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Exploiting genetic variation to uncover rules of transcription factor binding and chromatin accessibility.


ABSTRACT: Single-nucleotide variants that underlie phenotypic variation can affect chromatin occupancy of transcription factors (TFs). To delineate determinants of in vivo TF binding and chromatin accessibility, we introduce an approach that compares ChIP-seq and DNase-seq data sets from genetically divergent murine erythroid cell lines. The impact of discriminatory single-nucleotide variants on TF ChIP signal enables definition at single base resolution of in vivo binding characteristics of nuclear factors GATA1, TAL1, and CTCF. We further develop a facile complementary approach to more deeply test the requirements of critical nucleotide positions for TF binding by combining CRISPR-Cas9-mediated mutagenesis with ChIP and targeted deep sequencing. Finally, we extend our analytical pipeline to identify nearby contextual DNA elements that modulate chromatin binding by these three TFs, and to define sequences that impact kb-scale chromatin accessibility. Combined, our approaches reveal insights into the genetic basis of TF occupancy and their interplay with chromatin features.

SUBMITTER: Behera V 

PROVIDER: S-EPMC5823854 | biostudies-literature | 2018 Feb

REPOSITORIES: biostudies-literature

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Exploiting genetic variation to uncover rules of transcription factor binding and chromatin accessibility.

Behera Vivek V   Evans Perry P   Face Carolyne J CJ   Hamagami Nicole N   Sankaranarayanan Laavanya L   Keller Cheryl A CA   Giardine Belinda B   Tan Kai K   Hardison Ross C RC   Shi Junwei J   Blobel Gerd A GA  

Nature communications 20180222 1


Single-nucleotide variants that underlie phenotypic variation can affect chromatin occupancy of transcription factors (TFs). To delineate determinants of in vivo TF binding and chromatin accessibility, we introduce an approach that compares ChIP-seq and DNase-seq data sets from genetically divergent murine erythroid cell lines. The impact of discriminatory single-nucleotide variants on TF ChIP signal enables definition at single base resolution of in vivo binding characteristics of nuclear facto  ...[more]

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