Non-Averaged Single-Molecule 3D Structures Capture RNA Maturation Intermediates by Individual-Particle Cryo-Electron Tomography
Gang Ren, Jianfang Liu, Meng Xhang

TL;DR
A new imaging technique called IPET captures detailed 3D structures of RNA molecules as they fold, revealing previously unseen intermediate states in their maturation process.
Contribution
IPET enables non-averaged, single-molecule 3D imaging of RNA folding intermediates at intermediate resolution, preserving conformational heterogeneity.
Findings
IPET reconstructed 120 distinct RNA 3D structures, revealing novel intermediates and hyper-compact configurations during RNA maturation.
The method identified two known RNA conformations and multiple new states, supporting a multi-step folding pathway.
IPET has broader applications, including studying chromatin phase transitions and providing training data for AI-driven structural biology.
Abstract
Understanding the structural dynamics of biomolecules at the single-particle level is essential for elucidating molecular functions, folding mechanisms, and conformational transitions that underlie biological processes. RNA molecules, in particular, follow complex folding pathways to achieve their functional tertiary and quaternary structures. These pathways are characterized by rugged energy landscapes populated by multiple transient intermediates, many of which are too short-lived or heterogeneous to be resolved by traditional structural methods. Conventional approaches such as X-ray crystallography, nuclear magnetic resonance (NMR) spectroscopy, and single-particle cryo-electron microscopy (cryo- EM) provide high-resolution structures but generally yield static, ensemble-averaged models derived from thousands or millions of particles. This averaging process masks conformational…
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Taxonomy
TopicsAdvanced Electron Microscopy Techniques and Applications · RNA modifications and cancer · Advanced X-ray Imaging Techniques
