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A Generalized conformational energy function of DNA derived from molecular dynamics simulations

分子動力学計算による一般化DNA構造変化ポテンシャルエネルギー関数

山崎 智*; 寺田 透*; 清水 謙多郎*; 河野 秀俊; 皿井 明倫*

Yamasaki, Satoshi*; Terada, Toru*; Shimizu, Kentaro*; Kono, Hidetoshi; Sarai, Akinori*

Proteins recognize DNA sequences by two different mechanisms. The first is direct readout, in which recognition is mediated by direct interactions between the protein and the DNA bases. The second is indirect readout, which is caused by the dependence of conformation and the deformability of the DNA structure on the sequence. Various energy functions have been proposed to evaluate the contribution of indirect readout to the free-energy changes in complex formations. We developed a new generalized energy function to estimate the dependence of the deformability of DNA on the sequence. This function was derived from molecular dynamics (MD) simulations previously conducted on B-DNA dodecamers, each of which had one possible tetramer sequence embedded at its center. By taking the logarithm of the probability distribution function (PDF) for the base-step parameters of the central base-pair step of the tetramer, its ability to distinguish the native sequence from random ones was superior to that with the previous method that approximated the energy function in harmonic form. From a comparison of the energy profiles calculated with these two methods, we found that the harmonic approximation caused significant errors in the conformational energies of the tetramers that adopted multiple stable conformations.

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パーセンタイル:15.17

分野:Biochemistry & Molecular Biology

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