In 2010,Garton, Neil; Bailey, Nick; Bamford, Mark; Demont, Emmanuel; Farre-Gutierrez, Irene; Hutley, Gail; Bravi, Gianpaolo; Pickering, Paula published 《Discovery of biaryl inhibitors of H+/K+ ATPase》.Bioorganic & Medicinal Chemistry Letters published the findings.Synthetic Route of C3H3BrN2 The information in the text is summarized as follows:
We report the identification of a novel biaryl template for H+/K+ ATPase inhibition. Evaluation of critical SAR features within the biaryl imidazole framework and the use of pharmacophore modeling against known imidazopyridine and azaindole templates suggested that the geometry of the mol. is key to achieving activity. Herein we present our work optimizing the potency of the mol. through modifications and substitutions to each of the ring systems. In particular sub-micromolar potency is achieved with (4b) presumably through a proposed intramol. hydrogen bond that ensures the required imidazole basic center is appropriately located. In the experiment, the researchers used many compounds, for example, 2-Bromo-1H-imidazole(cas: 16681-56-4Synthetic Route of C3H3BrN2)
2-Bromo-1H-imidazole(cas: 16681-56-4) is a member of imidazole. Its exclusive structural characteristics with enviable electron-rich features are favorable for imidazole-based fused heterocycles to bind efficiently with an array of enzymes and receptors in biological systems through various weak interactions like hydrogen bonds, ion-dipole, cation-π, π-π stacking, coordination, Van der Waals forces, hydrophobic effects, etc., and therefore they demonstrate widespread bioactivities. Synthetic Route of C3H3BrN2
Referemce:
Imidazole – Wikipedia,
Imidazole | C3H4N2 – PubChem