Authors
Ruth Veevers, Steffen Ostendorp, Anna Ostendorp, Julia Kehr, Richard J Morris
Published in
iScience. Volume 28. Issue 7. Pages 112852. Jul 18, 2025. Epub Jun 11, 2025.
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 in vitro and in vivo 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.
PMID:
40662195
Bibliographic data and abstract were imported from PubMed on 15 Jul 2025.
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