Unified Total Synthesis of Polyoxins J,L, and Fluorinated Analogues on the Basis of Decarbonylative Radical Coupling Reactions

Polyoxins J ( 1 a ) and L ( 1 b ) are important nucleoside antibiotics. The complex and densely functionalized dipeptide structures of 1 a and 1 b contain thymine and uracil nucleobases, respectively. Herein we report the unified total synthesis of 1 a , 1 b , and their artificial analogues 1 c and 1 d with trifluorothymine and fluorouracil structures. Decarbonylative radical coupling between α‐alkoxyacyl tellurides and a chiral glyoxylic oxime ether led to chemo‐ and stereoselective construction of the ribonucleoside α‐amino acid structures of 1 a – d without damaging the preinstalled nucleobases. The high applicability of the radical‐based methodology was further demonstrated by preparation of the trihydroxynorvaline moiety of 1 a – d . The two amino acid fragments were connected and elaborated into 1 a – d (longest linear sequence: 11 steps). Compounds 1 a and 1 b assembled in this way exhibited potent activity against true fungi, while only 1 d was active against Gram‐positive bacteria.     

Synthesis of Novel 4‐Substituted Coumarins,Docking Studies,and DHODH Inhibitory Activity

Coumarins are the important class of naturally occurring heterocyclic compounds. Activities like antioxidant, antibacterial, anti‐inflammatory, and anticancer have been reported for coumarin derivatives. Present work details the synthesis of substituted coumarin‐4‐pyrrolones as well as coumarin‐4‐acetyl amino acids and their DHODH inhibitory activity, which is a dual target for malaria and cancer. Coumarin‐4‐acetic acids ( 2a – c ) were coupled with different methyl esters of α‐amino acids ( 3 ) giving rise to corresponding coumarin‐4‐acetyl amino acid methyl esters ( 4a – o ), which on hydrolysis under basic condition underwent cyclization forming substituted dihydropyrrole‐2‐ones ( 5a – i ), dihydroindolizine‐3‐ones ( 5j – l ), and dihydropyrrolizin‐3‐one ( 5m – o ). Acidic hydrolysis of the compounds ( 4a – o ) yielded corresponding coumarin‐4‐acetyl amino acids ( 6a – f ). The docking study was performed with the protein 4IGH (obtained from PDB) using Surflex–Dock module. The newly synthesized compounds were tested for DHODH inhibitory activity using Brequinar as the standard. Compound 6b showed remarkable inhibition compared with the standard, and the other compounds with terminal COOH showed moderate inhibition.     

Antimicrobial Properties of Some New Synthesized Benzothiazole Linked Carboxamide,Acetohydrazide, and Sulfonamide Systems

We report herein the interaction of diethylethoxymethylene malonate ( 1 ) with 2‐cyanomethylbenzothiazole ( 7 ) to give diethyl 2‐(2‐benzothiazole‐2‐(3H)‐ylidiene)‐2‐(cyano ethyl) malonate ( 8a ) in excellent yield. Ethyl 4‐cyano‐1‐oxo‐1H‐benzo[4,5]thiazolo[3,2‐a]pyridine‐2‐carboxylate (9) was synthesized from 8a and subjected to react with hydrazine hydrate to give its corresponding acid hydrazide 10 . Condensation of 10 with different acid anhydrides afforded the corresponding benzothiazolo pyridine carboxamide derivatives 11 – 15 . In addition, we report a simple synthesis of N′‐(benzo[d]thiazol‐2‐yl)‐2‐((4‐ayl)amino)acetohydrazide derivative ( 17 ), which then reacted with different amines to give the corresponding acetohydrazide derivatives 19a – c . Moreover, compound 17 reacted with some sulfonamide derivatives to give the corresponding sulfonamide derivatives 20 and 22a , b .The newly synthesized compounds were established their structures on the bases of their correct analytical and spectral data and evaluated their antimicrobial activity. It was found that compounds 22a , b displayed the highest antimicrobial activity against the tested organisms.     

