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Professor H. Hadadzadeh
Professor of Inorganic & Bioinorganic Chemistry
Treatment of K562 cells with the various oxicam complexes and the oxicam ligands showed different inhibition effects in a concentration dependent manner. The cell inhibition was measured after 48 h by the MTT assay.
DNA- ligand binding pose in major groove of mixed sequence (PDB ID: 423D) (A), in minor groove of DNA crystal structures GC rich (PDB ID: 1QC1) (B), and AT rich (PDB ID: 226D) (C); The hydrogen bonding interaction between DNA and 4-OHPh-tpy, mixed sequenc
(A) The ligand docked in binding pocket of BSA. (B) The hydrophobic and hydrophilic amino acid residues surrounding the ligand. (C) The hydrogen bonding interaction distance between ligand and SER 201
(A) Molecular docking perspective of the Ru (II) complex with the major groove side of DNA using MVD. The complex depicted in a stick model, and DNA, represented in a wireframe model, (B) two-dimensional interactions generated by LIGPLOT.
Schematic representation of the calculated molecular-orbitals in CO22– (bent geometry) with their energy levels (eV).
The schematic representation of LUMOs of the species in the proposed mechanism for electrocatalytic reduction of CO2 by the Ru(II) complex.
The schematic representation of HOMOs of the species in the proposed mechanism for the electrocatalytic reduction of CO2 by the Ru(II) complex.
(A) Perspective of molecular docking of the Ni(II) complex with the major groove side of DNA by UCSF chimera, (B) two-dimensional interactions generated by LIGPLOT+.
(A) Perspective of molecular docking of the Cu(II) complex with the major groove side of DNA by MVD chimera, (B) two-dimensional interactions generated by LIGPLOT+.
The schematic presentation of dipole moment vectors of the species.
Honors and Awardes
Recent Conference Papers
Recent Crystal Structures
Isfahan University of Technology
Department of Chemistry
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