Spatially coherent diffusion of human RNA Pol II depends on transcriptional state rather than chromatin motion.

Nucleus (Austin, Tex.) Pub Date : 2022-12-01 DOI:10.1080/19491034.2022.2088988

Roman Barth, Haitham A Shaban

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Abstract

Gene transcription by RNA polymerase II (RNAPol II) is a tightly regulated process in the genomic, temporal, and spatial context. Recently, we have shown that chromatin exhibits spatially coherently moving regions over the entire nucleus, which is enhanced by transcription. Yet, it remains unclear how the mobility of RNA Pol II molecules is affected by transcription regulation and whether this response depends on the coordinated chromatin movement. We applied our Dense Flow reConstruction and Correlation method to analyze nucleus-wide coherent movements of RNA Pol II in living human cancer cells. We observe a spatially coherent movement of RNA Pol II molecules over $\approx$ 1 μm, which depends on transcriptional activity. Inducing transcription in quiescent cells decreased the coherent motion of RNA Pol II. We then quantify the spatial correlation length of RNA Pol II in the context of DNA motion. RNA Pol II and chromatin spatially coherent motions respond oppositely to transcriptional activities. Our study holds the potential of studying the chromatin environment in different nuclear processes.

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人类 RNA Pol II 的空间一致性扩散取决于转录状态而非染色质运动。

由 RNA 聚合酶 II（RNAPol II）进行的基因转录是一个在基因组、时间和空间方面都受到严格调控的过程。最近，我们发现染色质在整个细胞核中呈现出空间连贯的移动区域，转录增强了染色质的移动性。然而，RNA Pol II 分子的移动性如何受到转录调控的影响，以及这种反应是否取决于染色质的协调移动，目前仍不清楚。我们采用密集流重构和相关方法分析了活体人类癌细胞中 RNA Pol II 在整个细胞核内的连贯运动。我们观察到 RNA Pol II 分子在 ≈1 μm 范围内的空间连贯运动，这取决于转录活动。在静止细胞中诱导转录会降低 RNA Pol II 的一致性运动。然后，我们量化了 DNA 运动背景下 RNA Pol II 的空间相关长度。RNA Pol II和染色质空间相干运动对转录活动的反应是相反的。我们的研究为研究不同核过程中的染色质环境提供了可能。

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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Nucleus (Austin, Tex.)

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