Polycondensation of α‐amino acid esters in the presence of yttrium triflate as a Lewis acid

To develop polycondensation methods for poly(α‐amino acid)s, we describe a first examination to use yttrium triflate as a Lewis acid for polycondensation of α‐amino acid esters. In the absence of Lewis acid, no polycondensation of 2‐methoxyphenyl glycinate ( 1b ) at room temperature proceeded. While the polycondensation of 1b was carried out with 5 mol % yttrium triflate, a condensation product of glycine was obtained in 16% yield. Although polycondensation of 4‐nitrophenyl L ‐leucinate ( 1c ) and 4‐nitrophenyl L ‐valinate ( 1d ) were also promoted with 5 mol % yttrium triflate, the condensation products of both α‐amino acid esters were obtained in only a few percent yield. When 1d was polymerized in the presence of 100 mol % yttrium triflate, high molecular weight poly(L ‐valine) was obtained in 91% yield. © 2006 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 44: 4731–4735, 2006     

1,8‐Naphthalimide‐Substituted BODIPY Dyads: Synthesis,Structure, Properties,and Live‐Cell Imaging

A set of 1,8‐naphthalimide (NPI)‐substituted 4,4‐difluoroboradiaza‐s‐indacene (BODIPY) dyads 1 a – 1 c were designed and synthesized by the Pd‐catalyzed Sonogashira cross‐coupling reaction of ethynyl substituted NPI 1 with the meso‐, β‐, and α‐halogenated BODIPYs a , b , and c , respectively. The BODIPY 1 c exhibits redshifted absorption, which suggests better electronic communication with substitution at the α‐position of BODIPY compared with at the meso and β positions, which was further supported by time‐dependent DFT calculations. The optical band gap follows the order 1 a > 1 b > 1 c . The single‐crystal X‐ray structures of dyads 1 a – 1 c are reported, which reflect planar orientations of the BODIPY units with respect to the NPIs. The DFT‐optimized structures show good correlation with the experimental data obtained from the single‐crystal X‐ray structures. The packing diagram of 1 a shows a sheet‐like arrangement, 1 b forms a ladder‐like structural motif, and 1 c forms a complex 3D structural arrangement. The dyads 1 a – 1 c show low cytotoxicity (IC₅₀>100 μm ). The confocal microscopy studies with HeLa and A375 cells (when treated with dyads 1 a – 1 c ) show that all the dyads easily enter the cell membrane and show significant multicolor intracellular fluorescence covering the entire visible range with clear emissions in blue, green, and red channels.     

Synthesis of α‐alkylidene‐γ‐butyrolactones via Ring‐cleavage/recyclization of 2‐Amino‐4,5‐dihydro‐3‐furancarboxamides

The reactions of 2‐amino‐4,5‐dihydro‐3‐furancarboxarnides 1a,b with cyanomethylene compounds (such as alkyl cyanoacetates and malononitrile) gave the corresponding ring‐opened products 2a‐f. Compounds 2a‐d reacted with methanesulfonic acid to give the corresponding α‐alkylidene‐γ‐butyrolactones 3a‐d. On the other hand, treatment of 2e,f with methanesulfonic acid yielded 3‐pyridinecarbonitrile derivatives 4a,b.     

Metallkomplexe mit biologisch wichtigen Liganden. CLXV N,O‐Chelat‐Komplexe von α‐Aminosäureanionen mit cyclopalladiertem N,N‐Dimethylferrocencarbothiamid

Metal Complexes of Biologically Important Ligands. CLXV N,O‐Chelate Complexes of α‐Amino Acid Anions with Cyclopalladated N,N‐Dimethylferrocenecarbothioamide A short literature review on the reactions of various chlorobridged complexes with α‐aminoacidates, α‐amino acid esters, peptide ester or derivatives of amino acids is given. The chloro bridged o‐palladated N,N‐dimethylferrocenecarbothioamide [(fct)Pd(μ‐Cl)₂Pd(fct)] reacts with the anions of glycine, L‐alanine, L‐proline, L‐valine, L‐phenylalanine, L‐leucine, L‐isoleucine to give the N,O‐chelates [(fct)Pd(N,O‐α‐aminocarboxylate)] ( 1 – 7 ). Due to the planary chirality of the unsymmetrically disubstituted cyclopentadienyl iron moiety of fct the complexes 2 – 7 with optically active amino acidate ligands are formed as a mixture of two diastereoisomers, which can be detected by their NMR spectra.     

