Organic amino compounds (taurine, glycine) and polyols (mannitol, sorbitol) are used as osmotic effectors by most animal cells, particularly by some marine invertebrates, but also to a limited extent by mammalian cells.
Using physico-chemical techniques (circular dichroism, thermal denaturation, solubility, electrophoresis and electric linear dichroism), we demonstrated that some of these effectors prevent chromatin aggregation, without histone release. The influence of glycine on chromatin aggregation, dissociation and reconstitution was thoroughly investigated. Glycine at 2 M concentration does not in itself induce chromatin dissociation; it does hinder salt-induced histone dissociation from chromatin (especially at 1.2 M NaCl) but does not impede chromatin reconstitution.
Several hypothesis may be put forward to explain the action of these effectors: (i) a modulation of histone conformation; (ii) a modification of fractional DNA charge, either directly by the zwitterions (glycine, taurine) or indirectly by alteration of cations counterions hydration. The physiological relevance of our experiments is also discussed.
