TCP转录因子HvTB2与VRS5异源二聚体并控制大麦穗结构。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Tatiana de Souza Moraes, Sam W van Es, Inmaculada Hernández-Pinzón, Gwendolyn K Kirschner, Froukje van der Wal, Sylvia Rodrigues da Silveira, Jacqueline Busscher-Lange, Gerco C Angenent, Matthew Moscou, Richard G H Immink, G Wilma van Esse
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引用次数: 4

摘要

关键信息:了解VRS5的分子网络,包括蛋白-蛋白相互作用,为鉴定大麦植株结构的其他关键调控因子提供了新的途径。TCP转录调控因子TEOSINTE BRANCHED 1 (TB1)是植物结构的关键调控因子。在大麦这种重要的谷类作物中,HvTB1(也被称为VULGARE六棱穗(VRS) 5)抑制侧芽或分蘖和籽粒的生长。尽管VRS5在大麦发育中起着关键作用,但对其所利用的分子网络的了解有限。在这项工作中,我们进行了VRS5蛋白-蛋白相互作用的研究。我们的分析表明,VRS5可能与多种蛋白质相互作用,包括其他II类TCP, NF-Y TF,以及染色质重塑蛋白。放大VRS5与其他TCP tf的交互能力可以看出,VRS5更适合与TB1分支中的其他II类TCP tf进行交互。通过CRISPR-Cas对一种假定的VRS5相互作用物HvTB2(也称为COMPOSITUM 1和BRANCHED and INDETERMINATE SPIKELET 1)进行诱变,导致植物失去了其特征的未分枝穗结构。更具体地说,hvtb2突变体在主尖峰处表现出分支,这表明hvtb2可以抑制分支。我们对VRS5蛋白-蛋白相互作用的研究结果表明,HvTB2可能是VRS5的相互作用因子,VRS5是大麦穗结构的另一个关键调节因子。本文提出的研究为支持VRS5蛋白-蛋白相互作用组提供了第一步,并确定了大麦植株结构的其他未知关键调控因子。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The TCP transcription factor HvTB2 heterodimerizes with VRS5 and controls spike architecture in barley.

The TCP transcription factor HvTB2 heterodimerizes with VRS5 and controls spike architecture in barley.

The TCP transcription factor HvTB2 heterodimerizes with VRS5 and controls spike architecture in barley.

The TCP transcription factor HvTB2 heterodimerizes with VRS5 and controls spike architecture in barley.

Key message: Understanding the molecular network, including protein-protein interactions, of VRS5 provide new routes towards the identification of other key regulators of plant architecture in barley. The TCP transcriptional regulator TEOSINTE BRANCHED 1 (TB1) is a key regulator of plant architecture. In barley, an important cereal crop, HvTB1 (also referred to as VULGARE SIX-ROWED spike (VRS) 5), inhibits the outgrowth of side shoots, or tillers, and grains. Despite its key role in barley development, there is limited knowledge on the molecular network that is utilized by VRS5. In this work, we performed protein-protein interaction studies of VRS5. Our analysis shows that VRS5 potentially interacts with a diverse set of proteins, including other class II TCP's, NF-Y TF, but also chromatin remodelers. Zooming in on the interaction capacity of VRS5 with other TCP TFs shows that VRS5 preferably interacts with other class II TCP TFs in the TB1 clade. Induced mutagenesis through CRISPR-Cas of one of the putative VRS5 interactors, HvTB2 (also referred to as COMPOSITUM 1 and BRANCHED AND INDETERMINATE SPIKELET 1), resulted in plants that have lost their characteristic unbranched spike architecture. More specifically, hvtb2 mutants exhibited branches arising at the main spike, suggesting that HvTB2 acts as inhibitor of branching. Our protein-protein interaction studies of VRS5 resulted in the identification of HvTB2 as putative interactor of VRS5, another key regulator of spike architecture in barley. The study presented here provides a first step to underpin the protein-protein interactome of VRS5 and to identify other, yet unknown, key regulators of barley plant architecture.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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