Abstract
AbstractCircular dichroism spectra of the nucleic acid monomers have been measured in aqueous solution and extended into the vacuum ultraviolet region to about 166 nm. Measurements were made on ribo and deoxyribo derivatives of adenine, guanine, hypoxanthine, cytosine, thymine, and uracil derivatives both with and without the 5′‐phosphate (with the exception of ribosyl thymine 5′‐phosphate). Absorption spectra of the deoxyribonucleotides measured to about 175 nm are also presented. The results demonstrate that both the circular dichroism and absorption spectra observed below 200 nm are no more complicated than the spectra normally recorded above 200 nm. In most cases, the circular dichroism spectra of the various derivatives of a given base are similar, indicating that the conformations are similar. On the other hand, the differences among the circular dichroism spectra of the various derivatives of a given base are sufficient to identify a particular derivative. The average circular dichroism for the deoxyribonucleotides is compared with the circular dichroism of native E. coli DNA. The comparison reveals that the circular dichroism of DNA below 200 nm is due principally to the interaction between the bases rather than the intrinsic circular dichroism of the monomers. The monomer transitions are discussed in relationship to the absorption and circular dichroism spectra presented.
Published Version
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