Modelling and refinement of the crystal structure of nucleoprotamine from Gibbula divaricata.

The molecular structure of nucleoprotamine from Gibbula divaricata and its packing in oriented fibers has been modelled both to fit the X-ray diffraction pattern and to avoid steric compression. The representative model consists of 51 poly (dinucleotide) B-DNA helices with 51 poly(hexapeptide) chains associated with the major grooves. The prevailing peptide conformation is beta. The four arginine residues present are hydrogen-bonded to DNA phosphates while neutral peptides protrude into the minor grooves of neighboring nucleoprotamine molecules which are packed 2.61 nm apart in a screw-disordered, quasi-hexagonal lattice. This model reconciles a number of earlier, apparently conflicting experimental results and explains the remarkable stability of nucleoprotamines.