Amino acid incorporation into protein by cell-free preparations of sheep thyroid glands: the microsomal system

Magnesium ions and the structure of Escherichia coli ribosomal ribonucleic acid

1. The effect of removing Mg(2+) from a purified high-molecular-weight (1.07x10(6)) fraction of Escherichia coli ribosomal RNA was examined by ultracentrifugation, thermal denaturation and optical rotation. 2. At moderate I (0.1m-sodium chloride), EDTA at 2-50mm has little effect on RNA; at low I, 0.01-0.04 (with tris as counter-ion), two boundaries appear. 3. The leading boundary, S(20,w) about 20s, is identified with the original material with counter-ion Mg(2+) (;ionic atmosphere') removed, leading to an expanded form. 4. The slow boundary, 15-16s, is associated with a further loss of Mg(2+) and a further expansion, sensitive to EDTA concentration: it is proposed that this Mg(2+) is localized on the polynucleotide chain, i.e. ;site-bound'. 5. I is important and the EDTA effect at low I is reversible if Na(+) is added immediately after the EDTA: this Na(+) reversibility is lost on standing at 0 degrees . It is suggested that changes in the tertiary structure may be associated with this loss of reversibility. 6. Thermal-denaturation studies show that there is no loss of secondary structure associated with these changes: change in the optical-rotatory-dispersion spectrum in the region of the Cotton effect may be associated with this change in tertiary structure.