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Old 08-22-2010, 03:33 AM
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Default Dynamic properties of nucleic acids in biosupramolecular systems, as studied by 31P N

Dynamic properties of nucleic acids in biosupramolecular systems, as studied by 31P NMR.

Related Articles Dynamic properties of nucleic acids in biosupramolecular systems, as studied by 31P NMR.

J Biochem. 1994 Feb;115(2):270-8

Authors: Odahara T, Nishimoto S, Katsutani N, Kyogoku Y, Morimoto Y, Matsushiro A, Akutsu H

The dynamic properties of nucleic acids in five different types of intact supramolecular systems, namely, chicken erythrocyte chromatin, the wild type and a deletion mutant of the lambda phage, lipid-containing phage PM2, and Alteromonas espejiana ribosomes, were investigated by means of 31P solid-state NMR. The nucleic acids in the different supramolecular systems showed unique dynamic properties, which are closely connected with their functions. The total anisotropy of the phosphorus chemical shift (delta sigma = sigma 33-sigma 11) of the ribosomes was 210 ppm at 5 degrees C. This anisotropy was much larger than those of any DNA complexes, suggesting the highly rigid structure of ribosomal RNA. In contrast, 160 ppm was the largest chemical shift anisotropy at 5 degrees C for B-form DNA in the supramolecular systems. This flexibility would be essential for DNAs to exert their functions. The involvement of a condensation protein in the PM2 phage was supported by the chemical shift anisotropy. The spin-lattice relaxation time in the proton rotating frame [T1 rho(H)] of the nucleic acids became shorter with the increase in the effective field in the rotating frame for all systems examined, showing that the motions of the nucleic acids effective for the relaxation are in the slow motional regime or in the range of omega 1 tau c = 1 at 5 degrees C. The motional state of DNA of the lambda phage was found to change at about 20 degrees C on the basis of the temperature dependence of the spin-lattice relaxation time of phosphorus (T1).(ABSTRACT TRUNCATED AT 250 WORDS)

PMID: 8206876 [PubMed - indexed for MEDLINE]



Source: PubMed
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