TrichomeLess Regulator 3 is required for trichome initial and cuticle biosynthesis in Artemisia annua.

IF 10.6 Q1 HORTICULTURE
Boran Dong, Zihan Xu, Xingxing Wang, JinXing Li, Ying Xiao, Doudou Huang, Zongyou Lv, Wansheng Chen
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引用次数: 0

Abstract

Artemisinin is primarily synthesized and stored in the subepidermal space of the glandular trichomes of Artemisia annua. The augmentation of trichome density has been demonstrated to enhance artemisinin yield. However, existing literature lacks insights into the correlation between the stratum corneum and trichomes. This study aims to unravel the involvement of TrichomeLess Regulator 3 (TLR3), which encodes the transcription factor, in artemisinin biosynthesis and its potential association with the stratum corneum. TLR3 was identified as a candidate gene through transcriptome analysis. The role of TLR3 in trichome development and morphology was investigated using yeast two-hybrid, pull-down analysis, and RNA electrophoresis mobility assay. Our research revealed that TLR3 negatively regulates trichome development. It modulates the morphology of Arabidopsis thaliana trichomes by inhibiting branching and inducing the formation of abnormal trichomes in Artemisia annua. Overexpression of the TLR3 gene disrupts the arrangement of the stratum corneum and reduces artemisinin content. Simultaneously, TLR3 possesses the capacity to regulate stratum corneum development and trichome follicle morphology by interacting with TRICHOME AND ARTEMISININ REGULATOR 1, and CycTL. Consequently, our findings underscore the pivotal role of TLR3 in the development of glandular trichomes and stratum corneum biosynthesis, thereby influencing the morphology of Artemisia annua trichomes.

黄花蒿的毛状体初始化和角质层生物合成需要无毛状体调节器 3。
青蒿素主要在黄花蒿腺毛的表皮下空间合成和储存。事实证明,增加毛状体密度可提高青蒿素产量。然而,现有文献缺乏对角质层与毛状体之间相关性的深入研究。本研究旨在揭示无毛状体调节器 3(TLR3)(编码转录因子)参与青蒿素生物合成的情况及其与角质层的潜在关联。通过转录组分析,TLR3 被确定为候选基因。我们使用酵母双杂交、拉低分析和 RNA 电泳迁移率测定法研究了 TLR3 在毛状体发育和形态中的作用。我们的研究发现,TLR3 负向调控毛状体的发育。它通过抑制拟南芥毛状体的分枝和诱导黄花蒿中异常毛状体的形成来调节拟南芥毛状体的形态。过量表达 TLR3 基因会破坏角质层的排列并降低青蒿素含量。同时,TLR3 还能通过与毛囊和青蒿素调节因子 1 及 CycTL 相互作用,调节角质层的发育和毛囊形态。因此,我们的发现强调了 TLR3 在腺毛状体的发育和角质层生物合成中的关键作用,从而影响了黄花蒿毛状体的形态。
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来源期刊
Molecular Horticulture
Molecular Horticulture horticultural research-
CiteScore
8.00
自引率
0.00%
发文量
24
审稿时长
12 weeks
期刊介绍: Aims Molecular Horticulture aims to publish research and review articles that significantly advance our knowledge in understanding how the horticultural crops or their parts operate mechanistically. Articles should have profound impacts not only in terms of high citation number or the like, but more importantly on the direction of the horticultural research field. Scope Molecular Horticulture publishes original Research Articles, Letters, and Reviews on novel discoveries on the following, but not limited to, aspects of horticultural plants (including medicinal plants): ▪ Developmental and evolutionary biology ▪ Physiology, biochemistry and cell biology ▪ Plant-microbe and plant-environment interactions ▪ Genetics and epigenetics ▪ Molecular breeding and biotechnology ▪ Secondary metabolism and synthetic biology ▪ Multi-omics dealing with data sets of genome, transcriptome, proteome, metabolome, epigenome and/or microbiome. The journal also welcomes research articles using model plants that reveal mechanisms and/or principles readily applicable to horticultural plants, translational research articles involving application of basic knowledge (including those of model plants) to the horticultural crops, novel Methods and Resources of broad interest. In addition, the journal publishes Editorial, News and View, and Commentary and Perspective on current, significant events and topics in global horticultural fields with international interests.
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