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Daucus capillifolius Gilli is a rare annual wild herb grown in Libya. It belongs to the Apiaceae family, which is one of the largest flowering plant families. Plants of this family are outstanding sources of various secondary metabolites with various biological activities. A UPLC-ESI-MS/MS analysis of different extracts of in vivo and in vitro tissues of Daucus capillifolius together with the fruit extract of the cultivated plant in both ionization modes was carried out for the first time in the current study. Our results reveal the tentative identification of eighty-seven compounds in the tested extracts, including thirty-two phenolic acids and their derivatives; thirty-seven flavonoid glycosides and aglycones of apigenin, luteolin, diosmetin, myricetin and quercetin, containing glucose, rhamnose, pentose and/or glucuronic acid molecules; seven anthocyanins; six tannins; three acetylenic compounds; and three nitrogenous compounds. The tentative identification of the above compounds was based on the comparison of their retention times and ESI-MS/MS fragmentation patterns with those previously reported in the literature. For this Apiaceae plant, our results confirm the presence of a wide array of secondary metabolites with reported biological activities. This study is among the first ones to shed light on the phytoconstituents of this rare plant.
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Extractos Vegetales , Metabolismo Secundario , Espectrometría de Masa por Ionización de Electrospray , Espectrometría de Masas en Tándem , Extractos Vegetales/química , Espectrometría de Masas en Tándem/métodos , Cromatografía Líquida de Alta Presión/métodos , Flavonoides/química , Flavonoides/análisis , Metanol/química , Apiaceae/química , Frutas/químicaRESUMEN
A novel 6-hydroxy-8,11,11-trimethyl-bicyclo[7.2.0]undec-4-ene-4-carboxylic acid 1 has been isolated from leaves of Iphiona scabra DC. Its structure has been established on the basis of chemical and physical evidence (IR, ¹H NMR, ¹³C NMR, and MS) and further confirmed by single-crystal X-ray diffraction study. The in vitro antioxidant activities of isolated compound 1 and extracts were evaluated by 1,1-diphenyl-2-picrylhydrazyl method.
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Antiinflamatorios no Esteroideos/aislamiento & purificación , Antiinflamatorios no Esteroideos/farmacología , Antioxidantes/aislamiento & purificación , Antioxidantes/farmacología , Asteraceae/química , Compuestos Bicíclicos Heterocíclicos con Puentes/aislamiento & purificación , Compuestos Bicíclicos Heterocíclicos con Puentes/farmacología , Ácidos Carboxílicos/aislamiento & purificación , Ácidos Carboxílicos/farmacología , Algoritmos , Animales , Antiinflamatorios no Esteroideos/química , Antioxidantes/química , Compuestos de Bifenilo/farmacología , Compuestos Bicíclicos Heterocíclicos con Puentes/química , Ácidos Carboxílicos/química , Cristalografía por Rayos X , Lipopolisacáridos/farmacología , Macrófagos/efectos de los fármacos , Ratones , Conformación Molecular , Estructura Molecular , Óxido Nítrico/biosíntesis , Resonancia Magnética Nuclear Biomolecular , Oxidación-Reducción , Picratos/farmacología , Hojas de la Planta/química , YemenRESUMEN
In light of the ongoing pandemic caused by SARS-CoV-2, effective and clinically translatable treatments are desperately needed for COVID-19 and its emerging variants. In this study, some derivatives, including 7ß-aminocholestene compounds, and 3ß-acetoxy-6-nitrocholesta-4,6-diene were synthesized, in quantitative yields from 7ß-bromo-6-nitrocholest-5-enes (1-3) with a small library of amines. The synthesized steroidal products were then thoroughly characterized using a range of physicochemical techniques, including IR, NMR, UV, MS, and elemental analysis. Next, a virtual screening based on structures using docking studies was conducted to investigate the potential of these synthesized compounds as therapeutic candidates against SARS-CoV-2. Specifically, we evaluated the compounds' binding energy of the reactants and their products with three SARS-CoV-2 functional proteins: the papain-like protease, 3C-like protease or main protease, and RNA-dependent RNA polymerase. Our results indicate that the 7ß-aminocholestene derivatives (4-8) display intermediate to excellent binding energy, suggesting that they interact strongly with the receptor's active amino acids and may be promising drug candidates for inhibiting SARS-CoV-2. Although the starting steroid derivatives; 7ß-bromo-6-nitrocholest-5-enes (1-3) and one steroid product; 3ß-acetoxy-6-nitrocholesta-4,6-diene (9) exhibited strong binding energies with various SARS-CoV-2 receptors, they did not meet the Lipinski Rule and ADMET properties required for drug development. These compounds showed either mutagenic or reproductive/developmental toxicity when assessed using toxicity prediction software. The findings based on structure-based virtual screening, suggest that 7ß-aminocholestaines (4-8) may be useful for reducing the susceptibility to SARS-CoV-2 infection. The docking pose of compound 4, which has a high score of -7.4 kcal mol-1, was subjected to AI-assisted deep learning to generate 60 AI-designed molecules for drug design. Molecular docking of these AI molecules was performed to select optimal candidates for further analysis and visualization. The cytotoxicity and antioxidant effects of 3ß-acetoxy-6-nitrocholesta-4,6-diene were tested in vitro, showing marked cytotoxicity and antioxidant activity. To elucidate the molecular basis for these effects, steroidal compound 9 was subjected to molecular docking analysis to identify potential binding interactions. The stability of the top-ranked docking pose was subsequently assessed using molecular dynamics simulations.
