5933-32-4Relevant articles and documents
Design, Synthesis, and Study of the Insecticidal Activity of Novel Steroidal 1,3,4-Oxadiazoles
Bai, Hangyu,Jiang, Weiqi,Li, Qi,Li, Tian,Ma, Shichuang,Shi, Baojun,Wu, Wenjun
, p. 11572 - 11581 (2021/10/12)
A series of novel steroidal derivatives with a substituted 1,3,4-oxadiazole structure was designed and synthesized, and the target compounds were evaluated for their insecticidal activity against five aphid species. Most of the tested compounds exhibited potent insecticidal activity against Eriosoma lanigerum (Hausmann), Myzus persicae, and Aphis citricola. Compounds 20g and 24g displayed the highest activity against E. lanigerum, showing LC50 values of 27.6 and 30.4 μg/mL, respectively. Ultrastructural changes in the midgut cells of E. lanigerum were detected by transmission electron microscopy, indicating that these steroidal oxazole derivatives might exert their insecticidal activity by destroying the mitochondria and nuclear membranes in insect midgut cells. Furthermore, a field trial showed that compound 20g exhibited effects similar to those of the positive controls chlorpyrifos and thiamethoxam against E. lanigerum, reaching a control rate of 89.5% at a dose of 200 μg/mL after 21 days. We also investigated the hydrolysis and metabolism of the target compounds in E. lanigerum by assaying the activities of three insecticide-detoxifying enzymes. Compound 20g at 50 μg/mL exhibited inhibitory action on carboxylesterase similar to the known inhibitor triphenyl phosphate. The above results demonstrate the potential of these steroidal oxazole derivatives to be developed as novel pesticides.
Oxazole ring-containing honokiol thioether derivative and preparation method and application thereof
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Paragraph 0042; 0045-0046, (2021/08/11)
The invention discloses an oxazole ring-containing honokiol thioether derivative, a preparation method thereof and application of the oxazole ring-containing honokiol thioether derivative as an alpha-glucosidase inhibitor, the chemical structure of the oxazole ring-containing honokiol thioether derivative is shown as a general formula (I), and R is selected from non-substituted or substituted phenyl. Compared with the prior art, the invention provides the novel honokiol thioether derivative containing the oxazole ring, and the honokiol thioether derivative containing the oxazole ring has good inhibitory activity on alpha-glucosidase, provides more possibilities for treating diabetes, and is expected to be used for preparing novel candidate drug molecules for treating diabetes. In addition, the preparation process is simple, the cost is low, and the yield is high.
Design, synthesis and characterization of π-conjugated 2,5-diphenylsubstituted-1,3,4-oxadiazole-based D-π-A-π’-D′ form of efficient deep blue functional materials: Photophysical properties and fluorescence “Turn-off” chemsensors approach
Najare, Mahesh S.,Patil, Mallikarjun K.,Garbhagudi, Manjunatha,Yaseen, Mohammed,Inamdar, Sanjeev R.,Khazi, Imtiyaz Ahmed M.
, (2021/02/06)
This paper primarily deals with the design and synthesis of three novel conjugated organic molecules containing 1,3,4-oxadiazole unit (abbreviated as CHEM-6(a-c)) with Donor-π-Acceptor-π’-Donor’ structures by utilizing palladium catalyzed Suzuki cross coupling reaction. Molecular structures of these compounds were characterized by using various spectroscopic and analytical techniques namely 1H NMR, 13C NMR, FT-IR, GC–MS and elemental analysis. Optical properties of these compounds have been investigated by using UV–visible absorption and fluorescence spectroscopy. Also, the PL investigations on solid state samples (as thin films) were carried out. Furthermore, solvatochromism and Density Functional Theory (DFT) computations are studied in detail. The experimentally measured optical band gap (Egopt) values of compounds CHEM-6a, CHEM-6b and CHEM-6c were determined to be 3.11, 3.03 and 2.70 eV, respectively. The DSC and TGA results revealed that the compounds exhibit good thermal stabilities. Current results indicate that the compounds CHEM-6(a-c) are promising candidates and could play an important role in the field of optoelectronic devices and possibly find potential applications in development of OLEDs. In addition, the compounds CHEM-6(a-c) showed an interesting property of chemical sensing for Hg(II) ion which can be clearly observed by naked eyes from the changes in solution color and fluorescence (under UV excitation).