Internal loop-helix coupling in the dynamics of the RNA duplex (GC*C*AGUUCGCUGGC)2

Edward C. Sherer; Christopher J. Cramer

doi:10.1021/jp014494d

Internal loop-helix coupling in the dynamics of the RNA duplex (GCCAGUUCGCUGGC)₂

Edward C. Sherer, Christopher J. Cramer

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Abstract

Molecular dynamics simulations are carried out for a double helical RNA tetradecamer containing a UUCG internal loop. Analysis of four separate trajectories, totaling 12 ns in length, identifies several persistent structural motifs adopted by the internal loop under various conditions. In addition to previously identified water-mediated C:U and G:U hydrogen bonding interactions, two key interpair interactions are identified, namely, cross-step hydrogen bonding between adjacent C:U pairs and cross-strand stacking interactions involving mispaired G, and cross-strand stacking interactions involving the C:U pairs. On the basis of principal component analysis of the full oligomer's motion, these local structures are associated with highly compressed helices, and underwound, elongated helices, respectively.

Original language	English (US)
Pages (from-to)	5075-5085
Number of pages	11
Journal	Journal of Physical Chemistry B
Volume	106
Issue number	19
DOIs	https://doi.org/10.1021/jp014494d
State	Published - May 16 2002
Externally published	Yes

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abstract = "Molecular dynamics simulations are carried out for a double helical RNA tetradecamer containing a UUCG internal loop. Analysis of four separate trajectories, totaling 12 ns in length, identifies several persistent structural motifs adopted by the internal loop under various conditions. In addition to previously identified water-mediated C:U and G:U hydrogen bonding interactions, two key interpair interactions are identified, namely, cross-step hydrogen bonding between adjacent C:U pairs and cross-strand stacking interactions involving mispaired G, and cross-strand stacking interactions involving the C:U pairs. On the basis of principal component analysis of the full oligomer's motion, these local structures are associated with highly compressed helices, and underwound, elongated helices, respectively.",

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doi = "10.1021/jp014494d",

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N2 - Molecular dynamics simulations are carried out for a double helical RNA tetradecamer containing a UUCG internal loop. Analysis of four separate trajectories, totaling 12 ns in length, identifies several persistent structural motifs adopted by the internal loop under various conditions. In addition to previously identified water-mediated C:U and G:U hydrogen bonding interactions, two key interpair interactions are identified, namely, cross-step hydrogen bonding between adjacent C:U pairs and cross-strand stacking interactions involving mispaired G, and cross-strand stacking interactions involving the C:U pairs. On the basis of principal component analysis of the full oligomer's motion, these local structures are associated with highly compressed helices, and underwound, elongated helices, respectively.

AB - Molecular dynamics simulations are carried out for a double helical RNA tetradecamer containing a UUCG internal loop. Analysis of four separate trajectories, totaling 12 ns in length, identifies several persistent structural motifs adopted by the internal loop under various conditions. In addition to previously identified water-mediated C:U and G:U hydrogen bonding interactions, two key interpair interactions are identified, namely, cross-step hydrogen bonding between adjacent C:U pairs and cross-strand stacking interactions involving mispaired G, and cross-strand stacking interactions involving the C:U pairs. On the basis of principal component analysis of the full oligomer's motion, these local structures are associated with highly compressed helices, and underwound, elongated helices, respectively.

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Internal loop-helix coupling in the dynamics of the RNA duplex (GCCAGUUCGCUGGC)₂

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