Nonequilibrium phases of a biomolecular condensate facilitated by enzyme activity

Sebastian T Coupe, Nikta Fakhri
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Abstract

Biomolecular condensates represent a frontier in cellular organization, existing as dynamic materials driven out of equilibrium by active cellular processes. Here we explore active mechanisms of condensate regulation by examining the interplay between DEAD-box helicase activity and RNA base-pairing interactions within ribonucleoprotein condensates. We demonstrate how the ATP-dependent activity of DEAD-box helicases—a key class of enzymes in condensate regulation—acts as a nonequilibrium driver of condensate properties through the continuous remodeling of RNA interactions. By combining the LAF-1 DEAD-box helicase with a designer RNA hairpin concatemer, we unveil a complex landscape of dynamic behaviors, including time-dependent alterations in RNA partitioning, evolving condensate morphologies, and shifting condensate dynamics. Importantly, we reveal an antagonistic relationship between RNA secondary structure and helicase activity which promotes condensate homogeneity via a nonequilibrium steady state. By elucidating these nonequilibrium mechanisms, we gain a deeper understanding of cellular organization and expand the potential for active synthetic condensate systems.
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酶活性促进生物分子凝聚物的非平衡相
生物分子凝聚态代表了细胞组织的前沿领域,它是由活跃的细胞过程驱动而失去平衡的动态物质。在这里,我们通过研究核糖核蛋白凝聚体中 DEAD-box 螺旋酶活性与 RNA 碱基配对相互作用之间的相互作用,探索凝聚体调控的活性机制。我们证明了依赖于 ATP 的 DEAD-box 螺旋酶--凝集体调控中的一类关键酶--的活性是如何通过持续重塑 RNA 相互作用而成为凝集体特性的非平衡驱动力的。通过将 LAF-1 DEAD-box 螺旋酶与设计型 RNA 发夹连接酶相结合,我们揭示了动态行为的复杂景观,包括 RNA 分区的时间依赖性改变、凝集物形态的演变以及凝集物动态的变化。重要的是,我们揭示了 RNA 二级结构与螺旋酶活性之间的拮抗关系,这种关系通过非平衡稳态促进了凝集物的均匀性。通过阐明这些非平衡机制,我们加深了对细胞组织的理解,并拓展了活性合成凝聚态系统的潜力。
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