M.A. Carrondo scite author profile

Hoechst dye 33258 is a planar drug molecule that binds to the minor groove of DNA, especially where there are a number of A.T base pairs. We have solved the structure of the Hoechst dye bound to the DNA dodecamer d(CGCGATATCGCG) at 2.3 A. This structure is compared to that of the same dodecamer with the minor-groove-binding drug netropsin bound to it, as well as to structures that have been solved for this Hoechst dye bound to a DNA dodecamer containing the central four base pairs with the sequence AATT. We find that the position of the Hoechst drug in this dodecamer is quite different from that found in the other dodecamer since it has an opposite orientation compared to the other two structures. The drug covers three of the four A.T base pairs and extends its piperazine ring to the first G.C base pair adjacent to the alternating AT segment. Furthermore, the drug binding has modified the structure of the DNA dodecamer. Other DNA dodecamers with alternating AT sequences show an alternation in the size of the helical twist between the ApT step (small twist) and the TpA step (large twist). In this structure the alternation is reversed with larger twists in the ApT steps than in the TpA step. In addition, there is a rotation of one of the thymine bases in the DNA dodecamer that is associated with hydrogen bonding to the Hoechst drug. This structure illustrates the considerable plasticity found in the DNA molecule when it binds to different planar molecules inserted into the minor groove.

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Structure of the Tetraheme Cytochrome from Desulfovibrio desulfuricans ATCC 27774: X-ray Diffraction and Electron Paramagnetic Resonance Studies

Morais¹,

Palma²,

Frazão³

et al. 1995

Biochemistry

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The three-dimensional X-ray structure of cytochrome c3 from a sulfate reducing bacterium, Desulfovibrio desulfuricans ATCC 27774 (107 residues, 4 heme groups), has been determined by the method of molecular replacement [Frazão et al. (1994) Acta Crystallogr. D50, 233-236] and refined at 1.75 A to an R-factor of 17.8%. When compared with the homologous proteins isolated from Desulfovibrio gigas, Desulfovibrio vulgaris Hildenborough, Desulfovibrio vulgaris Miyazaki F, and Desulfomicrobium baculatus, the general outlines of the structure are essentialy kept [heme-heme distances, heme-heme angles, His-His (axial heme ligands) dihedral angles, and the geometry of the conserved aromatic residues]. The three-dimensional structure of D. desulfuricans ATCC 27774 cytochrome c3Dd was modeled on the basis of the crystal structures available and amino acid sequence comparisons within this homologous family of multiheme cytochromes [Palma et al. (1994) Biochemistry 33, 6394-6407]. This model is compared with the refined crystal structure now reported, in order to discuss the validity of structure prediction methods and critically evaluate the steps used to predict protein structures by homology modeling. The four heme midpoint redox potentials were determined by using deconvoluted electron paramagnetic resonance (EPR) redox titrations. Structural criteria (electrostatic potentials, heme ligand orientation, EPR g values, heme exposure, data from protein-protein interaction studies) are invoked to assign the redox potentials corresponding to each specific heme in the three-dimensional structure.

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Cytochrome c₃ from Desulfovibrio gigas: Crystal structure at 1.8 Å resolution and evidence for a specific calcium‐binding site

et al. 1996

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Crystals of the tetraheme cytochrome c3 from sulfate-reducing bacteria Desulfovibrio gigas (Dg) (MW 13 kDa, 11 1 residues, four heme groups) were obtained and X-ray diffraction data collected to 1.8 A resolution. The structure was solved by the method of molecular replacement and the resulting model refined to a conventional R-factor of 14.9%. The three-dimensional structure shows many similarities to other known crystal structures of tetraheme c3 cytochromes, but it also shows some remarkable differences. In particular, the location of the aromatic residues around the heme groups, which may play a fundamental role in the electron transfer processes of the molecule, are well conserved in the cases of hemes I, 111, and IV. However, heme I1 has an aromatic environment that is completely different to that found in other related cytochromes c 3 . Another unusual feature is the presence of a Ca2+ ion coordinated by oxygen atoms supplied by the protein within a loop near the N-terminus. It is speculated that this loop may be stabilized by the presence of this CaZ+ ion, may contribute to heme-redox perturbation, and might even be involved in the specificity of recognition with its redox partner.

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M.A. Carrondo

Structural evidence for ligand specificity in the binding domain of the human Androgen receptor

Binding of a Hoechst dye to d(CGCGATATCGCG) and its influence on the conformation of the DNA fragment

Structure of the Tetraheme Cytochrome from Desulfovibrio desulfuricans ATCC 27774: X-ray Diffraction and Electron Paramagnetic Resonance Studies

Cytochrome c₃ from Desulfovibrio gigas: Crystal structure at 1.8 Å resolution and evidence for a specific calcium‐binding site

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M.A. Carrondo

Structural evidence for ligand specificity in the binding domain of the human Androgen receptor

Binding of a Hoechst dye to d(CGCGATATCGCG) and its influence on the conformation of the DNA fragment

Structure of the Tetraheme Cytochrome from Desulfovibrio desulfuricans ATCC 27774: X-ray Diffraction and Electron Paramagnetic Resonance Studies

Cytochrome c3 from Desulfovibrio gigas: Crystal structure at 1.8 Å resolution and evidence for a specific calcium‐binding site

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Cytochrome c₃ from Desulfovibrio gigas: Crystal structure at 1.8 Å resolution and evidence for a specific calcium‐binding site