Browsing by Author "Erdogan, Deniz Altunoz"
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Article Citation - WoS: 28Citation - Scopus: 27Interaction of a Novel Platinum Drug With Bovine Serum Albumin: Ftir and Uv-Vis Spectroscopy Analysis(Royal Soc Chemistry, 2015) Korkmaz, Filiz; Erdogan, Deniz Altunoz; Ozalp-Yaman, Seniz; Physics Group; Chemical EngineeringPlatinum complexes have proven to be very effective in cancer treatment. However, severe side effects of these drugs have lead scientists to pursue new platinum complex derivatives. A novel blue platinum compound, called Platinum-Blue (Pt-Blue), is one of the promising candidate platinum compounds to be used for tumor treatment. In this study, the interaction of Pt-Blue with bovine serum albumin (BSA) has been investigated using UV-Vis and FTIR spectroscopy. One of the findings is that the drug-protein interaction type depends on the drug concentration. Though Pt-Blue is attached to the surface of BSA at high concentrations, it interacts with a hydrophobic region of the protein at low concentrations with a binding constant of 1.93 x 10(5) M-1. Spectroscopic results indicate the hydrophobic docking position to be around Trp 213 in domain II, which is surrounded by a number of Asp and Glu. During this interaction, helices such as helix-10, helix-18, helix-19 and helix-24 change orientation and/or partially unfold to make room for the compound. Binding constants at high and low concentrations of Pt-Blue are determined using UV-Vis spectroscopy, which are found to be comparable to cisplatin. FTIR spectroscopy also reveals that the interaction between Pt-Blue and BSA is noncovalent, which makes the candidate drug favorable because it is available for DNA binding while being carried by albumin.Article Citation - WoS: 12Citation - Scopus: 13Novel Pt(ii) Complexes Containing Pyrrole Oxime, Synthesis, Characterization and Dna Binding Studies(Elsevier, 2014) Erdogan, Deniz Altunoz; Ozalp-Yaman, Seniz; Chemical EngineeringSince the discovery of anticancer activity and subsequent clinical success of cisplatin (cis-[PtCl2(NH3)(2)]), platinum-based compounds have since been widely synthesized and studied as potential chemotherapeutic agents. In this sense, three novel nuclease active Pt(II) complexes with general formula; [Pt(NH3)CI(L)] (1), [Pt(L)(2)] (2), and K[PtCl2(L)] (3) in which L is 1-H-pyrrole-2-carbaldehyde oxime were synthesized. Characterization of complexes was performed by elemental analysis, FT-IR, H-1 NMR and mass spectroscopy measurements. Interaction of complexes (1-3) with calf thymus deoxyribonucleic acid (ct-DNA) was investigated by using electrochemical, spectroelectrochemical methods and cleavage studies. The hyperchromic change in the electronic absorption spectrum of the Pt(II) complexes indicates an electrostatic interaction between the complexes and ct-DNA. Binding constant values between 4.42 x 10(3) and 5.09 x 10(3) M-1 and binding side size values between 2 and 3 base pairs were determined from cyclic voltammetry (CV) and differential pulse voltammetry (DPV) studies. (C) 2014 Elsevier B.V. All rights reserved.Article Citation - WoS: 3Citation - Scopus: 3Spectroelectrochemical Investigation of Nuclease Active Pt(II) Complexes Containing Pyrrole Oxime(Pergamon-elsevier Science Ltd, 2015) Erdogan, Deniz Altunoz; Kayi, Hakan; Ozalp-Yaman, Seniz; Chemical EngineeringIn this paper, the electrochemical oxidation of three Pt(II) complexes containing pyrrole oxime (HL) having a general formula of [Pt(NH3)Cl(L)] (1), [Pt(L)(2)] (2), and K[PtCl2(L)] (3) has been investigated by in-situ spectroelectrochemistry in dimethylformamide (DMF). An irreversible metal-based oxidation process occurs during the anodic scan for each of the three complexes. The electronic absorption spectral changes indicate that all the three complexes generate similar Pt(IV) compounds and free ligand. Our experimental data is supported by quantum chemistry calculations utilizing density functional theory. In addition, the frontier orbital energy distributions indicate that electron densities are localized on mainly platinum atom. (C) 2015 Elsevier Ltd. All rights reserved.
