Role of polyamines in the binding of initiator tRNA to the 70S ribosomes of extreme thermophilic bacterium Calderobacterium hydrogenophilum

Abstract

Slowly cooled cells of an extreme thermophilic eubacterium Calderobacterium hydrogenophilum possess ribosomes with weakly associated subunits. These ribosomal subunits are capable of association to 70S ribosomes either at higher Mg2+ concentrations (30–40 mM) or at 4–10 mM Mg2+ and in the presence of polyamines. The contribution of 30S and 50S subunits to the hydrodynamic stability of ribosomes was examined by forming hybrid 30S–50S couples from C. hydrogenophilum and Escherichia coli. At lower Mg2+ (4–10 mM) heterogeneous subunits containing 30S E. coli and 50S C. hydrogenophilum and homogeneous subunits of the thermophilic bacterium associated only in the presence of polyamines. Ribosomal subunits associated at 30 mM Mg2+ lose thermal stability and activity concerning poly(AUG)-dependent binding of f[3H]Met-tRNA to the P-site on 70S ribosomes or translation of poly(UG). Poly(AUG), deacylated-tRNA or initiator-tRNA have no valuable effect on association of 30S and 50S subunits. Protein synthesis initiation factor IF3 of C. hydrogenophilum prevents association of ribosomal subunits to 70S ribosomes at physiological temperature (70°C). The factor also stimulates dissociation of 70S ribosomes of E. coli at 37°C. The codon-specific binding of f[3H]Met-tRNA to homogeneous 70S ribosomes of C. hydrogenophilum at 70°C is dependent on the presence of initiation factors and concentrations of tri-pentaamines. However, excess of polyamines inhibited the reaction. Our results indicate that tri-pentaamines enhance conformational stability of 70S initiation complex at elevated temperatures.