- Michael, Alicia K;
- Stoos, Lisa;
- Crosby, Priya;
- Eggers, Nikolas;
- Nie, Xinyu Y;
- Makasheva, Kristina;
- Minnich, Martina;
- Healy, Kelly L;
- Weiss, Joscha;
- Kempf, Georg;
- Cavadini, Simone;
- Kater, Lukas;
- Seebacher, Jan;
- Vecchia, Luca;
- Chakraborty, Deyasini;
- Isbel, Luke;
- Grand, Ralph S;
- Andersch, Florian;
- Fribourgh, Jennifer L;
- Schübeler, Dirk;
- Zuber, Johannes;
- Liu, Andrew C;
- Becker, Peter B;
- Fierz, Beat;
- Partch, Carrie L;
- Menet, Jerome S;
- Thomä, Nicolas H
The basic helix-loop-helix (bHLH) family of transcription factors recognizes DNA motifs known as E-boxes (CANNTG) and includes 108 members1. Here we investigate how chromatinized E-boxes are engaged by two structurally diverse bHLH proteins: the proto-oncogene MYC-MAX and the circadian transcription factor CLOCK-BMAL1 (refs. 2,3). Both transcription factors bind to E-boxes preferentially near the nucleosomal entry-exit sites. Structural studies with engineered or native nucleosome sequences show that MYC-MAX or CLOCK-BMAL1 triggers the release of DNA from histones to gain access. Atop the H2A-H2B acidic patch4, the CLOCK-BMAL1 Per-Arnt-Sim (PAS) dimerization domains engage the histone octamer disc. Binding of tandem E-boxes5-7 at endogenous DNA sequences occurs through direct interactions between two CLOCK-BMAL1 protomers and histones and is important for circadian cycling. At internal E-boxes, the MYC-MAX leucine zipper can also interact with histones H2B and H3, and its binding is indirectly enhanced by OCT4 elsewhere on the nucleosome. The nucleosomal E-box position and the type of bHLH dimerization domain jointly determine the histone contact, the affinity and the degree of competition and cooperativity with other nucleosome-bound factors.