Shahla Roudbar Mohammadi scite author profile

The infrared spectra of parallel-stranded (ps) hairpin duplexes with mixed A*T/G*C composition and either isolated or sequential G*C pairs were studied in comparison with antiparallel-stranded (aps) duplexes and a corresponding set of molecules with hypoxanthine as a G base analogue lacking the exocyclic amino group. The ps duplexes showed the characteristic bands for the C2=O2 and C4=O4 stretching vibrations of thymine residues in trans-Watson-Crick A*T pairing at 1683 and 1668 cm-1. The latter band was superimposed on the stretching vibration of the free C6=O6 group of guanine. Substitution of guanine by hypoxanthine inhibited the formation of ps hairpin duplexes whatever the sequence, demonstrating that in the H-bonding between G and C the 2-NH2 group is necessary for stabilizing all of the investigated ps duplexes. This result is in agreement with a model of trans-Watson-Crick G*C base pairs with two H-bonds [N2H2(G)-N3(C) and N1H(G)-O2(C)]. However, trans-Watson-Crick A*T and G*C base pairs with two H-bonds are not isomorphous, which may explain the decreased stability of the ps, but not the aps, duplexes upon increasing the number of A*T/G*C steps. Molecular modeling studies performed on two of the ps duplexes reveal the existence of propeller twist for avoiding a clash between the N2(G) and N4(C) amino groups, and favorable stacking of sequential G*C base pairs. The optimized hairpin ps duplexes invariably incorporated G*C base pairs with two H-bonds, regardless of the initial structures adopted for the force field calculations.

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Joint Molecular Modeling and Spectroscopic Studies of DNA Complexes of a Bis(arginyl) Conjugate of a Tricationic Porphyrin Designed to Target the Major Groove

Mohammadi

Perrée-Fauvet

Gresh

et al. 1998

Biochemistry

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To target selectively the major groove of double-stranded B DNA, we have designed and synthesized a bis(arginyl) conjugate of a tricationic porphyrin (BAP). Its binding energies with a series of double-stranded dodecanucleotides, having in common a central d(CpG)2 intercalation site were compared. The theoretical results indicated a significant energy preference favoring major groove over minor groove binding and a preferential binding to a sequence encompassing the palindrome GGCGCC encountered in the Primary Binding Site of the HIV-1 retrovirus. Spectroscopic studies were carried out on the complexes of BAP with poly(dG-dC) and poly(dA-dT) and a series of oligonucleotide duplexes having either a GGCGCC, CCCGGG, or TACGTA sequence. The results of UV-visible and circular dichroism spectroscopies indicated that intercalation of the porphyrin takes place in poly(dG-dC) and all the oligonucleotides. Thermal denaturation studies showed that BAP increased significantly the melting temperature of the oligonucleotides having the GGCGCC sequence, whereas it produced only a negligible stabilization of sequences having CCCGGG or TACGTA in place of GGCGCC. This indicates a preferential binding of BAP to GGCGCC, fully consistent with the theoretical predictions. IR spectroscopy on d(GGCGCC)2 indicated that the guanine absorption bands, C6=O6 and N7-C8-H, were shifted by the binding of BAP, indicative of the interactions of the arginine arms in the major groove. Thus, the de novo designed compound BAP constitutes one of the very rare intercalators which, similar to the antitumor drugs mitoxantrone and ditercalinium, binds DNA in the major groove rather than in the minor groove.

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Shahla Roudbar Mohammadi

FTIR and UV Spectroscopy of Parallel-Stranded DNAs with Mixed A•T/G•C Sequences and Their A•T/I•C Analogues

Joint Molecular Modeling and Spectroscopic Studies of DNA Complexes of a Bis(arginyl) Conjugate of a Tricationic Porphyrin Designed to Target the Major Groove

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