Phosphorylated protamines. I. Binding stoichiometry and thermal stability of complexes in DNA

Abstract

To decipher on a molecular level the role of protamine phosphorylation in spermiogenesis, clupeine Z species containing one, two or three serine phosphates were prepared utilizing a recently developed chemical procedure. The melting of complexes with calf thymus DNA showed that thermal stability decreases with increasing degree of phosphorylation. The stoichiometry of the nucleoprotamine complexes was investigated analyzing the melting curves and using the fluorescamine assay recently described. Phosphorylation significantly reduces binding stoichiometry defined as DNA-nucleotides covered by a protamine molecule. Thus, phosphorylated protamines are more densely packed along DNA; the implications on processes occurring in spermiogenesis as i. e. histone replacement, are discussed. A general discussion on the variability in protein-DNA stoichiometry values obtained by different procedures is included.