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This study was conducted to explore the interaction between two plant-based antiplasmodial compounds, gartanin and friedelin, and bovine serum albumin (BSA). The objectives aimed to elucidate the binding characteristics, structural changes, and thermodynamic parameters associated with the interaction. Various methods were used including UV-vis, fluorescence, and circular dichroism spectroscopy, supported by molecular docking and molecular dynamics simulation. The results showed a concentration-dependent interaction between the antiplasmodial compounds and BSA, revealing changes in protein conformation and stability. The obtained results showed that the plant products bound with BSA through static quenching with moderate binding affinity (104 M-1) with BSA. Thermodynamic parameters and structural transitions calculated from spectroscopic methods revealed that hydrogen bond and van der Waals forces caused the partial conformational alteration in the secondary structure of BSA as the α-helical content decreased with an increase in ß sheets, random coils, and other structures. Computational analysis provided insights into the binding sites and affinities. The study enhances our understanding of the molecular interactions between BSA protein and antiplamodial compounds obtained from plants, supporting the research of choosing, designing, and optimizing molecules for biomedical applications with a focus on selectively targeting their binding sites.
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This study investigated the bioactive potential of Rhus alata, a plant known for its rich phytochemicals. A previously unreported compound was isolated from R. alata and characterized using various spectroscopic techniques (IR, UV, NMR, MS) and confirmed for the first time by X-ray crystallography. In isolated compound 1, noncovalent interactions between H···H/H···H, C···C/C···C and O···H/H···O play a major role in its packing arrangement. This observation is consistent with the results of Hirshfeld surface analysis, which quantified these interactions as 14.2%, 84.6%, and 1.2%, respectively. The isolated compound was identified as lantabetulic acid (1) (3ß,25-expoxy-3α-hydroxylup-20(29)-en-28-oic acid). To understand its potential biological interactions, the binding affinity of lantabetulic acid to biomolecules such as bovine serum albumin (BSA), and human serum albumin (HSA), was assessed. The results showed significant binding efficacy, indicating potential interactions with these molecules. Furthermore, the DPPH assay demonstrated the potent antioxidant activity of this compound. We used in silico molecular docking to clarify the binding affinity between lantabetulic acid and a particular receptor. Furthermore, molecular dynamic simulation studies also explored the binding interaction. As well, MM/GBSA calculations corroborate the simulation results and the stability of the complex. Docking and dynamics studies revealed promising binding scores, suggesting further investigation into their potential therapeutic applications. Geometric parameters and the absorption spectrum of compound 1 were also determined using the DFT approach and compared with experimental findings.
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Pyracantha crenulata (D. Don) M. Roem (syn. Crataegus crenulata Roxb.) is an evergreen shrub in the Rosaceae family, notable for its chemical diversity and biological potential. This study isolates and characterises six compounds (Cc-1 to Cc-6), including four new ones, using repeated column chromatography. Structural elucidation employed IR, UV-vis, 1H and 13 C NMR, and mass spectrometry. The DPPH assay was used to test the antioxidant activity in vitro. Compounds Cc-4, Cc-2, Cc-1, and Cc-5 had IC50 values of 15.734 µg/ml, 51.422 µg/ml, 62.864 µg/ml, and 71.622 µg/ml, in that order. Quantitative phytochemical analysis revealed flavonoid content (22.81 mg/g), tannin content (385.15 mg/g), and total phenolic content (128.78 mg/g). Human cyclin-dependent kinase 2 (CDK2) (PDB ID: 1hck) docked with compound Cc-4, which demonstrated strong antioxidant activity and revealed significant non-bonding interactions. The pkCSM and SwissADME analyses suggested promising drug-like properties for Cc-4, supported by BOILED-Egg diagrams highlighting its therapeutic potential.
