67028-40-4Relevant articles and documents
Design, docking, synthesis, and characterization of novel N'(2-phenoxyacetyl) nicotinohydrazide and N'(2-phenoxyacetyl)isonicotinohydrazide derivatives as anti-inflammatory and analgesic agents
Al-Ostoot, Fares Hezam,Khanum, Shaukath Ara,M, Pallavi H,Vivek, Hamse Kameshwar
, (2021/09/14)
Inflammation is the complex biological response of vascular tissues, which is partly determined by prostaglandins (PLA2). The cyclooxygenase (COX) enzyme exists in two isoforms: COX-1 and COX-2 and by the action of this, the PGs are produced. Besides, nonsteroidal anti-inflammatory drugs (NSAIDs) are therapeutic agents useful in the treatment of inflammation. Encouraged by this, the new derivatives of N'(2-phenoxyacetyl)nicotinohydrazide 9(a-e) and N'(2-phenoxyacetyl)isonicotinohydrazide 10(a-e) were designed, synthesized, characterized, and identified as remarkable anti-inflammatory and analgesic agents. These compounds were prepared in a series of steps starting with different phenol derivatives. Among the series, compound (10e) showed the highest IC50 value for COX-1 inhibition, whereas compounds (9e) and (10e) exhibited the highest COX-2SI. Further, molecular Docking Studies have been performed for the potent compound to check the three-dimensional geometrical view of the ligand binding to the targeted enzymes.
Expedient discovery for novel antifungal leads: 1,3,4-Oxadiazole derivatives bearing a quinazolin-4(3H)-one fragment
Chai, Jianqi,Chen, Min,Jin, Fei,Kong, Xiangyi,Wang, Xiaobin,Xue, Wei,Yang, Chunlong
, (2021/08/03)
Developing novel fungicide candidates are intensively promoted by the rapid emergences of resistant fungi that outbreak on agricultural production. Aiming to discovery novel antifungal leads, a series of 1,3,4-oxadiazole derivatives bearing a quinazolin-4(3H)-one fragment were constructed for evaluating their inhibition effects against phytopathogenic fungi in vitro and in vivo. Systematically structural optimizations generated the bioactive molecule I32 that was identified as a promising inhibitor against Rhizoctonia solani with the in vivo preventative effect of 58.63% at 200 μg/mL. The observations that were captured by scanning electron microscopy and transmission electron microscopy demonstrated that the bioactive molecule I32 could induce the sprawling growth of hyphae, the local shrinkage and rupture on hyphal surfaces, the extreme swelling of vacuoles, the striking distortions on cell walls, and the reduction of mitochondria numbers. The above results provided an indispensable complement for the discovery of antifungal lead bearing a quinazolin-4(3H)-one and 1,3,4-oxadiazole fragment.
Synthesis, structural analysis, Hirshfeld surface analysis, DFT calculations, in vitro and docking study on antioxidant activity of 6-chloro-3-[(4-methylphenoxy) methyl] [1,2,4] triazolo[4,3-b]pyridazine
Sallam, Hamdi Hamid,Mohammed, Yasser Hussien Eissa,Geetha,Al-Ostoot, Fares Hezam,Sridhar,Shaukath, Ara Khanum
, p. 25 - 44 (2021/09/22)
Pyridazine nuclei are essential elements of many natural and synthetic compounds with important biological activities. NMR and IR, as well as studies of mass spectrum, were emplyed to synthesize and characterize the title compound 6-chloro-3-[(4-methylphenoxy) methyl] [1,2,4] triazolo[4,3-b] pyridazine (CMTP). The structure of this compound was confirmed by using single crystal X-ray diffraction technique and it got crystallized in the monoclinic crystal system with the space group P2 1/c. The values of unit cell parameters are: a = 12.0965(7) ?, b = 13.6075(7) ?, c = 7.7686(4) ?, β = 93.942(3)° and Z = 4. Intermolecular hydrogen bonds of two types i.e., C-H…O and C-H…N, were noticed. Hirshfeld surface analysis was employed to account for these interaction bonds. Energy frameworks were carried out to know the dominant interaction energy involved in the molecular packing. DFT calculations were constructed to find the agreement between the theoretical and experimental values. HOMO-LUMO energy levels have been determined; global hardness, global softness, and other quantum chemical parameters have been calculated to reveal the chemical reactivity of the compound. In order to investigate the antioxidant activity of the compound, molecular docking studies were performed.