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. 2024 Dec;19(12):3590-3612.
doi: 10.1038/s41596-024-01026-7. Epub 2024 Jul 30.

Quantifying genome-wide transcription factor binding affinities for chromatin using BANC-seq

Roelof A Wester #  1 Hannah K Neikes #  1 Rik G H Lindeboom  2 Michiel Vermeulen  3   4
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Quantifying genome-wide transcription factor binding affinities for chromatin using BANC-seq

Roelof A Wester et al. Nat Protoc. 2024 Dec.

Abstract

Transcription factors (TFs) bind specific DNA sequences to regulate transcription. Apart from DNA sequences, local factors such as DNA accessibility and chromatin structure determine the affinity of a TF for any given locus. Including these factors when measuring TF-DNA affinities has proven difficult. To address this challenge, we recently developed a method called binding affinities in native chromatin by sequencing (BANC-seq). In BANC-seq, intact mammalian nuclei are incubated with a concentration range of epitope-tagged TF, followed by either chromatin immunoprecipitation or cleavage under target and release using nuclease with spike-in DNA. This allows determination of apparent dissociation constant (KdApp) values, defined by the concentration of TF at which half-maximum binding occurs, across the genome. Here we present a detailed stepwise protocol for BANC-seq, including downstream data analysis. In principle, any molecular biologist should be able to perform a BANC-seq experiment in as little as 1.5 d (excluding analysis). However, preprocessing and analysis of the sequencing data does require some experience in command-line shell and R programming.

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Conflict of interest statement

Competing interests: The authors declare no competing interests.

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