Ferrocene‐modified thiopyrimidines: synthesis,enantiomeric resolution,antitumor activity

Ferrocenylalkyl thiopyrimidines ( 6a–d to 9a–d ) were prepared via the reaction of the α‐(hydroxy)alkyl ferrocenes, FcCHR(OH) ( 1a–d ; Fc = ferrocenyl; R = H, Me, Et, Ph), with 2‐thiopyrimidines ( 2 – 5 ) in acetone at room temperature in the presence of TFA, yielding 50–95%. The resulting enantiomers were resolved using HPLC on modified cellulose as chiral selector. The antitumor activities of S‐ferrocenylethyl 2‐thiopyrimidine ( 6b ) against two murine solid tumor models, carcinoma 755 (Ca755) and Lewis lung carcinoma (LLC) were evaluated in vivo. The strong antitumor effect of compound 6b on Ca755 and LLC was demonstrated. The index of tumor growth inhibition on Ca755 equaled 95% in comparison with control. Copyright © 2010 John Wiley & Sons, Ltd.     

Total Syntheses and Biological Evaluation of Both Enantiomers of Several Hydroxylated Dimeric Nuphar Alkaloids

Herein, we describe the first total syntheses of five members of the dimeric nuphar alkaloids: (+)‐6,6′‐dihydroxythiobinupharidine (+)‐ 1 a , (+)‐6‐hydroxythiobinupharidine (+)‐ 1 b , (?)‐6,6′‐dihydroxythionuphlutine (?)‐ 2 a , (?)‐6,6′‐dihydroxyneothiobinupharidine (?)‐ 3 a , and (+)‐6,6′‐dihydroxyneothionuphlutine (+)‐ 4 a . The latter two have not been found in nature. We have also made each of their enantiomers (?)‐ 1 a – b , (+)‐ 2 a , (+)‐ 3 a , and (?)‐ 4 a . The key step in these syntheses was the dimerization of an α‐aminonitrile (a hydrolytically stable surrogate for its corresponding hemiaminal) with chiral Lewis acid complexes. We have also reassigned the literature structures of (+)‐ 1 a – 1 b —for those instances in which the NMR spectra were obtained in CD₃OD—to their corresponding CD₃O‐adducts. Our efforts provide for the first time apoptosis data for (?)‐ 3 a , (+)‐ 4 a , and all five non‐natural enantiomers prepared. The data indicate high apoptotic activity regardless of the enantiomer or relative stereochemical configuration at C7 and C7′.     

Radical Cyclisation of α‐Halo Aluminium Acetals: A Mechanistic Study

α‐Bromo aluminium acetals are suitable substrates for Ueno–Stork‐like radical cyclisations affording γ‐lactols and acid‐sensitive methylene‐γ‐lactols in high yields. The mechanistic study herein sets the scope and limitation of this reaction. The influence of the halide (or chalcogenide) atom X (X=Cl, Br, I, SPh, SePh) in the precursors α‐haloesters, as well as influence of the solvent and temperature was studied. The structure of the aluminium acetal intermediates resulting from the reduction of the corresponding α‐haloesters has been investigated by low‐temperature ¹³C‐INEPT diffusion‐ordered NMR spectroscopy (DOSY) experiments and quantum calculations, providing new insights into the structures of these thermally labile intermediates. Oxygen‐bridged dimeric structures with a planar Al₂O₂ ring are proposed for the least hindered aluminium acetals, while monomeric structures seem to prevail for the most hindered species. A comparison against the radical cyclisation of aluminium acetals derived from allyl and propargyl alcohols with the parent Ueno–Stork has been made at the BHandHLYP/6‐311++G(d,p) level of theory, highlighting mechanistic similarities and differences.     

Synthesis of Novel Chromene,Pyridine, Pyrazole,Pyrimidine, and Imidazole Derivatives via One‐pot Multicomponent Reaction

New series of chromenes 2 – 4 , pyridines 5 – 8 , and pyranopyrazoles 9a,b were synthesized via one‐pot multicomponent reaction of 4‐tosyloxybenzaldehyde ( 1 ) and malononitrile with phenols, amines or hydrazines, and ethyl acetoacetate, respectively. Compound 9a was reacted with acetic anhydride, formic acid, or formamide to afford N ‐acetyl derivative 10 and pyrazolopyranopyrimidines 11 – 13 , respectively. Imidazole derivatives 14 and 15a – d were obtained by multicomponent reaction between compound 1 with ammonium acetate and benzil or aromatic amines in (1:2:1) or (1:1:1:1) ratio, respectively. The structures of new compounds were elucidated by elemental and spectral analyses.     

