Luminescence, circular dichroism and <i>in silico</i> studies of binding interaction of synthesized naphthylchalcone derivatives with bovine serum albumin

Pasricha, Sharda; Sharma, Deepti; Ojha, Himanshu; Gahlot, Pragya; Pathak, Mallika; Basu, Mitra; Chawla, Raman; Singhal, Sugandha; Singh, Anju; Goel, Rajeev K.; Shukla, Shefali

doi:10.1002/bio.3319

Cited by 19 publications

(8 citation statements)

References 40 publications

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“…The molecular docking technique helps in understanding non-covalent drug-DNA interactions of small molecules into the targeted region of DNA for rational drug design and discovery. The minor groove of DNA is preferred over major one due to lesser steric hindrance, electrostatic factors and its narrow shape [35, 36, 37, 38, 39, 40].…”

Section: Resultsmentioning

confidence: 99%

Synthesis, DFT studies, molecular docking, antimicrobial screening and UV fluorescence studies on ct-DNA for novel Schiff bases of 2-(1-aminobenzyl) benzimidazole

Singhal

Khanna

2019

Heliyon

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Novel Schiff bases (SBs) were synthesized by condensation of 2-(1-Amino benzyl) benzimidazole with heterocyclic and aromatic carbonyl compounds. The structural characterization was done using 1H, 13C NMR, FTIR and ES-MS spectroscopic techniques. The in silico pharmacokinetics showed that nearly all compounds obeyed Lipinski rule of 5 with low toxicity and metabolic stability. The global reactivity descriptors were calculated using DFT approach. The molecular docking result of SBs with ct-DNA suggested interaction via groove binding mode. The antibacterial activity was tested against S. aureus and E. coli, indicated significant inhibition than reference drug. The compound 4d gave best results at 50 μg ml−1 concentrations. UV/Vis and Fluorescence spectroscopy tools were used to evaluate ct-DNA binding ability of compounds 4a–e through hypochromic shift. The steady state fluorescence predicted a moderate binding constant of 1.12 × 104 for 4d, indicative of non-intercalative mode.

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Section: Resultsmentioning

confidence: 99%

Synthesis, DFT studies, molecular docking, antimicrobial screening and UV fluorescence studies on ct-DNA for novel Schiff bases of 2-(1-aminobenzyl) benzimidazole

Singhal

Khanna

2019

Heliyon

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“…To explain the probable mechanism for quenching, the fluorescence quenching at three temperatures was carried out, including 288, 298, and 310 Kelvin ( Figure 3A). The Stern -Volmer plot displayed a good linear relationship under the concentration range, suggesting that only a single quenching type occurred [7,12,19]. The k q values at different temperatures appeared much larger than the maximum diffusion collision quenching rate constant (2×10 10 M -1 s -1 ) ( Table 1) [7,9,21].…”

Section: Fluorescence Quenching Of Interaction Between Kojic Acid Andmentioning

confidence: 92%

Study on the interaction of kojic acid with tyrosinase by spectroscopic methods

Liu¹,

You²,

Wang³

et al. 2020

SDRP-JCCMM

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Tyrosinase is the key enzyme in melanin synthesis, and kojic acid is a widely available inhibitor against tyrosinase with extensive application values. The inhibitory mechanism of kojic acid was elaborated by studying the mutual interaction and the effects on tyrosinase conformation using spectroscopy. Ultraviolet-visible absorption spectra showed kojic acid caused both the secondary and tertiary structure changed. Fluorescence lifetime measurements implied that kojic acid quenched the intrinsic fluorescence of tyrosinase via static process. A complex formed through one single binding site with a binding constant of 1.35×10 5 M-1. Thermodynamic parameters suggested that the binding was a spontaneous process with hydrogen bonds and van der Waals forces playing main role. Synchronous fluorescence spectra and three-dimensional fluorescence spectra showed that kojic acid induced obvious conformational changes in tyrosinase and increased the polarity of microenvironment. Circular dichroism revealed an increase of the content of α-helix and β-strand. This study will provide reliable basis concerning the inhibitory mechanism of kojic acid against tyrosinase, and therefore contribute to development of tyrosinase inhibitor.

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“…The pharmacological properties of ligands as drugs in organisms are strongly related to their interactions with biological proteins. [29][30][31][32] As a common enzyme in aerobic organism, catalase can rapidly decompose H 2 O 2 into H 2 O and O 2 . H 2 O 2 can play important roles physiologically and pathologically either as a beneficial signalling agent or a toxic hazard, and which one depends on its concentration in vivo.…”

Section: Impacts Of Ndp On Blc Activitymentioning

confidence: 99%

Elucidation on inhibition and binding mechanism of bovine liver catalase by nifedipine: multispectroscopic analysis and computer simulation methods

Zhou

Xiao

et al. 2022

Luminescence

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Nifedipine (NDP), a dihydropyridine calcium antagonist, is widely used for the treatment of hypertension and angina pectoris. Catalase is a key antioxidant enzyme that is closely relevant to the level of reactive oxygen specie in vivo. Here, the research explored the effects of NDP on the conformation and catalytic function of bovine liver catalase (BLC) through enzymatic reaction kinetic techniques, multispectroscopic analysis, and computer simulation methods. Kinetic studies clarified that the NDP reduced the activity of BLC using a noncompetitive inhibition mechanism.Based on trial data, a static quenching mechanism functioned in quenching the intrinsic fluorescence of BLC. The binding constant value was (4.486 ± 0.008) Â 10 4 M À1 (298 K) and BLC had one binding site for NDP. Tyr was prone to be exposed more to a hydrophilic environment in wake of a shift in fluorescence value. The binding reaction of BLC to NDP caused a conformational change in BLC, which in turn led to

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Luminescence, circular dichroism and in silico studies of binding interaction of synthesized naphthylchalcone derivatives with bovine serum albumin

Cited by 19 publications

References 40 publications

Synthesis, DFT studies, molecular docking, antimicrobial screening and UV fluorescence studies on ct-DNA for novel Schiff bases of 2-(1-aminobenzyl) benzimidazole

Synthesis, DFT studies, molecular docking, antimicrobial screening and UV fluorescence studies on ct-DNA for novel Schiff bases of 2-(1-aminobenzyl) benzimidazole

Study on the interaction of kojic acid with tyrosinase by spectroscopic methods

Elucidation on inhibition and binding mechanism of bovine liver catalase by nifedipine: multispectroscopic analysis and computer simulation methods

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