药的生物技术供应前景。在此,我们报告了蟾蜍树(Tabernaemontana elegans)基因组序列的原始版本。通过这些新的基因组资源,我们发现了几个编码具有酚酞合成酶活性的细胞色素 P450 的基因,并确定了它们的特征。我们的系统发生组和对接分析突出显示了不同的进化过程,这些进化过程在特定的位置和专门的方向上将茯苓碱前体塔巴索宁环氧化,从而丰富了我们对植物中 MIA 代谢的多样化和物种化的理解。这些基因的发现还使我们能够通过代谢酶的组合联合,在酵母中设计合成 MIAs,从而定制合成非天然 MIAs。总之,这项工作代表着未来通过微生物细胞工厂供应茯苓碱衍生药物向前迈进了一步。
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来源期刊
The Plant Journal
The Plant Journal 生物-植物科学
CiteScore
13.10
自引率
4.20%
发文量
415
审稿时长
2.3 months
期刊介绍: Publishing the best original research papers in all key areas of modern plant biology from the world"s leading laboratories, The Plant Journal provides a dynamic forum for this ever growing international research community. Plant science research is now at the forefront of research in the biological sciences, with breakthroughs in our understanding of fundamental processes in plants matching those in other organisms. The impact of molecular genetics and the availability of model and crop species can be seen in all aspects of plant biology. For publication in The Plant Journal the research must provide a highly significant new contribution to our understanding of plants and be of general interest to the plant science community.
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