Unknown

Dataset Information

0

Magnesium fluctuations modulate RNA dynamics in the SAM-I riboswitch.


ABSTRACT: Experiments demonstrate that Mg(2+) is crucial for structure and function of RNA systems, yet the detailed molecular mechanism of Mg(2+) action on RNA is not well understood. We investigate the interplay between RNA and Mg(2+) at atomic resolution through ten 2-?s explicit solvent molecular dynamics simulations of the SAM-I riboswitch with varying ion concentrations. The structure, including three stemloops, is very stable on this time scale. Simulations reveal that outer-sphere coordinated Mg(2+) ions fluctuate on the same time scale as the RNA, and that their dynamics couple. Locally, Mg(2+) association affects RNA conformation through tertiary bridging interactions; globally, increasing Mg(2+) concentration slows RNA fluctuations. Outer-sphere Mg(2+) ions responsible for these effects account for 80% of Mg(2+) in our simulations. These ions are transiently bound to the RNA, maintaining interactions, but shuttled from site to site. Outer-sphere Mg(2+) are separated from the RNA by a single hydration shell, occupying a thin layer 3-5 Å from the RNA. Distribution functions reveal that outer-sphere Mg(2+) are positioned by electronegative atoms, hydration layers, and a preference for the major groove. Diffusion analysis suggests transient outer-sphere Mg(2+) dynamics are glassy. Since outer-sphere Mg(2+) ions account for most of the Mg(2+) in our simulations, these ions may change the paradigm of Mg(2+)-RNA interactions. Rather than a few inner-sphere ions anchoring the RNA structure surrounded by a continuum of diffuse ions, we observe a layer of outer-sphere coordinated Mg(2+) that is transiently bound but strongly coupled to the RNA.

SUBMITTER: Hayes RL 

PROVIDER: S-EPMC3675279 | biostudies-literature | 2012 Jul

REPOSITORIES: biostudies-literature

altmetric image

Publications

Magnesium fluctuations modulate RNA dynamics in the SAM-I riboswitch.

Hayes Ryan L RL   Noel Jeffrey K JK   Mohanty Udayan U   Whitford Paul C PC   Hennelly Scott P SP   Onuchic José N JN   Sanbonmatsu Karissa Y KY  

Journal of the American Chemical Society 20120716 29


Experiments demonstrate that Mg(2+) is crucial for structure and function of RNA systems, yet the detailed molecular mechanism of Mg(2+) action on RNA is not well understood. We investigate the interplay between RNA and Mg(2+) at atomic resolution through ten 2-μs explicit solvent molecular dynamics simulations of the SAM-I riboswitch with varying ion concentrations. The structure, including three stemloops, is very stable on this time scale. Simulations reveal that outer-sphere coordinated Mg(2  ...[more]

Similar Datasets

| S-EPMC5352136 | biostudies-literature
| S-EPMC6451092 | biostudies-literature
| S-EPMC5529334 | biostudies-literature
| S-EPMC3479645 | biostudies-other
| S-EPMC6890682 | biostudies-literature
| S-EPMC6411933 | biostudies-literature
| S-EPMC6914780 | biostudies-literature
| S-EPMC3064774 | biostudies-literature
| S-EPMC6061858 | biostudies-literature
| S-EPMC8603990 | biostudies-literature