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A comparative analysis of promoter-proximal pausing reveals kinetic and distributional dimensions of variation

Created on 05 Jun 2026

Authors

Zeng, X., Barshad, G., Hassett, R., Rice, E. J., Danko, C. G., Siepel, A., Zhao, Y.

Abstract

Promoter-proximal pausing of RNA polymerase II is a key regulatory checkpoint in metazoan transcription. Despite extensive study of this process, quantitative methods for comparing pausing dynamics across biological contexts have been lacking. Here we introduce a model-based framework for rigorous comparative analysis of both pause-escape kinetics and pause-site distributions across genes, cell types, and species. An application to available PRO-seq datasets revealed striking differences across perturbations, and comparative analyses across cell types and species highlighted distinct patterns of variation in both pause-escape kinetics and pause-site distributions, with only weak coupling between them. Integration with chromatin and sequence features showed that lower pause-escape rates are associated with stronger promoter-proximal nucleosome occupancy, whereas changes in pause-site dispersion are associated with sequence features such as GC skew. Together, these results establish a quantitative framework for comparative analysis of promoter-proximal pausing and reveal kinetic and distributional dimensions of pausing variation across biological contexts.

Preprint server: bioRxiv
The authors list and abstract were imported from bioRxiv on 05 Jun 2026.

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