DNA通过增加人类转录因子FoxP1和FoxP2的构象灵活性来促进它们之间的异源二聚化。

DNA facilitates heterodimerization between human transcription factors FoxP1 and FoxP2 by increasing their conformational flexibility.

作者信息

Coñuecar Ricardo, Asela Isabel, Rivera Maira, Galaz-Davison Pablo, González-Higueras Jorge, Hamilton George L, Engelberger Felipe, Ramírez-Sarmiento César A, Babul Jorge, Sanabria Hugo, Medina Exequiel

机构信息

Departamento de Biología, Facultad de Ciencias, Universidad de Chile, Santiago 7800003, Chile.

Institute for Biological and Medical Engineering, Schools of Engineering, Medicine and Biological Sciences, Pontificia Universidad Católica de Chile, Santiago 7820436, Chile.

出版信息

iScience. 2023 Jun 28;26(7):107228. doi: 10.1016/j.isci.2023.107228. eCollection 2023 Jul 21.

DOI:10.1016/j.isci.2023.107228

PMID:37485372

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10362293/

Abstract

Transcription factors regulate gene expression by binding to DNA. They have disordered regions and specific DNA-binding domains. Binding to DNA causes structural changes, including folding and interactions with other molecules. The FoxP subfamily of transcription factors in humans is unique because they can form heterotypic interactions without DNA. However, it is unclear how they form heterodimers and how DNA binding affects their function. We used computational and experimental methods to study the structural changes in FoxP1's DNA-binding domain when it forms a heterodimer with FoxP2. We found that FoxP1 has complex and diverse conformational dynamics, transitioning between compact and extended states. Surprisingly, DNA binding increases the flexibility of FoxP1, contrary to the typical folding-upon-binding mechanism. In addition, we observed a 3-fold increase in the rate of heterodimerization after FoxP1 binds to DNA. These findings emphasize the importance of structural flexibility in promoting heterodimerization to form transcriptional complexes.

摘要

转录因子通过与DNA结合来调节基因表达。它们具有无序区域和特定的DNA结合结构域。与DNA结合会导致结构变化，包括折叠以及与其他分子的相互作用。人类转录因子的FoxP亚家族很独特，因为它们无需DNA就能形成异型相互作用。然而，目前尚不清楚它们如何形成异二聚体以及DNA结合如何影响其功能。我们使用计算和实验方法研究了FoxP1的DNA结合结构域与FoxP2形成异二聚体时的结构变化。我们发现FoxP1具有复杂多样的构象动力学，在紧密状态和伸展状态之间转换。令人惊讶的是，与典型的结合后折叠机制相反，DNA结合增加了FoxP1的灵活性。此外，我们观察到FoxP1与DNA结合后异二聚化速率增加了3倍。这些发现强调了结构灵活性在促进异二聚化以形成转录复合物中的重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e8ac/10362293/ebaefb182c72/fx1.jpg

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DNA通过增加人类转录因子FoxP1和FoxP2的构象灵活性来促进它们之间的异源二聚化。

DNA facilitates heterodimerization between human transcription factors FoxP1 and FoxP2 by increasing their conformational flexibility.

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