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Hymedesmiidae is one of the largest families of marine sponges and stands out as an exceptional source of variable metabolites with diverse biological activities. In this study, the ethyl acetate fraction (HE) of a Hymedesmia sp. marine sponge from the Red Sea, Egypt, was analyzed for the first time using Ultra-performance liquid chromatography electrospray ionization tandem mass spectrometry (UPLC-ESI-MS/MS) analysis. The analysis tentatively identified 29 compounds in this fraction, including the isolation and identification of six compounds (two pyrimidine nucleosides, one purine, and two pyrimidine bases in addition to one cerebroside) for the first time. The structures of the isolated compounds were established by 1D and 2D NMR (nuclear magnetic resonance), MS (mass spectrometry), and IR (infrared) spectroscopy. Furthermore, the cytotoxic, antioxidant, and antimicrobial activities of the ethyl acetate fraction were evaluated in vitro. The fraction exhibited strong DPPH scavenging activity with an IC50 of 78.7 µg/mL, compared to ascorbic acid as a positive control with an IC50 of 10.6 µg/mL. It also demonstrated significant cytotoxic activity with IC50 values of 13.5 µg/mL and 25.3 µg/mL against HCT-116 and HEP-2 cell lines, respectively, compared to vinblastine as a positive control with IC50 values of 2.34 µg/mL and 6.61 µg/mL against HCT-116 and HEP-2, respectively. Additionally, the ethyl acetate fraction displayed promising antibacterial activity against S. aureus with a MIC value of 62.5 µg/mL, compared to ciprofloxacin as a positive control with MIC values of 1.56 µg/mL for Gram-positive bacteria and 3.125 µg/mL for Gram-negative bacteria. It also exhibited activity against E. coli and P. aeruginosa with MIC values of 250 µg/mL and 500 µg/mL, respectively. Briefly, this is the first report on the biological activities and secondary metabolite content of the ethyl acetate fraction of Hymedesmia sp. marine sponge, emphasizing the potential for further research against resistant bacterial and fungal strains, as well as different cancer cell lines. The ethyl acetate fraction of Hymedesmia sp. is a promising source of safe and unique natural drugs with potential therapeutic and pharmaceutical benefits.
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BACKGROUND: Benzimidazoles have a wide range of synthetic applications in medicinal chemistry and biological activities like anti-tumor/anti-proliferative activities etc. Moreover, different heterocyclic moieties attached to the benzimidazole ring improved anticancer activities. METHODS: All the chemicals were purchased from Aldrich Chemical Company, are of AR grade and used as received. Microanalytical data (C, H, and N) were analyzed on a Carlo Erba model 1108 analyzer. Melting points were measured by the Kofler apparatus and were uncorrected. Spectroscopic data were obtained using the following instruments: Fourier transform infrared spectra (KBr discs, 4000-400 cm-1) by Shimadzu IR-408 Perkin Elmer 1800 instrument; 1H NMR and 13C NMR spectra by JEOL Resonance Inc. Tokyo, Japan, JNM-ECZ400S/L1 using DMSO-d6 as a solvent containing TMS as the internal standard. Chemical shifts (δ) are reported in parts per million (ppm), and coupling constants (J) are reported in Hertz (Hz). RESULTS: We chose sulfosalicylic acid as a promoter for forming benzimidazole-acrylonitrile derivatives, which is an eco-friendly reaction, and we applied a series of synthesized compounds 3a-g in nematicidal activity. The results indicate that the concentrations of all treatments significantly kill M. incognita. CONCLUSION: This model reaction procedure provides a better method for preparing benzimidazoleacrylonitrile, which is superior to other methods. This protocol simplifies handling model reactions with mild reaction conditions, a short time period, a simple set-up, a fast reaction rate, and so on.
