Transcription factor clusters as information transfer agents.

ArXiv Pub Date : 2024-11-06
Rahul Munshi, Jia Ling, Sergey Ryabichko, Eric Wieschaus, Thomas Gregor
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Abstract

Deciphering how genes interpret information from transcription factor (TFs) concentrations within the cell nucleus remains a fundamental question in gene regulation. Recent advancements have revealed the heterogeneous distribution of TF molecules, posing challenges to precisely decoding concentration signals. Using high-resolution single-cell imaging of the fluorescently tagged TF Bicoid in living Drosophila embryos, we show that Bicoid accumulation in submicron clusters preserves the spatial information of the maternal Bicoid gradient. These clusters provide precise spatial cues through intensity, size, and frequency. We further discover that gene targets of Bicoid, such as Hunchback and Eve, colocalize with these clusters in an enhancer binding affinity-dependent manner. Our modeling suggests that clustering offers a faster sensing mechanism for global nuclear concentrations than freely diffusing TF molecules detected by simple enhancers.

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作为信息传递媒介的转录因子群。
破译基因如何解读细胞核内转录因子(TF)浓度的信息仍然是基因调控的一个基本问题。最近的研究进展揭示了转录因子分子在细胞核中的异质分布,这给精确解码浓度信号带来了挑战。为了探索这一现象,我们在活体苍蝇胚胎中对荧光标记的 TF 蛋白 Bicoid 进行了高分辨率单细胞成像。我们发现,Bicoid 在亚微米簇中的积累保留了母体 Bicoid 梯度的空间信息,簇的强度、大小和频率提供了非常精确的空间线索。我们进一步发现,Bicoid 激活的各种已知基因靶标会与集群聚集在一起,对于靶基因 Hunchback,这种聚集依赖于其增强子结合亲和力。通过这些集群进行的信息传递建模表明,与简单增强子检测到的自由扩散的 TF 分子相比,集群为全球核浓度提供了一种更快速的感应机制。
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