Conformation of a pentacosapeptide representing the RNA-binding N-terminus of cowpea chlorotic mottle virus coat protein in the presence of oligophosphates: a two-dimensional proton nuclear magnetic resonance and distance geometry study
Biochemistry
1992
9177--9182
M. van der Graaf, R. Scheek, C. van der Linden and M. Hemminga
Conformational studies were performed on a synthetic pentacosapeptide representing the RNA-binding N-terminal region of the coat protein of cowpea chlorotic mottle virus. Two-dimensional proton NMR experiments were performed on the highly positively charged peptide containing six arginines and three lysines in the presence of an excess of monophosphates, tetra(poly)phosphates, or octadeca(poly)phosphates mimicking the phosphates of the RNA. The results show that the peptide alternates between various extended and helical structures in the presence of monophosphate and that this equilibrium shifts toward the helical structures (with the helical region situated between residues 10 and 20) in the presence of oligophosphates. Distance geometry calculations using distance constraints derived from a NOESY spectrum of the peptide in the presence of tetra(poly)phosphate resulted in eight structures belonging to two structure families. The first family consists of five structures with an alpha-helixlike conformation in the middle of the peptide, and the second family consists of three structures with a more open conformation. The propensity to form an alpha-helical conformation in the N-terminal part of this viral coat protein upon binding of phosphate groups to the positively charged side chains is suggested to play an essential role in RNA binding.