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    Dimethoxyindoles based thiosemicarbazones as multi-target agents; synthesis, crystal interactions, biological activity and molecular modeling
    (Academic Press Inc Elsevier Science, 2022) Yıldız, Minhal; Bingül, Murat; Zorlu, Yunus; Sağlam, Mehmet F.; Boğa, Mehmet; Temel, Mutesir; Şengül, İbrahim F.; Kandemir, Hakan
    Alzheimer's disease (AD) is known as one of the most devastating neurodegenerative disease diagnosed for the old-aged people and cholinesterase inhibitors (ChEI) can be used as an effective palliative treatment for AD. A range of novel monomeric and dimeric indole based thiosemicarbazone derivatives 17-28 was synthesized in order to target cholinesterases (ChE). Biological importance of the targeted compounds 17-28 was investigated by employing the acetylcholinesterase (AChE) and butyrylcholinesterase (BChE) enzymes along with three different antioxidant property determination assays, namely DPPH free radical scavenging, ABTS cationic radical decolarization, and CUPRAC cupric reducing antioxidant capacity. The compounds 18 and 19 displayed the best inhibitor activity against BChE with IC50 values of 7.42 and 1.95 mu M, respectively. The antioxidant potentials were found to be moderate for DPPH and ABTS assays and the compounds 28 and 18 were the most potent candidates for both antioxidant assays. Cupric reducing capacity was the most promising assay and the compounds 25, 26 and 28 provided better inhibition values than all the standards. Further binding mode and affinity studies performed by molecular docking and molecular dynamics simulations. Accordingly, the compound 19 is the most plausible candidate that can compete with galantamine (GNT), a common pharmaceutics targeting both cholinesterase enzymes.
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    Synthesis of a novel N,N ',N '-tetraacetyl-4,6-dimethoxyindole-based dual chemosensor for the recognition of Fe3+ and Cu2+ ions
    (Elsevier Science Sa, 2019) Şenkuytu, Elif; Bingül, Murat; Sağlam, Mehmet Turgut; Kandemir, Hakan; Şengül, İbrahim Fazıl
    A novel N,N'N',1-tetraacetyl-4,6-dimethoxy-1H-indole-2-carbohydrazide 5, bearing four N-acetyl groups (N-COCH3) as cation binding sites was successfully synthesized by the reaction of readily available 4,6-dimethoxy-1H-indole-2-carbohydrazide 4 with acetic anhydride in dimethyl formamide in the presence of triethylamine. The structure of the acetyl indole 5 was confirmed using H-1 NMR, C-13 NMR, FT-IR, mass spectrometry and single crystal X-ray diffraction techniques. The colorimetric sensing ability of targeted compound 5 was investigated by monitoring UV-Vis and fluorescence spectroscopy spectral changes upon addition of different cations. The compound 5 demonstrated selective recognition toward the Fe+3 and Cu+2 ions over other cations examined such as Li+, Na+, K+ Mg2+, Ca2+, Ba2+, Mn2+, Fe2+, Cr3+, Co2+, Ni2+, Ag+, Cd2+, Al3+, Hg (+), Zn2+. The complex stoichiometry of the compound 5 and Cu2+/Fe3+ ions were determined as 2:1 (ligand/metal) by fluorescence titrations (Job's plot). This is the first report showing 4,6-dimethoxyindole moiety represents a dual chemosensor capable of detecting the Cu2+ and Fe2+ ions.
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    Synthesis of indole-2-carbohydrazides and 2-(indol-2-yl)-1,3,4-oxadiazoles as antioxidants and their acetylcholinesterase inhibition properties
    (Springer Wien, 2019) Bingül, Murat; Sağlam, Mehmet Turgut; Kandemir, Hakan; Boga, Mehmet; Şengül, İbrahim Fazıl
    A range of novel 4,6-dimethoxy-1H-indole-2-carbohydrazides was prepared starting from methyl 4,6-dimethoxy-1H-indole-2-carboxylate which underwent cyclodehydration to generate the corresponding 2-(indol-2-yl)-1,3,4-oxadiazole scaffolds in the presence of N,N-diisopropylethylamine and p-toluenesulfonyl chloride in acetonitrile. All novel compounds were fully characterized by H-1 NMR, C-13 NMR, FT-IR, and high-resolution mass spectroscopic data. Biological importance of the designated compounds was identified by employing three different antioxidant property determination assays, namely DPPH free radical scavenging, ABTS cationic radical decolarization, and cupric reducing antioxidant capacity (CUPRAC). The anticholinesterase properties were also evaluated by the acetylcholinesterase and butyrylcholinesterase enzyme inhibition assays. According to the results, the indole compounds possessing carbohydrazide functionality were found to be more promising antioxidant targets than the 2-(indol-2-yl)-1,3,4-oxadiazole systems. N'-Benzoyl-4,6-dimethoxy-1H-indole-2-carbohydrazide, a member of the dimethoxyindole-2-carbohydrazide group, demonstrated a better inhibition performance than the standards. Additionally, extremely important results were obtained in the anticholinesterase enzyme inhibition assays in the case of 2-(indol-2-yl)-1,3,4-oxadiazole derivatives. [GRAPHICS] .
