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池部 仁善; 桜庭 俊*; 河野 秀俊
PLOS Computational Biology, 12(3), p.e1004788_1 - e1004788_13, 2016/03
被引用回数:46 パーセンタイル:91.3(Biochemical Research Methods)Acetylation of lysine residues in histone tails is associated with gene transcription. Because histone tails are structurally flexible and intrinsically disordered, it is difficult to experimentally determine the tail conformations and the impact of acetylation. In this work, we performed simulations to sample H3 tail conformations with and without acetylation. The results show that irrespective of the presence or absence of the acetylation, the H3 tail remains in contact with the DNA and assumes an alpha-helix structure in some regions. Acetylation slightly weakened the interaction between the tail and DNA and enhanced alpha-helix formation, resulting in a more compact tail conformation. We inferred that this compaction induces unwrapping and exposure of the linker DNA, enabling DNA-binding proteins (e.g., transcription factors) to bind to their target sequences. In addition, our simulation also showed that acetylated lysine was more often exposed to the solvent, which is consistent with the fact that acetylation functions as a post-translational modification recognition site marker.