Biophysical and Structural Methods to Study the bHLHZip Region of Human c-MYC.

The C-terminal region of the c-MYC transcription factor consists of approximately 100 amino acids that in its native state does not adopt a stable structure. When this region binds to the obligatory partner MAX via a coupled folding-and-binding mechanism, it forms a basic-helix-loop-helix-leucine zipper (bHLHZip) heterodimeric complex. The C-terminal region of MYC is the target for numerous drug discovery programs for direct MYC inhibition via blocking the dimerization event and/or binding to DNA, and a proper understanding of the partially folded, dynamic nature of the heterodimeric complex is essential to these efforts. The bHLHZip motif also drives protein-protein interactions with cofactors that are crucial for both transcriptional repression and activation of MYC target genes. Targeting these interactions could potentially provide a means of developing alternative approaches to halt MYC functions; however, the molecular mechanism of these regulatory interactions is poorly understood. Herein we provide methods to produce high-quality human c-MYC C-terminal by itself and in complex MAX, and how to study them using Nuclear Magnetic Resonance spectroscopy and X-ray crystallography. Our protein expression and purification protocols have already been used to study interactions with cofactors.