THERE have been several different approaches to the stereochemistry of the interaction of actinomycin and DNA, including studies of the interaction of DNA-like polynucleotides with actinomycin 1,2, and of DNA with model compounds related to actinomycin 3-5, using various experimental techniques. Reports on the optical rotatory-dispersion (ORD) and circular dichroism (CD) data for the actinomycin-DNA complex and for actinomycin alone 6-9, as well as unpublished results from this laboratory, indicate that the rotational strength of the optically active transitions - which can be ascribed to the dimethylaminophenoxazone chromophore of actinomycin - in the visible region of the spectrum increases in the presence of DNA. The molecular mechanism of the interaction of actinomycin with DNA is still obscure, however, for the increase in optical activity could result from a change in the conformation of actinomycin in the presence of DNA and/or from the perturbing influence of the asymmetric environment (DNA) on the chromophore transitions of actinomycin. © 1970 Nature Publishing Group.
Solvent effect on the conformation of actinomycin D / F., Ascoli; DE SANTIS, Pasquale; Savino, Maria. - In: NATURE. - ISSN 0028-0836. - STAMPA. - 227:5264(1970), pp. 1237-1239. [10.1038/2271237a0]
Solvent effect on the conformation of actinomycin D
DE SANTIS, Pasquale;SAVINO, Maria
1970
Abstract
THERE have been several different approaches to the stereochemistry of the interaction of actinomycin and DNA, including studies of the interaction of DNA-like polynucleotides with actinomycin 1,2, and of DNA with model compounds related to actinomycin 3-5, using various experimental techniques. Reports on the optical rotatory-dispersion (ORD) and circular dichroism (CD) data for the actinomycin-DNA complex and for actinomycin alone 6-9, as well as unpublished results from this laboratory, indicate that the rotational strength of the optically active transitions - which can be ascribed to the dimethylaminophenoxazone chromophore of actinomycin - in the visible region of the spectrum increases in the presence of DNA. The molecular mechanism of the interaction of actinomycin with DNA is still obscure, however, for the increase in optical activity could result from a change in the conformation of actinomycin in the presence of DNA and/or from the perturbing influence of the asymmetric environment (DNA) on the chromophore transitions of actinomycin. © 1970 Nature Publishing Group.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.