Simple route to ferrocenylalkyl nucleobases. Antitumor activity in vivo

Ferrocenylalkyl nucleobases ( 1 – 14 ) were prepared via the reaction of the α‐(hydroxy)alkyl ferrocenes FcCHR(OH) (Fc = ferrocenyl; R = H, Me, Et, Ph) with thymine, cytosine, iodo‐cytosine and adenine in DMSO at 100 °C, yields being 50–80%. The antitumor activities of ferrocenylmethyl thymine ( 1 ) against solid tumor models, carcinoma 755 (Ca755) and Lewis lung carcinoma (LLC) were studied in vivo. Therapeutic synergism of antitumor activity against LLC was demonstrated in the case of combined application of compound 1 with anticancer drug cyclophosphamide. Copyright © 2009 John Wiley & Sons, Ltd.     

Synthesis and Antimicrobial Studies of New Spiropyran Quinazolinone Derivatives with Amide,Urea, and Sulfonamide Moieties

Three new series of quinazolinone derivatives containing amide, urea, and sulfonamide were synthesized through multistep synthesis. The required intermediates 4‐[(4′‐oxo‐2,3,3′,4′,5,6‐hexahydro‐1′H ‐spiro[pyran‐4,2′‐quinazolin]‐1′‐yl)methyl]benzoic acid 4 and 1′‐(3‐aminobenzyl)‐2,3,5,6‐tetrahydro‐1′H ‐spiro[pyran‐4,2′‐quinazolin]‐4′(3′H )‐one 8 were prepared by hydrolysis of ester and reduction of nitro intermediates. Three different series of compounds were synthesized from these two scaffolds. The key scaffolds 4 and 8 were successfully converted to target molecules via amides 5a – k , urea 9a – f , and substituted sulfonamides 10a – e . The chemical structures of newly synthesized compounds were characterized by spectral analysis. The structure of 5d was confirmed by X‐ray crystallography study. These newly synthesized compounds were screened for antibacterial studies against Staphylococcus epidermidis , Salmonella typhi , Proteus mirabilis , and Shigella sonnei and for the antifungal activity against Aspergillus niger and Candida albicans . Among all the compounds, 9b – d showed excellent activities against S. typhi . Compound 9a showed moderate activity against all fungi stains, and 5I showed moderate activity against P. mirabilis , while the other derivatives showed fairly good activities.     

Synthesis,Characterization, and Screening for Anti‐inflammatory and Antimicrobial Activity of Novel Indolyl Chalcone Derivatives

Because of the great biological importance of substituted indole derivatives, in the present study, a series of pyrazolylindole, thiazolylindole, and pyrimidinylindole derivatives have been synthesized with good yield. The precursor indolyl chalcone 2a – d was prepared by reaction of 3‐chloro‐1H‐indole‐2‐carbaldehyde 1 with different ketones. Then, compounds 3b – d , 4 , and 5a – d have been synthesized by the reaction of chalcones 2a – d with hydrazine, phenylhydrazine, and thiosemicarbazide. When the chalcone derivative 2b subjected to react with hydroxylamine hydrochloride gave isoxazolylindole derivative 6b . N‐thiazolidine pyrazolyl indole 7 was obtained by reacting compound 5a with ethyl chloroacetate. On the other hand, when chalcone derivative 2b allowed to react with urea and thiourea gave the corresponding pyrimidinylindole derivatives 8 and 9 . Finally, when chalcone derivative 2b reacted with ethyl cyanoacetate or malononitrile gave pyridinylindole derivatives 10 and 11 . The structures of the all synthesized compounds were elucidated on the basis of spectral analysis infrared, NMR, and mass spectroscopy. Some of the synthesized compounds were screened for their antimicrobial and anti‐inflammatory activity. Compound 4b was the highest antibacterial activity against all strains of bacteria with values higher than those of the corresponding reference antibiotics (ciprofloxacin and levofoxacin, respectively) and almost the same as (gemifloxacin, moxifloxacin, clindamycin, gentamycin, and streptomycin). Compounds 4 , 5 , 6 , and 7 showed high anti‐inflammatory activity compared with the standard drug indomethacin.     