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Espectroscopía de Resonancia Magnética , Japón , TokioRESUMEN
The present work reports simple and effective protocol for preparing 6α-nitro-5α-cholestano[7α,5-cd] pyrazolines (4-7) by the reaction of 7α-bromo-6-nitrocholest-5-enes (1-3) with hydrazine hydrate under reflux [the substrate (2) gave products (5) and (6) and the later on acetylation with AC2O/Py gave (7)]. In the case of reaction of 3ß-hydroxy analogue (3) with hydrazine, however, 6α-nitro-5α-cholestano [3α,5-cd] pyrazoline (8) and 6α-nitro-3ß, 5-oxido-5ß-cholestane (9) were obtained. The probable mechanism of the formation of pyrazolines has also been outlined. In the current pandemic coronavirus disease 2019 scenario, the in-silico study was performed with reactants (1-3), their products (4-9) against SARS-CoV-2 omicron protease (PDB ID:7T9L) for knowing significant interactions between them. Docking results give information that both reactants and products have binding energies ranges from -5.7 to 7.7 kcal/mol and strong interactions with various hydrophilic and hydrophobic amino acids such as ASP, PRO, PHE, SER and LEU which are significant residues playing important role in SARS-CoV-2 Omicron main protease (Mpro).
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Tratamiento Farmacológico de COVID-19 , Proteasas 3C de Coronavirus , SARS-CoV-2 , Humanos , Hidrazinas , Simulación del Acoplamiento Molecular , Simulación de Dinámica Molecular , Péptido Hidrolasas , SARS-CoV-2/enzimología , SARS-CoV-2/metabolismo , Proteasas 3C de Coronavirus/antagonistas & inhibidoresRESUMEN
The present article reports the biogenic synthesis of silver nanoparticles (AgNPs) and gold nanoparticles (AuNPs) from the extract of Acacia auriculiformis (AA) leaves using biogenic approach. Several spectral and morphological studies namely UV-vis, Fourier transform infrared (FT-IR), tunneling electron microscopy along with selected area electron diffraction (TEM/SAED), scanning electron microscopy along with energy dispersive X-ray (SEM-EDX) and X-ray diffraction (XRD) were carried out which ascertains the successful formation of silver nanoparticles (AgNPs) and gold nanoparticles (AuNPs) starting from Silver nitrate and Chloroauric acid respectively. On the basis of TEM/SAED and SEM-EDX, AgNPs were found to be more regular with smaller particle size and hence they were selected for biological studies. Thermal techniques like thermo gravimetric analysis (TGA) and differential thermal analysis (DTA) were also performed to study the comparative thermal stability of AgNPs and AuNPs where AgNPs were found to be thermally more stable. Several biophysical techniques including Thioflavin T assay, ANS assay, Rayleigh scattering method and turbidity assay were also performed. These assays confirm that AgNPs possess better inhibitory property. Moreover, antioxidant activity of AgNPs was also carried out using 2,2-diphenyl-1-picrylhydrazyl (DPPH) and AgNPs were found to be good antioxidant.
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Acacia , Enfermedad de Alzheimer , Nanopartículas del Metal , Enfermedad de Parkinson , Antibacterianos/farmacología , Oro/química , Nanopartículas del Metal/química , Extractos Vegetales/química , Hojas de la Planta/química , Plata/análisis , Espectroscopía Infrarroja por Transformada de Fourier , Difracción de Rayos XRESUMEN
In the title compound, C(12)H(11)IO(4), the C and O atoms of both meth-oxy groups lie very close to the mean plane of the six C atoms of the benzene ring. The O and C atoms of the group lying closest to the I atom are 0.012â (3) and 0.022â (4)â Å, respectively, out of the mean plane. For the other meth-oxy group, the corresponding distances are 0.020â (3) and 0.078â (4)â Å. In the crystal, there are only very weak inter-molecular C-Hâ¯O hydrogen bonds and Oâ¯I contacts [3.080â (2)â Å]. The mol-ecules are approximately parallel to (100), forming a layered structure.
