无腺体基因是一种番茄HD-ZIP转录因子，对VI型毛状体的腺体形成很重要。

Glandless, a tomato HD-ZIP transcription factor, is important for the gland formation of type VI trichomes.

作者信息

Zocca Pietro, van Doore Eva, Roovers Alwin J M, Glas Joris J, Uittenbogaard Maarten, Verlaan Maarten G, van Herwijnen Zeger, Haring Michel A, Schuurink Robert C

机构信息

Green Life Sciences Research Cluster, Swammerdam Institute for Life Sciences, University of Amsterdam, Amsterdam, 1098 XH, The Netherlands.

Rijk Zwaan Breeding B.V., Burgemeester Crezéelaan 40, 2678 ZG, De Lier, The Netherlands.

出版信息

Plant J. 2025 Jul;123(1):e70308. doi: 10.1111/tpj.70308.

DOI:10.1111/tpj.70308

PMID:40605474

Abstract

Tomato (Solanum lycopersicum) is a model plant to study glandular trichome development and their specialized metabolism, and several transcription factors (TF) regulating these intertwined traits and their network have been functionally characterized. Among them are members of the homeodomain leucine zipper subfamily IV (HD-ZIP IV). Here, we study a tomato EMS-mutant line, glandless, presenting mutant, glandless type VI trichomes with a consequential reduction in volatile terpene levels. This mutant trichome also has some morphological characteristics of a type IV trichome. The glandless mutant has altered trichome densities, and acylsugar biosynthesis is slightly increased. As verified via virus-induced gene silencing (VIGS), the gene underlying this phenotype is SlHDZ38, the first member of HD-ZIP subfamily I found to regulate the development and specialized metabolism of glandular trichomes. Additionally, we show that the expression of an intricate network of known trichome-related regulatory TFs and biosynthetic enzymes is affected by the glandless mutation. Overall, our results contribute to the elucidation of the network of TFs controlling tomato trichomes.

摘要

番茄（Solanum lycopersicum）是研究腺毛发育及其特殊代谢的模式植物，并且已经对几种调控这些相互关联性状及其网络的转录因子（TF）进行了功能表征。其中包括同源结构域亮氨酸拉链IV亚家族（HD-ZIP IV）的成员。在此，我们研究了一个番茄EMS突变系——无腺体，其呈现出突变的无腺体VI型腺毛，挥发性萜烯水平相应降低。这种突变腺毛还具有IV型腺毛的一些形态特征。无腺体突变体的腺毛密度发生了改变，酰基糖生物合成略有增加。通过病毒诱导基因沉默（VIGS）验证，导致这种表型的基因是SlHDZ38，它是HD-ZIP亚家族I中首个被发现调控腺毛发育和特殊代谢的成员。此外，我们表明，已知的与腺毛相关的调控转录因子和生物合成酶的复杂网络的表达受到无腺体突变的影响。总体而言，我们的结果有助于阐明控制番茄腺毛的转录因子网络。

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无腺体基因是一种番茄HD-ZIP转录因子，对VI型毛状体的腺体形成很重要。

Glandless, a tomato HD-ZIP transcription factor, is important for the gland formation of type VI trichomes.

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