Structural elucidation of a Mn(III) derivative anchored with a tetradentate Schiff base precursor: in vitro cytotoxicity study

Das, Kuheli; Shetty, Manasa G.; Melanthota, Sindhoora K.; Sundara, Babitha K.; Kar, Sudeshna; Massera, Chiara; Garribba, Eugenio; Datta, Amitabha; Mazumder, Nirmal

doi:10.1007/s11696-022-02599-x

Chem. Pap.

2023

DOI: 10.1007/s11696-022-02599-x

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Structural elucidation of a Mn(III) derivative anchored with a tetradentate Schiff base precursor: in vitro cytotoxicity study

Kuheli Das

Manasa G. Shetty

Sindhoora K. Melanthota

et al.

Abstract: A new mononuclear Mn(III) derivative, [Mn(L)(H2O)2]ClO4 (1) was obtained by reacting manganese perchlorate with the tetradentate Schiff base precursor, H2L, [where H2L=C6H3(OMe)(OH)CH=N(CH2)3N=CH(OH)(OMe)C6H3] and characterized by various spectral techniques. Single crystal X-ray diffraction analysis revealed that in 1, the central Mn atom is hexa-coordinated via the NNOO donor sites of the Schiff base precursor and two water molecules, yielding a distorted octahedral geometry. Also, the EPR spectra of 1 were … Show more

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Supramolecular Dimeric Mn^III Complexes: Synthesis, Structure, Magnetic Properties, and Catalytic Oxidation Studies

Jana,

Jagličić,

Brandão

et al. 2024

ACS Omega

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In this study, a tetradentate Schiff-base ligand (H 2 L), synthesized by the condensation of ethylenediamine with 2-hydroxy-3-methoxy-5-methylbenzaldehyde, was reacted with either manganese salts or manganese salts in the presence of various pseudohalides in methanol. This reaction resulted in the formation of five mononuclear Mn III complexes: 4), and [Mn(L)(H 2 O) 2 ](dca) (5) (where dca is dicyanamide ion). X-ray crystallography revealed that the Mn III centers adopt a hexa-coordinate pseudo-octahedral geometry, where the equatorial plane is constructed with phenoxo oxygen and imine nitrogen atoms from the Schiff base ligand, while the axial positions are occupied by water molecules or a combination of water and pseudohalides. Supramolecular interactions, primarily π−π stacking and hydrogen bonding, contribute to the formation of pseudodimeric structures in the solid state. Magnetic susceptibility measurements indicated antiferromagnetic coupling within quasi-dimers, primarily through hydrogen bonds. Catalytic studies showed that the complexes effectively catalyze the aerobic oxidation of substrates such as 2-aminophenol and 3,5-di-tert-butylcatechol to yield 2aminophenoxazin-3-one and 3,5-di-tert-butylquinone, respectively. They also catalyze the oxidation of styrene to its corresponding oxirane, demonstrating their versatile catalytic proficiency. Mechanistic insights, supported by ESI mass spectrometry and EPR studies, suggest that catalysis involves the formation of a complex−substrate aggregate, followed by an intramolecular electron transfer.

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Supramolecular Dimeric Mn^III Complexes: Synthesis, Structure, Magnetic Properties, and Catalytic Oxidation Studies

Jana,

Jagličić,

Brandão

et al. 2024

ACS Omega

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show abstract

Synthesis, characterization, DFT, biological activities and molecular docking analysis of Schiff base ligand and its transition metal complexes

Todarwal,

Tadavi,

Sancheti

et al. 2024

Eur J Chem

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In this study, we synthesized a tetradentate Salen type Schiff base ligand (H2L = 6,6'-(((4-chloro-1,2-phenylene)bis(azanylylidene))bis(methanylylidene)) bis(2-isopropyl-5-methyl-phenol)) containing N2O2 donor atoms and its analogous transition metal complexes, namely CoL, NiL, CuL, and ZnL. The ligand was prepared through the condensation reaction of 3-isopropyl-6-methylsalicyaldehyde and 4-chloro-1,2-phenylene diamine. Various spectroscopic methods viz. FT-IR, UV-Vis, 1H- and 13C-NMR, ESI-MS, and elemental analysis were utilized to elucidate the synthesized compounds. The free ligand coordinates with the metal ions in 1:1 molar ratio. The bactericidal investigations of the compounds were performed against S. aureus, S. pyogenes, E. coli, and P. aeruginosa. Antimalarial, anti-inflammatory and antioxidant activities were also studied. The DFT study was performed to optimize the geometry and evaluate the chemical reactivity parameters. The molecular docking investigation was performed to evaluate the binding interactions and binding energy of the synthesized compounds against cysteine protease SpeB and lactate dehydrogenase receptor proteins. This investigation established a good correlation between theoretical and practical outcomes.

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Structural elucidation of a Mn(III) derivative anchored with a tetradentate Schiff base precursor: in vitro cytotoxicity study

Cited by 2 publications

References 49 publications

Supramolecular Dimeric Mn^III Complexes: Synthesis, Structure, Magnetic Properties, and Catalytic Oxidation Studies

Supramolecular Dimeric Mn^III Complexes: Synthesis, Structure, Magnetic Properties, and Catalytic Oxidation Studies

Synthesis, characterization, DFT, biological activities and molecular docking analysis of Schiff base ligand and its transition metal complexes

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Structural elucidation of a Mn(III) derivative anchored with a tetradentate Schiff base precursor: in vitro cytotoxicity study

Cited by 2 publications

References 49 publications

Supramolecular Dimeric MnIII Complexes: Synthesis, Structure, Magnetic Properties, and Catalytic Oxidation Studies

Supramolecular Dimeric MnIII Complexes: Synthesis, Structure, Magnetic Properties, and Catalytic Oxidation Studies

Synthesis, characterization, DFT, biological activities and molecular docking analysis of Schiff base ligand and its transition metal complexes

Contact Info

Product

Resources

About

Supramolecular Dimeric Mn^III Complexes: Synthesis, Structure, Magnetic Properties, and Catalytic Oxidation Studies

Supramolecular Dimeric Mn^III Complexes: Synthesis, Structure, Magnetic Properties, and Catalytic Oxidation Studies