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Computational Analysis of Maize Enhancer Regulatory Elements Using ATAC-STARR-seq.

Alexandre P Marand
Published in: bioRxiv : the preprint server for biology (2023)
The blueprints to development, response to the environment, and cellular function are largely the manifestation of distinct gene expression programs controlled by the spatiotemporal activity of cis -regulatory elements. Although biochemical methods for identifying accessible chromatin - a hallmark of active cis -regulatory elements - have been developed, approaches capable of measuring and quantifying cis -regulatory activity are only beginning to be realized. Massively Parallel Reporter Assays coupled to chromatin accessibility profiling present a high-throughput solution for testing the transcription-activating capacity of millions of putatively regulatory DNA sequences in parallel. However, clear computational pipelines for analyzing these high-throughput sequencing-based reporter assays are lacking. In this protocol, I layout and rationalize a computational framework for the processing and analysis of Assay for Transposase Accessible Chromatin profiling followed by Self-Transcribed Active Regulatory Region sequencing (ATAC-STARR-seq) data from a recent study in Zea mays . The approach described herein can be adapted to other sequencing-based reporter assays and is largely agnostic to the model organism with the appropriate input substitutions.
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