Conformational cycle and small-molecule inhibition mechanism of a plant ABCB transporter in lipid membranes

IF 11.7 1区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES

Science Advances Pub Date : 2025-06-13 DOI:10.1126/sciadv.adv9721

Yong Liu, Maofu Liao

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引用次数: 0

Abstract

In plants, ATP-binding cassette (ABC) transporters are crucial for nutrient uptake, phytohormone transport, and environmental response. It is of great interest to understand the mechanisms of these transporters and develop small-molecule modulators to regulate plant growth. Arabidopsis ABCB19 was recently shown to transport brassinosteroid, shaping hormone dynamics and plant architecture. However, the conformational cycle and inhibitor mechanism of ABCB transporters remain elusive. We reconstituted ABCB19 into lipid nanodiscs, where activity was drastically higher than in detergents, and determined its cryo–electron microscopy structures in substrate-free, substrate-bound, vanadate-trapped, and inhibitor-bound states. Inward-facing ABCB19 moved inward upon substrate binding and fully closed with vanadate trapping, unexpectedly temperature dependent. Two inhibitor molecules locked ABCB19 in the inward-facing conformation. Mutagenesis identified key residues for substrate and inhibitor binding, revealing differential contributions to transporter function and inhibition. These results deepen knowledge of plant ABCB transporters, laying a foundation for targeted manipulation to enhance plant resilience and productivity.

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植物ABCB转运体在脂膜中的构象周期和小分子抑制机制

在植物中，atp结合盒（ABC）转运体对养分吸收、植物激素运输和环境反应至关重要。了解这些转运体的作用机制，开发小分子调节剂调控植物生长具有重要意义。拟南芥ABCB19最近被证明运输油菜素内酯，形成激素动力学和植物结构。然而，ABCB转运体的构象周期和抑制机制尚不清楚。我们将ABCB19重组成脂质纳米盘，其活性大大高于洗涤剂，并测定了其无底物、底物结合、钒酸盐捕获和抑制剂结合状态下的低温电镜结构。面向内的ABCB19在基底结合时向内移动，并与钒酸盐捕获完全关闭，出乎意料地依赖于温度。两种抑制剂分子将ABCB19锁定在面向内的构象中。诱变鉴定了底物和抑制剂结合的关键残基，揭示了转运蛋白功能和抑制的差异。这些结果加深了对植物ABCB转运体的认识，为有针对性地操纵以提高植物的抗逆性和生产力奠定了基础。

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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来源期刊

Science Advances 综合性期刊-综合性期刊

CiteScore

21.40

自引率

1.50%

发文量

1937

审稿时长

29 weeks

期刊介绍： Science Advances, an open-access journal by AAAS, publishes impactful research in diverse scientific areas. It aims for fair, fast, and expert peer review, providing freely accessible research to readers. Led by distinguished scientists, the journal supports AAAS's mission by extending Science magazine's capacity to identify and promote significant advances. Evolving digital publishing technologies play a crucial role in advancing AAAS's global mission for science communication and benefitting humankind.