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    Synthesis, characterization, UV-Vis absorption and cholinesterase inhibition properties of bis-indolyl imine ligand systems
    (Elsevier, 2020) Sağlam, Mehmet Turgut; Bingül, Murat; Şenkuytu, Elif; Boğa, Mehmet; Zorlu, Yunus; Kandemir, Hakan; Şengül, İbrahim Fazıl
    A number of bis-indolyl imine helical structures has successfully been synthesized employing Schiff base reaction conditions starting from 4,6-dimethoxy-2,3-diphenylindole with different o-phenyl diamines as pi-spacer bridged. The structures of targeted compounds were identified by FT-IR, mass, H-1 and C-13 NMR spectroscopy along with single crystal X-ray diffraction techniques. The ground state absorption properties of the bis-indolyl compounds were also investigated utilizing UV-Vis absorption spectroscopy. As the biological aspect of the synthesized compounds, the anticholinesterase potency was investigated towards the acetylcholinesterase (AChE) and butyrylcholinesterase (BChE) enzymes. The highest inhibition was determined in the presence of compound 9 with the values of 89.21 and 96.06, better than standard Galantamine, for AChE and BChE, respectively. (C) 2020 Elsevier B.V. All rights reserved.
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    Synthesis, photophysical and antioxidant properties of carbazole-based bis-thiosemicarbazones
    (Springer, 2019) Bingül, Murat; Şenkuytu, Elif; Sağlam, Mehmet Turgut; Boga, Mehmet; Kandemir, Hakan; Şengül, İbrahim Fazıl
    Utilizing Schiff base condensation of the 9-ethylcarbazole-3,6-dicarbaldehyde and thiosemicarbazides, four new N-ethylcarbazole-based bis-thiosemicarbazone compounds 4a-d were successfully synthesized in high yields. The photophysical properties of the targeted compounds 4a-d were investigated using UV-vis absorption and fluorescence emission spectroscopy. The antioxidant properties of targeted compounds 4a-d were determined by DPPH radical scavenging, ABTS Cation Radical Decolarization and CUPRAC Cupric Reducing Antioxidant Capacity assay methods. Moreover, the anti-cholinesterase properties of designated compounds were investigated by the Acetylcholinesterase (Ach) and Butyrylcholinesterase (BCh) enzyme inhibition assays. The compound 4a was determined as a valuable candidate to be a potent antioxidant agent for the DPPH and ABTS assays. The compound 4d was found to be a target compound for the kinetic measurements to identify the mechanism of action in the area of anticholinesterase activity assay.
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    Synthesis, photophysical and antioxidant properties of pyrrolo[3,2-c]carbazole and dipyrrolo[3,2-c:2,3-g]carbazole compounds
    (Springer, 2019) Bingül, Murat; Şenkuytu, Elif; Boga, Mehmet; Uslu, Tugce Nur; Kandemir, Hakan; Şengül, İbrahim Fazıl
    The synthesis of (6-ethyl-1,6-dihydropyrrolo[3,2-c]carbazol-2-yl)methanol 5 and (6-ethyl-6,11-dihydro-1H-dipyrrolo[3,2-c:2,3-g]carbazole-2,10-diyl)dimethanol 6 were achieved via the reduction of methyl pyrrolo carbazole carboxylate 3 and methyl dipyrrolo carbazole carboxylate 4, respectively. The structures of hydroxymethyl-pyrrolocarbazoles 5 and 6 were supported by FT-IR, matrix-assisted laser desorption/ionization time-of-flight mass spectrometry, H-1 and C-13 NMR spectroscopy. The photophysical properties of the targeted compounds 3-6 were investigated by employing absorption and fluorescence spectroscopy in different common organic solvents. Also, the fluorescence lifetime ((F)) of the compounds was measured utilizing a time-correlated single-photon counting technique in tetrahydrofuran. Antioxidant activities of compounds 3-6 were determined by employing three different assays, namely DPPH radical scavenging, ABTS cation radical decolarization and cupric reducing antioxidant capacity. The results revealed that the ABTS cationic scavenging activity assay was found to be the most sensitive method for the determination of inhibition values.
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    Synthesis, Reactivity and Biological Properties of Methoxy-Activated Indoles
    (Societa Chimica Italiana, 2021) Şengül, İbrahim Fazıl; Bingül, Murat; Kandemir, Hakan; Kumar, Naresh; Black, David StC.
    Indoles continue to play a central role in the development of new structures of chemical and biological interest. They are the source of numerous biologically active natural products by virtue of their derivation from tryptophan units which are essential to peptide, protein and enzyme structures. Although the indole unit is electron rich and displays a wide range of reactivity, many naturally-occurring indoles contain methoxy substituents, which enhance their reactivity. The synthesis of methoxyindoles has also become a strategy for diversifying the regiochemical behaviour of indoles. This review brings together a wide range of information relating to indoles incorporating one, two, or three methoxy groups. It deals with aspects of synthesis, reactivity, and biological activity as well as summarizing the scope of important natural products © 2021, Targets in Heterocyclic Systems.All Rights Reserved.