Synergistic DNA and RNA binding of the Hox transcription factor Ultrabithorax coordinates splicing and shapes in vivo homeotic functions

bioRxiv - Molecular Biology Pub Date : 2024-09-12 DOI:10.1101/2024.09.10.612310

Constanza Blanco, Wan Xiang, Panagiotis Boumpas, Maily Scorcelletti, Ashley Suraj Hermon, Jiemin Wong, Samir Merabet, Julie Carnesecchi

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Abstract

The dual interaction of many transcription factors (TFs) with both DNA and RNA is an underexplored issue that could fundamentally reshape our understanding of gene regulation. We address this central issue by investigating the RNA binding activity of the Drosophila Hox TF Ultrabithorax (Ubx) in alternative splicing and morphogenesis. Relying on molecular and genetic interactions, we uncover a homodimerization-dependent mechanism by which Ubx regulates splicing. Notably, this mechanism enables the decoupling of Ubx-DNA and -RNA binding activity in splicing. We identify a critical residue for Ubx-RNA binding and demonstrate the essential role of Ubx-RNA binding ability for its homeotic functions. Overall, we uncover a unique mechanism for Ubx-mediated splicing and underscore the critical contribution of synergistic DNA/RNA binding for its morphogenetic functions. These findings advance our understanding of co-transcriptional regulation and highlight the significance of TF-DNA/RNA synergistic function in shaping gene regulatory networks in living organisms.

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Hox转录因子Ultrabithorax与DNA和RNA的协同结合可协调剪接并塑造体内同源功能

许多转录因子（TF）与 DNA 和 RNA 的双重相互作用是一个尚未得到充分探索的问题，它可能从根本上重塑我们对基因调控的认识。我们通过研究果蝇 Hox TF Ultrabithorax（Ubx）在替代剪接和形态发生中的 RNA 结合活性，解决了这一核心问题。通过分子和遗传相互作用，我们发现了 Ubx 调节剪接的同源二聚化依赖性机制。值得注意的是，这种机制使 Ubx-DNA 和 -RNA 结合活性在剪接过程中解耦。我们确定了 Ubx-RNA 结合的一个关键残基，并证明了 Ubx-RNA 结合能力对其同源功能的重要作用。总之，我们发现了 Ubx 介导剪接的独特机制，并强调了 DNA/RNA 协同结合对其形态发生功能的重要贡献。这些发现推进了我们对共转录调控的理解，并强调了TF-DNA/RNA协同功能在塑造生物体基因调控网络中的重要意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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bioRxiv - Molecular Biology

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