Synthesis of Novel Pyridothienopyrimidines,Pyridothienopyrimidothiazines, Pyridothienopyrimidobenzthiazoles and Triazolopyridothienopyrimidines

The reaction of 3‐amino‐4,6‐dimethylthieno[2,3‐b]pyridine‐2‐carboxamide (1a) or its N‐aryl derivatives 1b‐d with carbon disulphide gave the pyridothienopyrimidines 2a‐d , whilst when the same reaction was carried out using N¹‐arylidene‐3‐amino‐4,6‐dimethylthieno[2,3‐b]pyridine‐2‐carbohydrazides (1e‐h) , pyridothienothiazine 3 was obtained. Also, refluxing of 1b‐d with acetic anhydride afforded oxazinone derivative 4 . Compounds 2a and 2b‐d were also obtained by the treatment of thiazine 3 with ammonium acetate or aromatic amines, respectively. When compound 2a was allowed to react with arylidene malononitriles or ethyl α‐cyanocinnamate, novel pyrido[3″,2″:4′,5′]thieno[3′,2′:4,5]pyrimido[2,1‐b][1,3] thiazines 5a‐c were obtained. Treatment of 2b‐d with bromine in acetic acid furnished the disulphide derivatives 6a‐c . U.V. irradiation of 2b‐d resulted in the formation of pyrido[3″,2″:4′,5′]thieno[3′,2′:4,5]pyrimido[2,1‐b]benzthiazoles 7a‐c . The reaction of 2a‐d with some halocarbonyl compounds afforded the corresponding S‐substituted thiopyrido thienopyrimidines 8a‐j . Compound 8b was readily cyclized into the corresponding thiazolo[3″,2″‐a]‐pyrido[3′,2′:4,5]thieno[3,2‐d]pyrimidine 9 upon treatment with conc. sulphuric acid. Heating of 2a,b with hydrazine hydrate in pyridine afforded the hydrazino derivatives 11a,b . Reaction of ester 8c with hydrazine hydrate in ethanol gave acethydrazide 10 . Compounds 10 and 11a,b were used as versatile synthons for other new pyridothienopyrimidines 12–15 as well as [1,2,4] triazolopyridothienopyrimidines 16–19.     

Synthesis,Biological Evaluation,and Molecular Docking Studies of Some N‐thiazolyl Hydrazones and Indenopyrazolones

Two new series of N‐thiazolyl hydrazones ( 3a – h ) and indenopyrazolones ( 4a – h ) were synthesized by the reaction of various 2‐acyl‐(1H)‐indene‐1,3(2H)‐diones, thiosemicarbazide, and phenacyl bromide/substituted phenacyl bromides. The in vitro antimicrobial activity of these synthesized compounds was assayed against four bacteria, namely, Bacillus subtilis, Staphylococcus aureus, Escherichia coli, and Pseudomonas aeruginosa, and two fungi, namely, Candida albicans and Aspergillus niger, by employing serial dilution method. Ciprofloxacin and fluconazole were used as antibacterial and antifungal reference drugs, respectively. Results of antimicrobial assay showed that the tested compounds have broad range of activity. The compounds 3h and 4a against C. albicans displayed more potency than fluconazole whereas 3b and 3c against B. subtilis showed activity comparable with ciprofloxacin. The synthesized indenopyrazolones ( 4a – h ) were evaluated for their in vitro antioxidant activity by 2,2‐diphenyl‐1‐picrylhydrazyl radical scavenging assay using ascorbic acid as reference. Compound 4b exhibited the highest 2,2‐diphenyl‐1‐picrylhydrazyl radical scavenging with IC₅₀ value 33.14 μg/mL. The observed results of antimicrobial activity were supported by molecular docking study performed to understand the binding interaction of hydrazones ( 3a – h ) and indenopyrazolones ( 4a – h ) with lanosterol 14α‐demethylase.     

Radical Stability Directs Electron Capture and Transfer Dissociation of β‐Amino Acids in Peptides

We report on the characteristics of the radical‐ion‐driven dissociation of a diverse array of β‐amino acids incorporated into α‐peptides, as probed by tandem electron‐capture and electron‐transfer dissociation (ECD/ETD) mass spectrometry. The reported results demonstrate a stronger ECD/ETD dependence on the nature of the amino acid side chain for β‐amino acids than for their α‐form counterparts. In particular, only aromatic (e.g., β‐Phe), and to a substantially lower extent, carbonyl‐containing (e.g., β‐Glu and β‐Gln) amino acid side chains, lead to N? C_β bond cleavage in the corresponding β‐amino acids. We conclude that radical stabilization must be provided by the side chain to enable the radical‐driven fragmentation from the nearby backbone carbonyl carbon to proceed. In contrast with the cleavage of backbones derived from α‐amino acids, ECD of peptides composed mainly of β‐amino acids reveals a shift in cleavage priority from the N? C_β to the C_α? C bond. The incorporation of CH₂ groups into the peptide backbone may thus drastically influence the backbone charge solvation preference. The characteristics of radical‐driven β‐amino acid dissociation described herein are of particular importance to methods development, applications in peptide sequencing, and peptide and protein modification (e.g., deamidation and isomerization) analysis in life science research.     

