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Published February 15, 2013 | Supplemental Material + Accepted Version
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Probing Allostery Through DNA

Kim, Sangjin
Broströmer, Erik
Xing, Dong
Jin, Jianshi
Chong, Shasha ORCID icon
Ge, Hao ORCID icon
Wang, Siyuan ORCID icon
Gu, Chan
Yang, Lijiang
Gao, Yi Qin
Su, Xiao-dong
Sun, Yujie
Xie, X. Sunney
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Abstract

Allostery is well documented for proteins but less recognized for DNA-protein interactions. Here, we report that specific binding of a protein on DNA is substantially stabilized or destabilized by another protein bound nearby. The ternary complex's free energy oscillates as a function of the separation between the two proteins with a periodicity of ~10 base pairs, the helical pitch of B-form DNA, and a decay length of ~15 base pairs. The binding affinity of a protein near a DNA hairpin is similarly dependent on their separation, which—together with molecular dynamics simulations—suggests that deformation of the double-helical structure is the origin of DNA allostery. The physiological relevance of this phenomenon is illustrated by its effect on gene expression in live bacteria and on a transcription factor's affinity near nucleosomes.

Additional Information

© 2013, American Association for the Advancement of Science. Received:23 August 2012. Accepted:7 November 2012. Published in print:15 February 2013. We thank K. Wood for his early involvement and J. Hynes, A. Szabo, C. Bustamante, and J. Gelles for helpful discussions. This work is supported by NIH Director's Pioneer Award to X.S.X., Peking University for BIOPIC, Thousand Youth Talents Program for Y.S., as well as the Major State Basic Research Development Program (2011CB809100), National Natural Science Foundation of China (31170710, 31271423, 21125311).

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Supplemental Material - kim-som.pdf

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