开发明亮的荧光辅助素

Tsuyoshi Aoyama, Masakazu Nambo, Jia Xin Yap, Ayami Nakagawa, Marina Hayashi, Yuko Ukai, Motoo Ohtsuka, Ken-ichiro Hayashi, Yoshikatsu Sato, Yuichiro Tsuchiya
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摘要

植物激素辅助素的极性运输在植物生长和对环境刺激的反应中起着至关重要的作用。通过小分子工具观察植物体内的辅素分布,我们可以了解植物是如何动态调节辅素运输以调节生长的。在这项研究中,我们开发了一种新型荧光植物生长素探针 BODIPY-IAA2,它能有效地观察植物各种组织中植物生长素的分布。我们设计的这种探针可被植物生长素转运体转运,但缺乏诱导植物生长素信号转导的能力。使用 BODIPY 作为荧光团能提供明亮稳定的荧光信号,因此适合在标准荧光显微镜下进行活体成像。我们用拟南芥中的辅助素报告基因系测试了该探针,并进行了酵母双杂交试验。结果表明,BODIPY-IAA2 没有通过辅助素受体 TIR1 激活辅助素信号。不过,BODIPY-IAA2 在运输过程中与外源和内源植物生长素都有轻微竞争,这表明探针在体内通过植物生长素转运体进行运输。该探针不仅能观察其组织分布,还能进行亚细胞染色,包括苔藓伸长细胞中的内质网和顶端区域。我们还在无法进行基因转化的非模式寄生植物主根中观察到了不同寻常的染色模式。我们的新型荧光植物生长素探针在详细研究不同植物物种的生长素运输和分布方面具有巨大潜力。
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Development of bright fluorescent auxin
Polar transport of the phytohormone auxin plays a crucial role in plant growth and response to environmental stimuli. Small-molecule tools that visualize auxin distribution in intact plants enable us to understand how plants dynamically regulate auxin transport to modulate growth. In this study, we developed a new fluorescent auxin probe, BODIPY-IAA2, which effectively visualizes auxin distribution in various plant tissues. We designed this probe to be transported by auxin transporters while lacking the ability to elicit auxin signaling. Using BODIPY as the fluorophore provides bright and stable fluorescence signals, making it suitable for live-imaging under standard fluorescent microscopy. We tested the probe with auxin reporter lines in Arabidopsis and performed yeast two-hybrid assays. The results showed that BODIPY-IAA2 did not activate auxin signaling through the auxin receptor TIR1. However, BODIPY-IAA2 did mildly compete with both exogenous and endogenous auxins for transport, indicating that the probe is transported by auxin transporters in vivo. The probe not only enables visualization of its tissue distribution but also allows sub-cellular staining, including the endoplasmic reticulum and tip regions in elongating cells in moss. We also observed unusual staining patterns in the main root of non-model parasitic plants where genetic transformation is not feasible. Our new fluorescent auxin probe demonstrates significant potential for detailed studies on auxin transport and distribution across diverse plant species.
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