Synthesis of glycosyl esters from phosphoroates derivatives of 2‐bromosugars

This work presents the synthesis of glycosyl esters of 2‐bromo‐2‐deoxy‐D ‐hexopyranose, having the α‐D ‐manno ( 10a–cα ), β‐D ‐gluco ( 11a–dβ ) and α‐D ‐gluco ( 11a,bα ) configuration, by a stereoselective reaction between phosphoroates 3–8 and carboxylic acids 9a–d. Derivatives of 10a–c and 11a–d are formed in an overall quantitative yield, in an aprotic solvent in the presence of silver salts as a leaving group activator. The phosphoroselenoate of 3 was obtained by the condensation reaction of the triethylammonium salt of phosphoroseleno acid 2 with α‐1,2‐D ‐manno‐pyranosyl dibromide 1 with high stereoselectivity. The structures of the compounds 3,10a–c and 11a–d were established by ¹H and ¹³C NMR spectra and by elemental analyses. © 2000 John Wiley & Sons, Inc. Heteroatom Chem 11:292–298, 2000     

Synthesis,Characterization, Solvatochromic Properties,and Antimicrobial‐radical Scavenging Activities of New Diazo Dyes Derived from Pyrazolo[1,5‐a]pyrimidine

5‐Amino‐3‐methyl‐4‐phenylazo‐1H ‐pyrazole and ethyl cyanoacetate reacted in solvent‐free media at 150°C to produce 7‐amino‐3‐phenylazo‐2‐methyl‐4H ‐pyrazolo[1,5‐a]pyrimidine‐5‐one ( 3 ). A series of aromatic amines was coupled using this compound ( 3 ) and nitrous acid to produce new pyrazolo[1,5‐a] pyrimidine derivatives with two arylazo groups 4(a‐m) . The structures of these dyes were determined via UV–vis, Fourier transform infrared, proton nuclear magnetic resonance, high‐resolution mass spectral data, and elemental analysis. After synthesis, the solvent and acid–base effects of the dyes were investigated within the UV–vis region. The antimicrobial properties of the dyes were also studied. All dyes exhibited activity against Gram‐positive and Gram‐negative bacteria, and even against fungi. The results were compared to conventional reference results from the antibiotics ciprofloxacin and ketoconazole. Antioxidant potentials were analyzed using in vitro antioxidant models on the basis of DPPH (1,1‐d iphenyl‐2‐picrylhydrazyl) radical scavenging activities. Most of the compounds exhibited excellent antioxidant activities. In particular, compound 4b had a higher activity than Vitamin C.     

Synthesis,Antimicrobial, and Antioxidant Activities of Some Fused Heterocyclic [1,2,4]Triazolo[3,4‐b][1,3,4]thiadiazole Derivatives

In the present work, we synthesized a series of [1,2,4]triazolo[3,4‐b][1,3,4]thiadiazole derivatives ( 6a , 6b , 6c , 6d , 6e , 6f and 7a , 7b , 7c , 7d , 7e , 7f ) by using simple starting materials, namely, β‐amino acids and different aromatic acid hydrazides. The newly synthesized compounds were characterized by mass, IR, ¹H, and¹³C‐NMR spectral data analysis. The newly synthesized compounds were tested for their antimicrobial activities and antioxidant properties. Compound 6c was a potent microbial agent particularly against Staphylococcus aureus (MIC 3.12 µg/mL) and Candida albicans (MIC 6.25 µg/mL) when compared with the reference drugs ciprofloxacin and fluconazole, respectively. The antioxidant activity of the synthesized compounds was also evaluated by 1,1‐diphenyl‐2‐picryl hydrazyl, nitric oxide, and hydrogen peroxide radical scavenging methods. Compounds 6c , 6f , 7c , and 7f showed good radical scavenging activity due to the presence of electron‐donating group on phenyl ring.