Palladium‐catalyzed cyclization of 2‐alkynyl‐<i>N</i>‐ethanoyl anilines to indoles: synthesis, structural, spectroscopic, and mechanistic study

Hoque, Mohammad Mazharol; Halim, Mohammad A.; Sarwar, Mohammed G.; Khan, Mohammad Wahiduzzaman

doi:10.1002/poc.3477

Cited by 28 publications

(17 citation statements)

References 60 publications

(84 reference statements)

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“…Table Energy values of frontier orbitals are represented in Table 2 for all the compounds along with the two widely used chemical descriptors parameter, hardness and softness. Compound (9) showed the lowest HOMO-LUMO energy gap, hardness, and highest softness which revealed the molecule has more reactivity than other derivatives, according to Pearson et al [11][12]. In Figure 4 the LUMO plot of the compound (9) showed that the electron was localized at the modified acylating group regions only, while the HOMO plot showed that the electron was localized on the upper part of the thymine ring.…”

Section: Frontier Molecular Orbitals Analysismentioning

confidence: 83%

“…The new analogues of thymidine used in this study were designated according to the reactions scheme. Thymidine (1) and its derivatives (2)(3)(4)(5)(6)(7)(8)(9)(10)(11)(12) were designated and optimized in the quantum mechanical method and Figure 2 shows the optimized structure of thymidine derivatives.…”

Section: Strategies and Optimization Of Designed Thymidine Analoguesmentioning

confidence: 99%

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An Optimization and Pharmacokinetic Studies of some Thymidine Derivatives

Kawsar¹,

Hossain²

2020

Turkish Computational and Theoretical Chemistry

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Thymidine is a predecessor of nucleotides that forms DNA and plays a significant role in cell metabolism and as a co-enzyme. Most of the thymidine analogues have remarkable antiviral activity due to structural functions and are globally used as antiviral drugs. Modification of the hydroxyl (-OH) group of thymidine by acylation may causes changes in the property of thymidine which is investigated in this study. Herein, we relate the optimization of thymidine and its acylated analogues applying density functional theory (DFT) with B3LYP/3-21G level theory to demonstrate their thermal, frontier molecular orbital, the density of states (DOS) and molecular electrostatic potential (MEP) properties. Pharmacokinetic parameters are also enumerated to investigate absorption, metabolism, oral toxicity, and carcinogenicity of thymidine and its modified derivatives.

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Section: Frontier Molecular Orbitals Analysismentioning

confidence: 83%

Section: Strategies and Optimization Of Designed Thymidine Analoguesmentioning

confidence: 99%

An Optimization and Pharmacokinetic Studies of some Thymidine Derivatives

Kawsar¹,

Hossain²

2020

Turkish Computational and Theoretical Chemistry

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“…Among all the modified drugs, the lowest HOMO-LUMO gap has been observed for D9. The lowest HOMO-LUMO gap indicates that the molecule is more chemically reactive [ 54 ]. Pearson found that the HOMO-LUMO gap has a relation to the chemical hardness and softness of a molecule [ 55 , 56 ].…”

Section: Resultsmentioning

confidence: 99%

Inhibition of DNA Topoisomerase Type IIα(TOP2A) by Mitoxantrone and Its Halogenated Derivatives: A Combined Density Functional and Molecular Docking Study

Saleh

Solayman

Hoque³

et al. 2016

BioMed Research International

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In this study, mitoxantrone and its halogenated derivatives have been designed by density functional theory (DFT) to explore their structural and thermodynamical properties. The performance of these drugs was also evaluated to inhibit DNA topoisomerase type IIα (TOP2A) by molecular docking calculation. Noncovalent interactions play significant role in improving the performance of halogenated drugs. The combined quantum and molecular mechanics calculations revealed that CF3 containing drug shows better preference in inhibiting the TOP2A compared to other modified drugs.

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“…The difference in HOMO and LUMO energy is called gap energy and gap energy corresponds to the electronic excitation energy. The compound that has the greater orbital gap energy, tends to be energetically unfavourable to undergo a chemical reaction and vice versa [53,101,102]. Moreover, gap energy also has correlation with the hardness and softness properties of a molecule [103].…”

Section: Discussionmentioning

confidence: 99%

Computational Exploration of Phytochemicals as Potent Inhibitors of Acetylcholinesterase Enzyme in Alzheimer’s Disease

Sarkar

Prottoy

2020

Preprint

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Alzheimers disease (AD) is the most common type of age related dementia. Many hypotheses shed light on several reasons that lead to AD development. The cholinergic hypothesis describes that destruction of an essential neurotransmitter, acetylcholine by acetylcholinesterase (AChE) enzyme, leads to the AD onset. The hydrolysis of acetylcholine by excess amount of AChE decreases the amount of acetylcholine in the brain, thus interfering with the normal brain functions. Many anti- AChE agents can be used to treat AD by targeting AChE. In our study, 14 anti- AChE agents from plants: 1,8-cineol, berberine, carvacrol, cheilanthifoline, coptisine, estragole, harmaline, harmine, liriodenine, myrtenal, naringenin, protopine, scoulerine, stylopine were tested against AChE and compared with two controls: donepezil and galantamine, using different techniques of molecular docking. Molecular docking study was conducted for all the 14 selected ligands against AChE to identify the best three ligands among them. To determine the safety and efficacy of the three best ligands, a set of tests: the druglikeness property test, ADME/T test, PASS & P450 site of metabolism prediction, pharmacophore mapping and modelling and DFT calculations were performed. In our experiment, berberine, coptisine and naringenin were determined as the three ligands from the docking study. Further analysis of these 3 ligands showed coptisine as the most potent anti-AChE agent. The molecular dynamics simulation study showed quite results for the coptisine- AChE docked complex. Administration of berberine, coptisine and naringenin could be potential treatments for AD.

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Palladium‐catalyzed cyclization of 2‐alkynyl‐N‐ethanoyl anilines to indoles: synthesis, structural, spectroscopic, and mechanistic study

Cited by 28 publications

References 60 publications

An Optimization and Pharmacokinetic Studies of some Thymidine Derivatives

An Optimization and Pharmacokinetic Studies of some Thymidine Derivatives

Inhibition of DNA Topoisomerase Type IIα(TOP2A) by Mitoxantrone and Its Halogenated Derivatives: A Combined Density Functional and Molecular Docking Study

Computational Exploration of Phytochemicals as Potent Inhibitors of Acetylcholinesterase Enzyme in Alzheimer’s Disease

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