在茶树中,一种香叶醇合成酶通过选择性剪接调节植物防御。

IF 7.6 Q1 GENETICS & HEREDITY
园艺研究(英文) Pub Date : 2023-09-12 eCollection Date: 2023-10-01 DOI:10.1093/hr/uhad184
Hao Jiang, Mengting Zhang, Feng Yu, Xuehui Li, Jieyang Jin, Youjia Zhou, Qiang Wang, Tingting Jing, Xiaochun Wan, Wilfried Schwab, Chuankui Song
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引用次数: 0

摘要

香叶醇是茶产品中令人愉悦的花香的重要成分,也是茶树中最丰富的香气化合物之一;然而,其生物合成和在茶树胁迫下的生理功能尚不清楚。当GPP作为底物时,全长萜烯合酶(CsTPS1)及其替代剪接异构体(CsTPS1-AS)编码的蛋白质可以催化香叶醇的形成,而CsTPS1-AS的表达仅由球孢炭疽菌和新香蒜菌感染显著诱导。CsTPS1和CsTPS1-AS的沉默导致茶树中香叶醇含量显著降低。比较了CsTPS1和CsTPS1AS沉默时茶树的香叶醇含量和抗病性。下调CsTPS1-AS的表达减少了香叶醇的积累,并且与对照植物相比,沉默的茶树表现出更大的病原体感染易感性。然而,在感染两种病原体的茶树中,CsTPS1沉默株和对照株在香叶醇含量和病原体抗性方面没有观察到显著差异。进一步的分析表明,CsTPS1-AS的沉默导致茶树防御相关基因PR1和PR2以及SA途径相关基因的表达减少,这增加了茶树对病原体感染的易感性。体外和体内研究结果均表明,CsTPS1通过选择性剪接参与茶树香叶醇形成和植物防御的调控。这项研究的结果为香叶醇的生物合成提供了新的见解,并强调了单萜合成酶在通过选择性剪接调节植物抗病性中的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A geraniol synthase regulates plant defense via alternative splicing in tea plants.

A geraniol synthase regulates plant defense via alternative splicing in tea plants.

A geraniol synthase regulates plant defense via alternative splicing in tea plants.

A geraniol synthase regulates plant defense via alternative splicing in tea plants.

Geraniol is an important contributor to the pleasant floral scent of tea products and one of the most abundant aroma compounds in tea plants; however, its biosynthesis and physiological function in response to stress in tea plants remain unclear. The proteins encoded by the full-length terpene synthase (CsTPS1) and its alternative splicing isoform (CsTPS1-AS) could catalyze the formation of geraniol when GPP was used as a substrate in vitro, whereas the expression of CsTPS1-AS was only significantly induced by Colletotrichum gloeosporioides and Neopestalotiopsis sp. infection. Silencing of CsTPS1 and CsTPS1-AS resulted in a significant decrease of geraniol content in tea plants. The geraniol content and disease resistance of tea plants were compared when CsTPS1 and CsTPS1-AS were silenced. Down-regulation of the expression of CsTPS1-AS reduced the accumulation of geraniol, and the silenced tea plants exhibited greater susceptibility to pathogen infection than control plants. However, there was no significant difference observed in the geraniol content and pathogen resistance between CsTPS1-silenced plants and control plants in the tea plants infected with two pathogens. Further analysis showed that silencing of CsTPS1-AS led to a decrease in the expression of the defense-related genes PR1 and PR2 and SA pathway-related genes in tea plants, which increased the susceptibility of tea plants to pathogens infections. Both in vitro and in vivo results indicated that CsTPS1 is involved in the regulation of geraniol formation and plant defense via alternative splicing in tea plants. The results of this study provide new insights into geraniol biosynthesis and highlight the role of monoterpene synthases in modulating plant disease resistance via alternative splicing.

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