Transcription Factor Binding Affinities and DNA Shape Readout

Summary An essential event in gene regulation is the binding of a transcription factor (TF) to its target DNA. Models considering the interactions between the TF and the DNA geometry proved to be successful approaches to describe this binding event, while conserving data interpretability. However, a direct characterization of the DNA shape contribution to binding is still missing due to the lack of accurate and large-scale binding affinity data. Here, we use a binding assay we recently established to measure with high sensitivity the binding specificities of 13 Drosophila TFs, including dinucleotide dependencies to capture non-independent amino acid-base interactions. Correlating the binding affinities with all DNA shape features, we find that shape readout is widely used by these factors. A shape readout/TF-DNA complex structure analysis validates our approach while providing biological insights such as positively charged or highly polar amino acids often contact nucleotides that exhibit strong shape readout.
Graphical Abstract
Highlights • The DNA shape contribution to Drosophila TFs-DNA binding is directly characterized • Zeroth- and first-order TF-DNA binding specificities are measured with high accuracy • DNA shape readout is widely used by these TFs • A shape readout/structural correlation analysis provides biological insights
Biomolecules; Molecular Biology; Molecular Mechanism of Gene Regulation