Genome-Wide Identification of the CYP716 Gene Family in Platycodon grandiflorus (Jacq.) A. DC. and Its Role in the Regulation of Triterpenoid Saponin Biosynthesis

Plants Pub Date : 2024-07-16 DOI:10.3390/plants13141946

Wuhua Zhang, Javed Iqbal, Zhihui Hou, Yingdong Fan, Jie Dong, Chengzhi Liu, Tao Yang, Daidi Che, Jinzhu Zhang, Dawei Xin

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Abstract

The main type of saponins occurring in the root of Platycodon grandiflorus (Jacq.) A. DC. are oleanolic acid glycosides. The CYP716 gene family plays a major role in catalyzing the conversion of β-amyrin into oleanolic acid. However, studies on the CYP716 genes in P. grandiflorus are limited, and its evolutionary history remains poorly understood. In this study, 22 PgCYP716 genes were identified, distributed among seven subfamilies. Cis-acting elements of the PgCYP716 promoters were mainly involved in plant hormone regulation and responses to abiotic stresses. PgCYP716A264, PgCYP716A391, PgCYP716A291, and PgCYP716BWv3 genes were upregulated in the root and during saponin accumulation, as shown by RNA-seq analysis, suggesting that these four genes play an important role in saponin synthesis. The results of subcellular localization indicated that these four genes encoded membrane proteins. Furthermore, the catalytic activity of these four genes was proved in the yeast, which catalyzed the conversion of β-amyrin into oleanolic acid. We found that the content of β-amyrin, platycodin D, platycoside E, platycodin D3, and total saponins increased significantly when either of the four genes was over expressed in the transgenic hair root. In addition, the expression of PgSS, PgGPPS2, PgHMGS, and PgSE was also upregulated while these four genes were overexpressed. These data support that these four PgCYP716 enzymes oxidize β-amyrin to produce oleanolic acid, ultimately promoting saponin accumulation by activating the expression of upstream pathway genes. Our results enhanced the understanding of the functional variation among the PgCYP716 gene family involved in triterpenoid biosynthesis and provided a theoretical foundation for improving saponin content and enriching the saponin biosynthetic pathway in P. grandiflorus.

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Platycodon grandiflorus (Jacq.) A. DC.中 CYP716 基因家族的全基因组鉴定及其在调节三萜类皂苷合成中的作用

桔梗根中的主要皂甙类型是齐墩果酸苷。CYP716 基因家族在催化 β-amyrin 转化为齐墩果酸的过程中发挥了重要作用。然而，对大花金雀花属植物 CYP716 基因的研究十分有限，对其进化史也知之甚少。本研究发现了 22 个 PgCYP716 基因，分布在 7 个亚科中。PgCYP716 启动子的顺式作用元件主要涉及植物激素调控和对非生物胁迫的响应。RNA-seq分析表明，PgCYP716A264、PgCYP716A391、PgCYP716A291和PgCYP716BWv3基因在根部和皂素积累过程中上调，表明这四个基因在皂素合成中起重要作用。亚细胞定位结果表明，这四个基因编码膜蛋白。此外，这四个基因在酵母中的催化活性也得到了证实，它们可以催化β-amyrin转化为齐墩果酸。我们发现，当这四个基因中的任何一个在转基因毛根中过度表达时，β-amyrin、桔梗皂苷 D、桔梗皂苷 E、桔梗皂苷 D3 和总皂苷的含量都会显著增加。此外，当这四个基因过度表达时，PgSS、PgGPPS2、PgHMGS 和 PgSE 的表达也上调。这些数据支持这四种 PgCYP716 酶氧化 β-amyrin 生成齐墩果酸，最终通过激活上游通路基因的表达促进皂素积累。我们的研究结果加深了对参与三萜类化合物生物合成的 PgCYP716 基因家族功能变异的了解，为提高大花蝙蝠蛾皂苷含量和丰富皂苷生物合成途径提供了理论依据。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Plants

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