Xiao Yin Lee , Wout Van Eynde , Christine Helsen , Hanne Willems , Kaat Peperstraete , Sofie De Block , Arnout Voet , Frank Claessens
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The binding affinity of the AR DBD to different DNA motifs were measured by the BioLayer Interferometry (BLI) and further validated by Molecular Dynamics (MD) simulations. This shows that the high binding affinity of the first DBD to the upstream 5’-AGAACA-3’ motif induces the cooperative binding of the second DBD to the second hexanucleotide. Our data indicate identical interaction of the DBDs to the upstream hexanucleotides, while forming an induced closer contact of the second DBD on the non-canonical hexanucleotides. The variation in binding between the DBD monomers are the result of differences in DNA occupancy, protein-protein interactions, DNA binding affinity, and DNA binding energy profiles. 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The variation in binding between the DBD monomers are the result of differences in DNA occupancy, protein-protein interactions, DNA binding affinity, and DNA binding energy profiles. 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引用次数: 0
摘要
雄激素受体(AR)是一种类固醇激活的转录因子,它能识别类似于保守的 5'-AGAACA-3'-like hexanucleotides 的倒置重复的 DNA 图案,这些倒置重复的六核苷酸被一个类似但不太保守的六核苷酸的三核苷酸间隔分隔开来。在这里,我们报告了人类 AR DNA 结合域(DBD)与两种天然 ARE(C3 和 MTV)结合的头对头二聚体构象的结构,衍射距离分别为 2.05 Å 和 2.25 Å。这些结构有助于解释雄激素不敏感突变对结构完整性、DNA 结合和 DBD 二聚化的影响。生物层干涉仪(BLI)测量了 AR DBD 与不同 DNA 主题的结合亲和力,分子动力学(MD)模拟进一步验证了这一结果。这表明,第一个 DBD 与上游 5'-AGAACA-3' 主题的高结合亲和力诱导了第二个 DBD 与第二个六核苷酸的合作结合。我们的数据表明,DBD 与上游六核苷酸的相互作用相同,但第二个 DBD 与非经典六核苷酸的接触更紧密。DBD 单体之间的结合差异是 DNA 占有率、蛋白质-蛋白质相互作用、DNA 结合亲和力和 DNA 结合能量曲线差异的结果。我们认为这将产生功能性影响。
Structural mechanism underlying variations in DNA binding by the androgen receptor
The androgen receptor (AR) is a steroid activated transcription factor which recognizes DNA motifs resembling inverted repeats of a conserved 5’-AGAACA-3’-like hexanucleotides separated by a three-nucleotide spacer from a similar, but less conserved hexanucleotide. Here, we report the structures of the human AR DNA binding domain (DBD) bound to two natural AREs (C3 and MTV) in head-to-head dimer conformations, diffracting at 2.05 Å and 2.25 Å, respectively. These structures help to explain the impact of androgen insensitivity mutations on the structure integrity, DNA binding and DBD dimerization. The binding affinity of the AR DBD to different DNA motifs were measured by the BioLayer Interferometry (BLI) and further validated by Molecular Dynamics (MD) simulations. This shows that the high binding affinity of the first DBD to the upstream 5’-AGAACA-3’ motif induces the cooperative binding of the second DBD to the second hexanucleotide. Our data indicate identical interaction of the DBDs to the upstream hexanucleotides, while forming an induced closer contact of the second DBD on the non-canonical hexanucleotides. The variation in binding between the DBD monomers are the result of differences in DNA occupancy, protein-protein interactions, DNA binding affinity, and DNA binding energy profiles. We propose this has functional consequences.
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