NMR studies of Arc repressor mutants: proton assignments, secondary structure, and long-range contacts for the thermostable proline-8 .fwdarw. leucine variant of Arc

Abstract

Arc repressor is a 53-residue sequence-specific DNA binding protein. We report the assignment of the proton NMR spectrum and the secondary structure for the thermostable PL8 variant of Arc. This mutant, which differs from wild type by a Pro-8 .fwdarw. Leu substitution, was chosen for study because its enhanced stability allows spectra to be acquired at elevated temperatures where spectral resolution is higher. The first five residues of the protein play important roles in DNA binding but appear to be disordered in solution. Residues 6-14 form the remaining part of the N-terminal DNA binding region of the protein and assume an antiparallel .beta.-conformation. This indicates that Arc is a member of a new class of DNA binding proteins. The observed interresidue nuclear Overhauser effects are consistent with a .beta.-strand, .gamma.-turn, .beta.-strand structure for the residue 6-14 region, although other structures are also consistent with the data. The remaining portion of the protein is predominantly .alpha.-helical. Residues 16-26 and 35-50 form amphipathic .alpha.-helices which may pack together in a four-helix bundle in the protein dimer.