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  • Hierarchical Conformational Dynamics Confers Thermal Adaptability to preQ1 RNA Riboswitches.

Hierarchical Conformational Dynamics Confers Thermal Adaptability to preQ1 RNA Riboswitches.

Journal of molecular biology (2020-06-12)
Zhou Gong, Shuai Yang, Xu Dong, Qing-Fen Yang, Yue-Ling Zhu, Yi Xiao, Chun Tang
要旨

Single-stranded noncoding regulatory RNAs, as exemplified by bacterial riboswitches, are highly dynamic. The conformational dynamics allow the riboswitch to reach maximum switching efficiency under appropriate conditions. Here we characterize the conformational dynamics of preQ1 riboswitches from mesophilic and thermophilic bacterial species at various temperatures. With the integrative use of small-angle X-ray scattering, NMR, and molecular dynamics simulations, we model the ensemble-structures of the preQ1 riboswitch aptamers without or with a ligand bound. We show that the preQ1 riboswitch is sufficiently dynamic and fluctuating among multiple folding intermediates only near the physiological temperature of the microorganism. The hierarchical folding dynamics of the RNA involves the docking of 3'-tail to form a second RNA helix and the helical stacking to form an H-type pseudoknot structure. Further, we show that RNA secondary and tertiary dynamics can be modulated by temperature and by the length of an internal loop. The coupled equilibria between RNA folding intermediates are essential for preQ1 binding, and a four-state exchange model can account for the change of ligand-triggered switching efficiency with temperature. Together, we have established a relationship between the hierarchical dynamics and riboswitch function, and illustrated how the RNA adapts to high temperature.

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Sigma-Aldrich
PreQ1 dihydrochloride, ≥98% (HPLC)