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AIM: The study aimed to synthesize chromeno-pyrazolo[1,2-b]phthalazine-6,9,14(7H)-trione analogs with the help of silica-supported bismuth nitrate catalyst. BACKGROUND: Nitrogen-containing heterocyclic compounds are widespread, and their applications to pharmaceuticals, agrochemicals, and functional materials are becoming more and more important. Pyrazoles are an important class of compounds for new drug development, as they are the core structure of numerous biologically active compounds, including blockbuster drugs such as celecoxib, viagra, pyrazofurine, and many others. Similarly, heterocycles containing a phthalazine moiety are of current interest due to their pharmacological and biological activities; for example, pyrazolo[1,2-b]phthalazinedione is described as an anti-inflammatory, analgesic, antihypoxic, and antipyretic agent. OBJECTIVE: In continuation of our ongoing investigation for the synthesis of efficient and simple approaches for the preparation of heterogeneous catalysts, herein we wish to disclose a highly efficient, simple, and one-pot synthesis of chromeno-pyrazolo-phthalazine derivatives via a one-pot multi-component reaction between 4- hydroxycoumarin, aromatic/heterocyclic aldehydes and 2,3-dihydro-1,4-phthalazinedione using silica-supported bismuth nitrate as an inexpensive, environmentally friendly and reusable catalyst under solvent-free conditions. MATERIALS AND METHODS: Microanalytical data (C, H, and N) were collected on Carlo Erba analyzer model 1108. The microwave synthesis was performed in Anton Paar, Monowave 300 microwave synthesizer. Melting points were measured in open glass capillaries in the Kofler apparatus and are uncorrected. Spectroscopic data were obtained using the following instruments: Fourier transform infrared spectra (KBr discs, 4000-400 cm-1) by Shimadzu IR-408 Perkin-Elmer 1800 instrument; 1H NMR and 13C NMR spectra by Bruker Avance-II 400 MHz using DMSO-d6 as a solvent containing TMS as the internal standard. Mass spectra were set down on a JEOL D-300 mass spectrometer. RESULTS: In continuation of our ongoing studies to synthesize heterocyclic and pharmaceutical compounds by mild, facile, and efficient protocols, herein we wish to report our experimental results of the synthesis of chromeno- pyrazolo-phthalazine derivatives under solvent-free condition derivatives, using various aromatic/heterocyclic aldehydes in the presence of silica-supported bismuth nitrate catalyst. The prepared catalyst was characterized by various physical and chemical techniques. CONCLUSION: We have demonstrated an efficient reaction path for the synthesis of new aryl and heteroaryl chromeno-pyrazolo[1,2-b]phthalazine-6,9,14(7H)-trione by one-pot three-component condensation of aryl/ heteroaryl aldehydes, 2,3-dihydro-1,4-phthalazinedione and 4-hydroxy coumarin using silica-supported bismuth nitrate (SSBN) under microwave irradiation. The scheme not only offers the use of microwave at low temperatures and significant yield of products but also affords mild reaction conditions, without harmful solvent, shorter reaction times, high purity, operational simplicity, and easy workup.
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Bismuto , Ftalazinas , Catálisis , Nitratos , SolventesRESUMEN
In the title compound, C(12)H(10)I(2)O(4), the meth-oxy groups are twisted considerably with respect to the plane of the aromatic ring [CH(3)-O-C-C torsion angles = -85.9â (3) and -92.8â (3)°]. In the crystal, mol-ecules are linked by weak C-Hâ¯O hydrogen bonds and Oâ¯I contacts [3.194â (2)â Å].
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The title compound, C(20)H(16)O(6), which contains one chiral centre, crystallizes as a racemate. The mean planes of the two coumarin units make a dihedral angle of 88.07â (2)°. The pyrone ring containing the chiral centre adopts a sofa conformation. In the crystal, four mol-ecules are linked by O-Hâ¯O hydrogen bonds, forming a tetrameric ring with graph-set motif R(4) (4)(32). These tetramers are further linked by O-Hâ¯O hydrogen bonds into a three-dimensional network.
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A green approach has been developed for the synthesis of a series of benzylidene acrylate 3(a-p) from differently substituted aromatic/heterocyclic aldehydes and ethyl cyanoacetate in excellent yields (90-98%), and employing silica bonded N-(Propylcarbamoyl)sulfamic acid as a recyclable catalyst under solvent-free condition. The molecular structure of compounds 3b, 3d and 3i were well supported by single-crystal X-ray crystallographic analysis. The present protocol bears wide substrate tolerance and is believed to be more practical, efficient, eco-friendly, and compatible as compared to existing methods. In-silico approaches were implemented to find the biochemical and physiological effects, toxicity, and biological profiles of the synthesized compounds to determine the expected biological nature and confirm a drug-like compound. A molecular docking study of the expected biologically active compound was performed to know the hypothetically binding mode with the receptor. Also, reverse docking is applied to recognize receptors from unknown protein targets for drug-like compounds to explain poly-pharmacology and binding postures with different receptors.
