Search Results (10)

Key intermediate azidodiols were synthesized according to literature from commercially available (+)- and (−)-α-pinene in a four-step sequence, including epoxidation with mCPBA, allylic rearrangement, a second epoxidation and, finally, a regioselective azidolysis of the resulting epoxide by sodium azide, yielding the enantiomerically pure azidodiols. The pyrimidine-based alkyne building blocks were prepared from dichloropyrimidines following our method reported previously, while the purine-containing alkyne analogues were synthesized in a procedure of two or three steps. Click reactions were carried out in the presence of Cu(OAc)₂ and sodium ascorbate. The obtained pinane-coupled 2,4-diaminopyrimidines were screened for antiproliferative activity by MTT assay on HeLa, MD231, SiHa, MCF-7, and A2780 human cancer cell lines compared with fibroblast cells (NIH/3T3), on Gram-positive and Gram-negative pathogenic bacteria, and two yeasts, and the SAR was explained in detail. The prepared compounds showed moderate antiproliferative activity. While the starting azidodiols (+)-2 and (−)-2 exhibited excellent and selective antibacterial activities against S. aureus with a moderate antimycotic effect on C. krusei, only the (−)-enantiomer was active against P. aeruginosa. In a similar manner, most pyrimidine and purine derivatives also expressed moderate antimycotic effect against C. krusei. One of the purine-based derivatives (−)-30 possessed remarkable and selective antibacterial effect against P. aeruginosa. Full article

Background: Gibberellins (GAs) are a family of tetracyclic ent-kaurenoid diterpenes found widely in several commonly used plants. Besides agricultural applications, gibberellins play an important role in the synthesis of bioactive compounds, especially those with antiproliferative and antibacterial activity. Methods: A series of gibberellic acid-based 2,4-diaminopyrimidines was designed and synthesized from commercially available gibberellic acid. The antimicrobial activity of the prepared compounds was also explored in B. subtilis, S. aureus, E. coli, and P. aeruginosa bacteria, as well as in C. krusei and C. albicans fungi. Results: The treatment of gibberellic acid with hydrochloric acid under reflux conditions resulted in aromatization followed by rearrangement to form allo-gibberic acid. The key intermediate azido alcohol was prepared according to the literature methods. The second key intermediate azidotriol was synthesized by the stereoselective dihydroxylation of the allylic function by the osmium (VIII)-tetroxide/NMO system. Starting from azide intermediates, click reactions were also carried out with 4-monoamino- and 2,4-diaminopyrimidines functionalized with the N-propargyl group. The new chimeric compounds, coupled with gibberellins thus obtained, were characterized by 1D- and 2D-NMR techniques and HRMS measurements. While the 4-monoamino-substituted derivatives exhibited only weak antibacterial activity, they demonstrated significant antifungal effectiveness against C. krusei. In general, 5-chloro-substituted pyrimidine derivatives displayed more consistent biological activities compared to their 5-fluoro counterparts, with the exception of one derivative, which showed acceptable activity against both C. krusei and C. albicans. The two derivatives featuring 5-chloro and 2-((4-(trifluoromethyl)phenyl)amino substituents proved to be highly effective against P. aeruginosa, making them promising candidates for further research. Aiming to elucidate the molecular interactions between the active compounds and their potential targets, molecular docking studies were conducted using AutoDock Vina 1.1.2. involving the most active compounds against P. aeruginosa.Conclusions: The biological effects of 2-monoamino or 2,4-diamino substitution as well as the effect of chloro or fluoro substitution at position 5 of the pyrimidine ring combined with the allo-gibberic acid moiety were determined. Compounds with selective antibacterial activity against P. aeruginosa as well as selective antifungal activity against C. krusei and C. albicans fungi were identified. Full article

This study focuses on synthesizing a new series of isoxazolinyl-1,2,3-triazolyl-[1,4]-benzoxazin-3-one derivatives 5a–5o. The synthesis method involves a double 1,3-dipolar cycloaddition reaction following a “click chemistry” approach, starting from the respective [1,4]-benzoxazin-3-ones. Additionally, the study aims to evaluate the antidiabetic potential of these newly synthesized compounds through in silico methods. This synthesis approach allows for the combination of three heterocyclic components: [1,4]-benzoxazin-3-one, 1,2,3-triazole, and isoxazoline, known for their diverse biological activities. The synthesis procedure involved a two-step process. Firstly, a 1,3-dipolar cycloaddition reaction was performed involving the propargylic moiety linked to the [1,4]-benzoxazin-3-one and the allylic azide. Secondly, a second cycloaddition reaction was conducted using the product from the first step, containing the allylic part and an oxime. The synthesized compounds were thoroughly characterized using spectroscopic methods, including ¹H NMR, ¹³C NMR, DEPT-135, and IR. This molecular docking method revealed a promising antidiabetic potential of the synthesized compounds, particularly against two key diabetes-related enzymes: pancreatic α-amylase, with the two synthetic molecules 5a and 5o showing the highest affinity values of 9.2 and 9.1 kcal/mol, respectively, and intestinal α-glucosidase, with the two synthetic molecules 5n and 5e showing the highest affinity values of −9.9 and −9.6 kcal/mol, respectively. Indeed, the synthesized compounds have shown significant potential as antidiabetic agents, as indicated by molecular docking studies against the enzymes α-amylase and α-glucosidase. Additionally, ADME analyses have revealed that all the synthetic compounds examined in our study demonstrate high intestinal absorption, meet Lipinski’s criteria, and fall within the required range for oral bioavailability, indicating their potential suitability for oral drug development. Full article

