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Probing complex RNA structures by mechanical force

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arxiv physics/0309063 v1 pith:TIBCR3PK submitted 2003-09-15 physics.bio-ph cond-mat.softq-bio.BM

Probing complex RNA structures by mechanical force

classification physics.bio-ph cond-mat.softq-bio.BM
keywords structuresunfoldingsinglecomplexhelicesintermediateslong-livedmechanical
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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RNA secondary structures of increasing complexity are probed combining single molecule stretching experiments and stochastic unfolding/refolding simulations. We find that force-induced unfolding pathways cannot usually be interpretated by solely invoking successive openings of native helices. Indeed, typical force-extension responses of complex RNA molecules are largely shaped by stretching-induced, long-lived intermediates including non-native helices. This is first shown for a set of generic structural motifs found in larger RNA structures, and then for Escherichia coli's 1540-base long 16S ribosomal RNA, which exhibits a surprisingly well-structured and reproducible unfolding pathway under mechanical stretching. Using out-of-equilibrium stochastic simulations, we demonstrate that these experimental results reflect the slow relaxation of RNA structural rearrangements. Hence, micromanipulations of single RNA molecules probe both their native structures and long-lived intermediates, so-called "kinetic traps", thereby capturing -at the single molecular level- the hallmark of RNA folding/unfolding dynamics.

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