Identification and characterization of the packaging proteins of core 40S hnRNP particles

The proteins involved in protein-RNA and protein-protein interactions to form the core structure of nuclear 40S hnRNP particles in HeLa cells have been identified and characterized. Through complete analysis of nuclear extracts on sucrose density gradients and controlled salt dissociation of particle proteins, six lower molecular weight polypeptides are identified as the protein constituents of the 40S ribonucleoprotein complex which appears in the electron microscope as 210 A spherical particles. 40S hnRNP particles isolated from Chinese hamster lung fibroblasts show a strikingly similar protein composition to the human cells. The proteins are specifically associated with rapidly labeled nonribosomal nuclear RNA. Particle proteins from HeLa cells migrate in polyacrylamide gels as three groups of closely spaced doublets (groups A, B and C) and are present in a simple fixed stoichiometry. The group C proteins (C₁ and C₂ of 42,000 and 44,000 daltons) interact directly with RNA to form a smaller high salt-resistant RNP complex. The group A proteins (A₁ and A₂ of 32,000 and 34,000 daltons) are major nuclear proteins and constitute 60% total particle protein mass. These two proteins are basic with isoelectric points near 9.2 and 8.4, respectively, and are characterized by an unusual amino acid composition, including high glycine (25%) and the unusual modified basic residue identified as N^G,N^G-dimethylarginine. The major particle proteins (A₁ and A₂) interact electrostatically with nucleic acids and apparently function structurally in the packaging and stabilization of hnRNA in a manner analogous to the histones in chromatin υ bodies. The similarity in protein composition of core RNP particles from different cell types (especially in the basic proteins, A₁, A₂ and B₁) is consistent with a conserved particle structure and function in eucaryotes.