There is a growing interest in developing more efficient synthetic alternatives for the synthesis of nitrogen-containing allylic compounds. This article presents a straightforward two-step protocol to produce 5-(3-azidoprop-1-en-2-yl)benzo[d][1,3]dioxole 4 from the natural product safrole. The method yielded the expected α-azidomethyl styrene 4, in good yield, via a dearomative rearrangement. Full article

1,4- and 1,5-disubstituted tetrazoles possess enriched structures and versatile chemistry, representing a challenge for chemists. In the present work, we unravel the fragmentation patterns of a chemically diverse range of 5-allyloxy-1-aryl-tetrazoles and 4-allyl-1-aryl-tetrazolole-5-ones when subjected to electron impact mass spectrometry (EI-MS) and investigate the correlation with the UV-induced fragmentation channels of the matrix-isolated tetrazole derivatives. Our results indicate that the fragmentation pathways of the selected tetrazoles in EI-MS are highly influenced by the electronic effects induced by substitution. Multiple pathways can be envisaged to explain the mechanisms of fragmentation, frequently awarding common final species, namely arylisocyanate, arylazide, arylnitrene, isocyanic acid and hydrogen azide radical cations, as well as allyl/aryl cations. The identified fragments are consistent with those found in previous investigations concerning the photochemical stability of the same class of molecules. This parallelism showcases a similarity in the behaviour of tetrazoles under EI-MS and UV-irradiation in the inert environment of cryogenic matrices of noble gases, providing efficient tools for reactivity predictions, whether for analytical ends or more in-depth studies. Theoretical calculations provide complementary information to articulate predictions of resulting products. Full article

In this study, the highly strained three-membered aziridine ring was successfully activated as the aziridinium ion by alkylation of the ring nitrogen with a methyl, ethyl or allyl group, which was followed by ring opening with external nucleophiles such as acetate and azide. Such alkylative aziridine ring opening provides an easy route for the synthesis of various N-alkylated amine-containing molecules with concomitant introduction of an external nucleophile at either its α- or β-position. Full article

A wide range of methodologies for the preparation of organic azides has been reported in the literature for many decades, due to their interest as building blocks for different transformations and their applications in biology as well as in materials science. More recently, with the spread of the use of transition metal-catalyzed reactions, new perspectives have also materialized in azidation processes, especially concerning the azidation of C–H bonds and direct difunctionalization of multiple carbon-carbon bonds. In this review, special emphasis will be placed on reactions involving substrates bearing a leaving group, hydroazidation reactions and azidation reactions that proceed with the formation of more than one bond. Further reactions for the preparation of allyl and vinyl azides as well as for azidations involving the opening of a ring complete the classification of the material. Full article

Crude glycerol (C₃H₈O₃) is a major by-product of biodiesel production from vegetable oils and animal fats. The increased biodiesel production in the last two decades has forced glycerol production up and prices down. However, crude glycerol from biodiesel production is not of adequate purity for industrial uses, including food, cosmetics and pharmaceuticals. The purification process of crude glycerol to reach the quality standards required by industry is expensive and dificult. Novel uses for crude glycerol can reduce the price of biodiesel and make it an economical alternative to diesel. Moreover, novel uses may improve environmental impact, since crude glycerol disposal is expensive and dificult. Glycerol is a versatile molecule with many potential applications in fermentation processes and synthetic chemistry. It serves as a glucose substitute in microbial growth media and as a precursor in the synthesis of a number of commercial intermediates or fine chemicals. Chlorinated derivatives of glycerol are an important class of such chemicals. The main focus of this review is the conversion of glycerol to chlorinated derivatives, such as epichlorohydrin and chlorohydrins, and their further use in the synthesis of additional downstream products. Downstream products include non-cyclic compounds with allyl, nitrile, azide and other functional groups, as well as oxazolidinones and triazoles, which are cyclic compounds derived from ephichlorohydrin and chlorohydrins. The polymers and ionic liquids, which use glycerol as an initial building block, are highlighted, as well. Full article

Polymer-peptide conjugates are a promising class of compounds, where polymers can be used to overcome some of the limitations associated with peptides intended for therapeutic and/or diagnostic applications. Linear polymers such as poly(ethylene glycol) can be conjugated through terminal moieties and have therefore limited loading capacities. In this research, functionalised linear poly(ethylene glycol)s are utilised for peptide conjugation, to increase their potential loading capacities. These poly(ethylene glycol) derivatives are conjugated to peptide sequences containing representative side-chain functionalised amino acids, using different conjugation chemistries, including copper-catalysed azide-alkyne cycloaddition, amide coupling and thiol-ene reactions. Conjugation of a sequence containing the RGD motif to poly(allyl glycidyl ether) by the thiol-ene reaction, provided a conjugate which could be used in platelet adhesion studies. Full article

A method to synthesize 2-phenylselenenyl-1,3-anti-diols and 2-phenyl- selenenyl-1,3-anti-azidoalcohols via hydroxy- or azido-selenenylation of trans-allylic alcohols is reported. Moreover, the first example of hydroxyl-selenenylation of an allylic azide is presented. Yields ranging from moderate to good and diastereomeric ratios up to 95:5 are achieved. Full article