Multivalent Cations Reverse the Twist-Stretch Coupling of RNA

Xiao-Wei Qiang; Chen Zhang; Hai-Long Dong; Fu-Jia Tian; Hang Fu; Ya-Jun Yang; Liang Dai; Xing-Hua Zhang; Zhi-Jie Tan

doi:10.1103/PhysRevLett.128.108103

Multivalent Cations Reverse the Twist-Stretch Coupling of RNA

Xiao-Wei Qiang, Chen Zhang, Hai-Long Dong, Fu-Jia Tian, Hang Fu, Ya-Jun Yang, Liang Dai^*, Xing-Hua Zhang^*, Zhi-Jie Tan^*

^*Corresponding author for this work

Department of Physics

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

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Abstract

When stretched, both DNA and RNA duplexes change their twist angles through twist-stretch coupling. The coupling is negative for DNA but positive for RNA, which is not yet completely understood. Here, our magnetic tweezers experiments show that the coupling of RNA reverses from positive to negative by multivalent cations. Combining with the previously reported tension-induced negative-to-positive coupling reversal of DNA, we propose a unified mechanism of the couplings of both RNA and DNA based on molecular dynamics simulations. Two deformation pathways are competing when stretched: shrinking the radius causes positive couplings but widening the major groove causes negative couplings. For RNA whose major groove is clamped by multivalent cations and canonical DNA, their radii shrink when stretched, thus exhibiting positive couplings. For elongated DNA whose radius already shrinks to the minimum and canonical RNA, their major grooves are widened when stretched, thus exhibiting negative couplings.

Original language	English
Article number	108103
Journal	Physical Review Letters
Volume	128
Issue number	10
Online published	11 Mar 2022
DOIs	https://doi.org/10.1103/PhysRevLett.128.108103
Publication status	Published - 11 Mar 2022

Publisher's Copyright Statement

COPYRIGHT TERMS OF DEPOSITED FINAL PUBLISHED VERSION FILE: Qiang, X-W., Zhang, C., Dong, H-L., Tian, F-J., Fu, H., Yang, Y-J., Dai, L., Zhang, X-H., & Tan, Z-J. (2022). Multivalent Cations Reverse the Twist-Stretch Coupling of RNA. Physical Review Letters, 128(10), Article 108103. https://doi.org/10.1103/PhysRevLett.128.108103. The copyright of this article is owned by American Physical Society.

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abstract = "When stretched, both DNA and RNA duplexes change their twist angles through twist-stretch coupling. The coupling is negative for DNA but positive for RNA, which is not yet completely understood. Here, our magnetic tweezers experiments show that the coupling of RNA reverses from positive to negative by multivalent cations. Combining with the previously reported tension-induced negative-to-positive coupling reversal of DNA, we propose a unified mechanism of the couplings of both RNA and DNA based on molecular dynamics simulations. Two deformation pathways are competing when stretched: shrinking the radius causes positive couplings but widening the major groove causes negative couplings. For RNA whose major groove is clamped by multivalent cations and canonical DNA, their radii shrink when stretched, thus exhibiting positive couplings. For elongated DNA whose radius already shrinks to the minimum and canonical RNA, their major grooves are widened when stretched, thus exhibiting negative couplings.",

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AU - Dong, Hai-Long

AU - Tian, Fu-Jia

AU - Fu, Hang

AU - Yang, Ya-Jun

AU - Dai, Liang

AU - Zhang, Xing-Hua

AU - Tan, Zhi-Jie

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AB - When stretched, both DNA and RNA duplexes change their twist angles through twist-stretch coupling. The coupling is negative for DNA but positive for RNA, which is not yet completely understood. Here, our magnetic tweezers experiments show that the coupling of RNA reverses from positive to negative by multivalent cations. Combining with the previously reported tension-induced negative-to-positive coupling reversal of DNA, we propose a unified mechanism of the couplings of both RNA and DNA based on molecular dynamics simulations. Two deformation pathways are competing when stretched: shrinking the radius causes positive couplings but widening the major groove causes negative couplings. For RNA whose major groove is clamped by multivalent cations and canonical DNA, their radii shrink when stretched, thus exhibiting positive couplings. For elongated DNA whose radius already shrinks to the minimum and canonical RNA, their major grooves are widened when stretched, thus exhibiting negative couplings.

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Multivalent Cations Reverse the Twist-Stretch Coupling of RNA

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