Synthesis, characterization, X-ray structure and in vitro antifungal activity of triphenyltin complexes based on pyrazole dicarboxylic acid derivatives

Synthesis and biological evaluation of rationally designed pyrazoles as insecticidal agents

The current research focused on the synthesis of two series of pyrazole derivatives and evaluation of their insecticidal effectiveness. In the first series, seven pyrazole Schiff bases 3a-g were successfully synthesized with yields (79-95%) by condensing phenylfuran-2-carbaldehyde with substituted pyrazole rings. In the second series, eleven amino acid-pyrazole conjugates 6a-k were synthesized utilizing acetic acid, sulfuric acid, morpholine, and EDC. HCl achieving yields of 59% to 94%. The synthesized compounds were assessed for their chemotherapeutic efficacy against locusts and termites by calculating LC50 values, thereby determining their potential as anti-termite and anti-locust agents. Among the eighteen synthesized pyrazole compounds, the Schiff base pyrazole molecules 3f (LC50 = 0.001 μg/mL) and 3d (LC50 = 0.006 μg/mL) demonstrated excellent anti-termite activity compared to the reference drug fipronil (LC50 = 0.038 μg/mL). Pyrazole derivative 6 h with LC50 = 47.68 μg/mL exhibited superior anti-locust activity than the reference drug fipronil (LC50 = 63.09 μg/mL). Additionally, compound 3b, containing NO2 functionality at the meta position, exhibited notable and significant anti-locust activity with an LC50 values of 100.00 μg/mL. However, the highest mortality was caused by the glycine conjugate of fipronil 6 h of the 2nd series with an LC50 value of 47.68 μg/mL, which also proved to be a potent anti-locust agent. This study explores the efficacy of biologically active pyrazole structures as potential insecticidal agents through a combination of virtual molecular docking analysis and biological experimental investigations. The results demonstrate a strong correlation between the computational predictions and experimental outcomes, suggesting that the pyrazole derivatives exhibit significant insecticidal properties. The findings highlight the potential of these compounds in the development of innovative insecticides, paving the way for future research in pest control strategies.

Eco-sustainable Synthesis and Potential Efficiency of Some Novel N-containing Heterocyclic Derivatives as Insecticidal and Photosensitizing Agents Against Musca domestica L

The rising application of conventional synthetic insecticides develops resistant populations of houseflies; therefore, using new chemical agents with different modes of action is essential to overcome this problem. The mechanical grinding technique was used as a green method, to synthesize the tested compounds because it is a more facile work-up and high-yield economy, simplicity and solvent-free than conventional thermal technique. Various methods were employed to synthesize new heterocycles containing anthracene (a photosensitizing agent) from chalcone 3, a building block material such as the preparation of the pyrazole derivatives 4-7, isoxazole derivative 8, pyrimidines 9-11, and oxirane derivative 12. The novel synthesized compounds were analyzed by FT-IR, 1H-NMR, 13C-NMR spectra, and elemental analysis. Herein, the toxicity of the anthracene derivatives was assessed against Musca domestica larvae and adults in different conditions to demonstrate the effect of various inserted moieties on the efficiency of tested compounds. Furthermore, the influence of sunlight on the toxicity of anthracene was studied in dark and sunlight tests against adult houseflies. Moreover, these compounds diminished the total protein and lipids contents while significantly influencing the antioxidant enzymes activities of M. domestica adults. Structure-activity relationships demonstrated the role of each moiety on the toxicity of compounds.

Synthesis of Halopyrazole Matrine Derivatives and Their Insecticidal and Fungicidal Activities

Matrine is a traditional botanical pesticide with a broad-spectrum biological activity that is widely applied in agriculture. Halopyrazole groups are successfully introduced to the C13 of matrine to synthesize eight new derivatives with a yield of 78–87%. The insecticidal activity results show that the introduction of halopyrazole groups can significantly improve the insecticidal activity of matrine on Plutella xylostella, Mythimna separata and Spodoptera frugiperda with a corrected mortality rate of 100%, which is 25–65% higher than matrine. The fungicidal activity results indicate that derivatives have a high inhibitory effect on Ceratobasidium cornigerum, Cibberella sanbinetti, Gibberrlla zeae and Collectot tichum gloeosporioides. Thereinto, 4-Cl-Pyr-Mat has the best result, with an inhibition rate of 23–33% higher than that of matrine. Therefore, the introduction of halogenated pyrazole groups can improve the agricultural activity of matrine.

Synthesis and characterization of new pyrazole-tetrazole derivatives as new vasorelaxant agents

The synthesis of new functionalized tetrazole-pyrazole compounds is reported. They were fully characterized by spectroscopy and spectrometry methods. The vasorelaxant potency of these molecules was also investigated. All compounds showed a good vasorelaxant activity but the Compound 6 "ethyl 1-((2-(3-bromopropyl)-2H-tetrazol-5-yl)methyl)-5-methyl-1H-pyrazole-3-carboxylate" seems to have the highest effect, which reached 70% at 10^-4 M concentration. This effect was partially endothelium-dependent; also, the vasorelaxant pattern of this compound was quite similar to that of the verapamil.