通过对RNA结合蛋白PARCL进行模拟引导的靶向工程实现可控的液-液相分离。

Controlled liquid-liquid phase separation via the simulation-guided, targeted engineering of the RNA-binding protein PARCL.

作者信息

Veevers Ruth, Ostendorp Steffen, Ostendorp Anna, Kehr Julia, Morris Richard J

机构信息

Computational and Systems Biology, John Innes Centre, Norwich, UK.

Universität Hamburg, Department of Biology, Institute of Plant Science and Microbiology, Hamburg, Germany.

出版信息

iScience. 2025 Jun 11;28(7):112852. doi: 10.1016/j.isci.2025.112852. eCollection 2025 Jul 18.

DOI:10.1016/j.isci.2025.112852

PMID:40662195

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12256297/

Abstract

The Phloem-Associated RNA-Chaperone-Like (PARCL) protein is a plant-specific RNA-binding protein (RBP) that is highly abundant in the phloem. PARCL has been observed to form large biomolecular condensates that move within the phloem stream, potentially being involved in RNA transport. Here, we present results on unraveling drivers for PARCL's phase separation. We used coarse-grained molecular dynamics simulations to compute a residue interaction map that identifies candidate residues involved in phase separation. Subsequent simulations with mutations of candidate residues resulted in disrupted condensation, supporting their involvement in phase separation. We performed and experiments to validate these predictions. To investigate the RNA-binding of PARCL, we added microRNA to the simulations and identified a short region of PARCL that consistently made contact with the miRNA in agreement with bioinformatics predictions and experiments. We discuss the implications of our findings in terms of model-guided engineering of biomolecular condensates.

摘要

韧皮部相关的类RNA伴侣（PARCL）蛋白是一种植物特有的RNA结合蛋白（RBP），在韧皮部中含量极高。据观察，PARCL会形成大型生物分子凝聚物，这些凝聚物在韧皮部液流中移动，可能参与RNA运输。在此，我们展示了关于揭示PARCL相分离驱动因素的研究结果。我们使用粗粒度分子动力学模拟来计算残基相互作用图，以确定参与相分离的候选残基。随后对候选残基进行突变的模拟导致凝聚受到破坏，支持了它们参与相分离的观点。我们进行了[此处原文缺失相关实验内容]实验来验证这些预测。为了研究PARCL与RNA的结合，我们在模拟中添加了微小RNA，并确定了PARCL的一个短区域，该区域与微小RNA持续接触，这与生物信息学预测和实验结果一致。我们从生物分子凝聚物的模型导向工程角度讨论了我们研究结果的意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/48d1/12256297/62b6ce96303c/fx1.jpg

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通过对RNA结合蛋白PARCL进行模拟引导的靶向工程实现可控的液-液相分离。

Controlled liquid-liquid phase separation via the simulation-guided, targeted engineering of the RNA-binding protein PARCL.

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