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  • Title: Visualization of drug-nucleic acid interactions at atomic resolution. IX. Structures of two N,N-dimethylproflavine: 5-iodocytidylyl (3'-5') guanosine crystalline complexes.
    Author: Bhandary KK, Sakore TD, Sobell HM, King D, Gabbay EJ.
    Journal: J Biomol Struct Dyn; 1984 Mar; 1(5):1195-217. PubMed ID: 6400818.
    Abstract:
    This paper describes two complexes containing N,N-dimethylproflavine and the dinucleoside monophosphate, 5-iodocytidylyl (3'-5') guanosine (iodoCpG). The first complex is triclinic, space group P1, with unit cell dimensions a = 11.78 A, b = 14.55 A, c = 15.50 A, alpha = 89.2 degrees, beta = 86.2 degrees, gamma = 96.4 degrees. The second complex is monoclinic, space group P21, with a = 14.20 A. b = 19.00 A, c = 20.73 A, beta = 103.6 degrees. Both structures have been solved to atomic resolution and refined by Fourier and least squares methods. The first structure has been refined anisotropically to a residual of 0.09 on 5,025 observed reflections using block diagonal least squares, while the second structure has been refined anisotropically to a residual of 0.13 on 2,888 reflections with full matrix least squares. The asymmetric unit in both structures contains two dimethylproflavine molecules and two iodoCpG molecules; the first structure has 16 water molecules (a total of 134 non-hydrogen atoms), while the second structure has 18 water molecules (a total of 136 non-hydrogen atoms). Both structures demonstrate intercalation of dimethylproflavine between base-paired iodoCpG dimers. In addition, dimethylproflavine molecules stack on either side of the intercalated duplex, being related by a unit cell translation along b and a axes, respectively. The basic structural feature of the sugar-phosphate chains accompanying dimethylproflavine intercalation in both structures is the mixed sugar puckering pattern: C3' endo (3'-5') C2' endo. This same structural information is again demonstrated in the accompanying paper, which describes a complex containing dimethylproflavine with deoxyribo-CpG. Similar information has already appeared for other "simple" intercalators such as ethidium, acridine orange, ellipticine, 9-aminoacridine, N-methyl-tetramethylphenanthrolinium and terpyridine platinum. "Complex" intercalators, however, such as proflavine and daunomycin, have given different structural information in model studies. We discuss the possible reasons for these differences in this paper and in the accompanying paper.
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