A. N. Surovaya scite author profile

Pt-bis-netropsin is a synthetic sequence-specific DNA-binding ligand comprizing two netropsin-like fragments which are linked in a tail-to-tail manner via a cis-diammineplatinum (II) residue. The CD studies and thermodynamic characterization of the DNA-binding properties exhibited by this compound reveal that it forms two types of complexes with poly[d(AT)].poly[d(AT)] and DNA oligomers containing nucleotide sequences 5'-CC(TA)n CC-3', with n = 4, 5 and 6. The first type corresponds to the binding of Pt-bis-netropsin in the extended conformation and is characterized by the saturating ratio of one bound Pt-bis-netropsin molecule per 9 AT-base pairs. The second type of the complex corresponds to the binding of Pt-bis-netropsin to DNA in the folded hairpin form. The binding approaches saturation level when one Pt-bis-netropsin molecule is bound per four or five AT-base pairs. The hairpin form of Pt-bis-netropsin complex is built on the basis of parallel side-by-side peptide motif which is inserted in the minor DNA groove. The CD spectral profiles reflecting the binding of Pt-bis-netropsin in the hairpin form are different from those observed for binding of another bis-netropsin with the sequence Lys-Gly-Py-Py-Gly-Gly-Gly-Py-Py-Dp, where Py is a N-propylpyrrole amino acid residue and Dp is a dimethylaminopropylamino residue. The hairpin form of this bis-netropsin is formed on the basis of antiparallel side-by-side peptide motif. The CD spectra obtained for complexes of this polyamide in the hairpin form with poly[d(AT)].poly[d(AT)] exhibit positive CD band with a peak at 325 nm, whereas the CD spectral profiles for the second complex of Pt-bis-Nt with poly[d(AT)].poly[d(AT)] and short DNA oligomers have two intense positive CD bands near 290 nm and 328 nm. This reflects the fact that two bis-netropsins use different structural motifs on binding to DNA in the hairpin form.

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DNA sequence recognition by bis‐linked netropsin and distamycin derivatives

Grokhovsky

Surovaya

Burckhardt

et al. 1998

FEBS Letters

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We studied the interaction of cis-diammine Pt(II)-bridged bis-netropsin, cis-diammine Pt(II)-bridged bis-distamycin and oligomethylene-bridged bis-netropsin with synthetic DNA fragments containing pseudosymmetrical AT-rich nucleotide sequences and compared it with the interaction of the parent compounds netropsin and distamycin A. For fragments containing multiple blocks of (A/T) 4 and (T/A) 4 separated by zero, one, two and three GC-base pairs, DNase I footprinting and CD spectroscopy studies reveal that 5P-TTTTAAAA-3P is the strongest affinity binding site for cis-diammine Pt(II)-bridged bis-netropsin and bis-distamycin. They both bind less strongly to a DNA region containing the sequence 5P-AAAATTTT-3P. Netropsin, distamycin A and oligomethylene-bridged bis-netropsin exhibit far less sequence discrimination.z 1998 Federation of European Biochemical Societies.

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Binding of Hoechst 33258 and its Derivatives to DNA

Bazhulina

Nikitin

Rodin

et al. 2009

Journal of Biomolecular Structure and Dynamics

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In the present work, we employed UV-VIS spectroscopy, fluorescence methods, and circular dichroism spectroscopy (CD) to study the interaction of dye Hoechst 33258, Hoechst 33342, and their derivatives to poly[d(AT)].poly[d(AT)], poly(dA).poly(dT), and DNA dodecamer with the sequence 5'-CGTATATATACG-3'. We identified three types of complexes formed by Hoechst 33258, Hoechst 33342, and methylproamine with DNA, corresponding to the binding of each drug in monomer, dimer, and tetramer forms. In a dimer complex, two dye molecules are sandwiched in the same place of the minor DNA groove. Our data show that Hoechst 33258, Hoechst 33342, and methylproamine also form complexes of the third type that reflects binding of dye associates (probably tetramers) to DNA. Substitution of a hydrogen atom in the ortho position of the phenyl ring by a methyl group has a little effect on binding of monomers to DNA. However it reduces strength of binding of tetramers to DNA. In contrast, a Hoechst derivative containing the ortho-isopropyl group in the phenyl ring exhibits a low affinity to poly(dA).poly(dT) and poly[d(AT)].poly[d(AT)] and binds to DNA only in the monomer form. This can be attributed to a sterical hindrance caused by the ortho-isopropyl group for side-by-side accommodation of two dye molecules in the minor groove. Our experiments show that mode of binding of Hoechst 33258 derivatives and their affinity for DNA depend on substituents in the ortho position of the phenyl ring of the dye molecule. A statistical mechanical treatment of binding of Hoechst 33258 and its derivatives to a polynucleotide lattice is described and used for determination of binding parameters of Hoechst 33258 and its derivatives to poly[d(AT)].poly[d(AT)] and poly(dA).poly(dT).

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Андронова

Гроховский

Surovaya

et al. 2001

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A. N. Surovaya

Synthetic Sequence-specific Ligands

Hairpin Polyamides That use Parallel and Antiparallel Side-by-Side Peptide Motifs in Binding to DNA

DNA sequence recognition by bis‐linked netropsin and distamycin derivatives

Binding of Hoechst 33258 and its Derivatives to DNA

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