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Modular RNA motifs for orthogonal phase separated compartments.

Jaimie Marie StewartShiyi LiAnli A TangMelissa Ann KlockeMartin Vincent GobryGiacomo FabriniLorenzo Di MichelePaul W K RothemundElisa Franco
Published in: Nature communications (2024)
Recent discoveries in biology have highlighted the importance of protein and RNA-based condensates as an alternative to classical membrane-bound organelles. Here, we demonstrate the design of pure RNA condensates from nanostructured, star-shaped RNA motifs. We generate condensates using two different RNA nanostar architectures: multi-stranded nanostars whose binding interactions are programmed via linear overhangs, and single-stranded nanostars whose interactions are programmed via kissing loops. Through systematic sequence design, we demonstrate that both architectures can produce orthogonal (distinct and immiscible) condensates, which can be individually tracked via fluorogenic aptamers. We also show that aptamers make it possible to recruit peptides and proteins to the condensates with high specificity. Successful co-transcriptional formation of condensates from single-stranded nanostars suggests that they may be genetically encoded and produced in living cells. We provide a library of orthogonal RNA condensates that can be modularly customized and offer a route toward creating systems of functional artificial organelles for the task of compartmentalizing molecules and biochemical reactions.
Keyphrases
  • nucleic acid
  • binding protein
  • living cells
  • gene expression
  • fluorescent probe
  • amino acid
  • structural basis
  • heat shock protein