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Acrilatos/síntesis química , Compuestos de Bencilideno/síntesis química , Simulación del Acoplamiento Molecular , Dióxido de Silicio/química , Ácidos Sulfónicos/química , Acrilatos/química , Compuestos de Bencilideno/química , Catálisis , Cristalografía por Rayos X , Teoría Funcional de la Densidad , Estructura MolecularRESUMEN
The geometrical parameters of the title compound, C(16)H(11)NO(3)S, are in the usual ranges. The two aromatic residues are not coplanar and are twisted by a dihedral angle of 66.63â (6)°. The crystal structure is stabilized by N-Hâ¯O and O-Hâ¯S inter-actions.
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In the title compound, C(12)H(10)O(4), the five-membered ring adopts an envelope conformation, with the Csp(3) atom at the flap [deviation = 0.145â (2)â Å]. In the crystal structure, mol-ecules are linked by inter-molecular O-Hâ¯O and C-Hâ¯O hydrogen bonds, forming a three-dimensional network.
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In the crystal structure, the title compound, C(24)H(22)O(8), lies on a twofold rotation axis and the asymmetric unit comprises one half-mol-ecule. The dihedral angle formed by the coumarin unit with the symmetry-related part is 74.78â (14)°. One of the meth-oxy groups attached to the coumarin unit is considerably twisted, making an angle of 87.17â (17)° with respect to the coumarin unit; the other is twisted by 0.66â (19)°. No classical hydrogen bonds are found in the sturcture; only a weak C-Hâ¯π inter-action and short intra-molecular Oâ¯O contacts [2.683â (2)-2.701â (2)â Å] are observed.
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In the title mol-ecule, C(24)H(22)O(8), the mean planes of the two coumarin units are inclined to each other at a dihedral angle of 79.93â (3)°. The attached meth-oxy groups form torsion angles of 7.65â (19) and 78.36â (14)° with respect to one coumarin unit, and angles of 9.01â (16) and 99.08â (11)° with respect to the other coumarin unit. In the crystal structure, weak inter-molecular C-Hâ¯O hydrogen bonds connect pairs of mol-ecules to form dimers, generating R(2) (2)(16) and R(2) (2)(18) rings; the dimers are linked by further weak inter-molecular C-Hâ¯O hydrogen bonds, forming extended chains. Additional stabil-ization is provided by weak C-Hâ¯π inter-actions.
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AIMS AND OBJECTIVE: In the synthesis of heterocyclic compounds, acrylonitrile derivatives are the most important and appropriate precursors. These compounds are the most important intermediates and subunits for the enhancement of molecules having pharmaceutical or biological interests. Nitrogen-containing compounds have received extensive consideration in the literature over the years. MATERIALS AND METHODS: A facile, economic and efficient method has been developed for the synthesis of acrylonitrile derivatives using p-nitrophenylacetonitrile and aromatic/heterocyclic aldehydes in the presence of zinc chloride at room temperature. Spectroscopic data were obtained using the following instruments: Fourier transform infrared spectra (KBr discs, 4000-400 cm-1) by Shimadzu IR-408 Perkin-Elmer 1800 instrument; 1H NMR and 13C NMR spectra by Bruker Avance-II 400 MHz using DMSO-d6 as a solvent containing TMS as the internal standard. RESULTS: To continue our ongoing studies to synthesize heterocyclic and pharmaceutical compounds by mild, facile and efficient protocols, herein we wish to report our experimental results on the synthesis of acrylonitrile derivatives, using various aromatic/heterocyclic aldehydes and p-nitrophenylacetonitrile in the presence of zinc chloride in ethanolic media at room temperature. Some of the new compounds were tested for their human serum albumin activity (HSA) while a study of interaction with HSA protein was performed for compounds 3a and 3b. The results show that compound 3b binds tightly to HSA as compared to compound 3a. CONCLUSION: It can be concluded that acrylonitrile derivatives can be synthesized by an efficient method via the reaction of p-nitrophenylacetonitrile with aromatic/heterocyclic aldehydes by the use of zinc chloride as an effective solid catalyst. The remarkable features of this procedure include excellent yields (90-95%), short reaction period (30 min.), moderate reaction environment, easy workup procedure and managing of the catalyst. This method may find a wide significance in organic synthesis for the synthesis of the Z-acrylonitrile.