Informace o publikaci

Computer Folding of RNA Tetraloops? Are We There Yet?

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KUHROVA Petra BANÁŠ Pavel BEST Robert B ŠPONER Jiří OTYEPKA Michal

Rok publikování 2013
Druh Článek v odborném periodiku
Časopis / Zdroj Journal of Chemical Theory and Computation
Fakulta / Pracoviště MU

Středoevropský technologický institut

Citace
www http://pubs.acs.org/doi/pdf/10.1021/ct301086z
Doi http://dx.doi.org/10.1021/ct301086z
Obor Fyzikální chemie a teoretická chemie
Klíčová slova MOLECULAR-DYNAMICS SIMULATIONS; SARCIN RICIN LOOP; FORCE-FIELD; RIBOSOMAL-RNA; ANGSTROM RESOLUTION; CRYSTAL-STRUCTURE; ENERGY LANDSCAPE; NUCLEIC-ACIDS; DNA HAIRPIN; TERTIARY INTERACTIONS
Popis RNA hairpin loops represent important RNA motifs with indispensable biological functions in RNA folding and tertiary interactions, with the 5'-UNCG-3' and 5'-GNRA-3' families being the most abundant. Molecular dynamics simulations represent a powerful method to investigate the structure, folding, and function of these tetraloops (TLs), but previous AMBER force fields were unable to maintain even the native structure of small TL RNAs. Here, we have used Replica Exchange Molecular Dynamics (REMD) with our recent reparameterization of AMBER RNA force field to study the folding of RNA hairpins containing representatives UNCG and GNRA TLs. We find that in each case, we are able to reach conformations within 2 A of the native structure, in contrast to results with earlier force fields. Although we find that the REMD simulation runs of a total of similar to 19 mu s (starting from both folded and unfolded state) in duration for each TL are still far from obtaining a representative equilibrium distribution at each temperature, we are nonetheless able to map the stable species on the folding energy landscape. The qualitative picture we obtain is consistent with experimental studies of RNA folding in that there are a number of stable on- and off-pathway intermediates en route to the native state. In particular, we have identified a misfolded-bulged state of GNRA TL, which shares many structural features with the X-ray structure of GNRA TL in the complex with restrictocin, namely the bulged out A(L4) base. Since this is the same conformation observed in the complex of the TL with restrictocin, we argue that GNRA TL is able to bind restrictocin via a "conformational selection" mechanism, with the R-L3 and A(L4) bases being exposed to the solvent prior to binding. In addition we have identified a misfolded-anti state of UUCG TL, which is structurally close to the native state except that the G(L4), nucleotide is in an anti-conformation instead of the native syn. Our data suggest that the UUCG misfolded-anti state may be a kinetic trap for the UUCG folding.
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