677748-47-9Relevant academic research and scientific papers
A new DMAP-catalyzed and microwave-assisted approach for introducing heteroarylamino substituents at position-4 of the quinazoline ring
Gellis, Armand,Kieffer, Charline,Primas, Nicolas,Lanzada, Gilles,Giorgi, Michel,Verhaeghe, Pierre,Vanelle, Patrice
, p. 8257 - 8266 (2015/03/03)
We report herein a new methodology for synthesizing quinazoline derivatives bearing a heteroarylamino moiety at position-4 of the quinazoline ring. As an alternative to the Buchwald-Hartwig cross-coupling reaction, which appears, until now, as the only efficient way to react 4-chloroquinazolines with numerous amino nitrogen-containing heterocycles displaying poor nucleophilicity, we developed a DMAP-catalyzed reaction involving microwave irradiation. Optimization of the reaction conditions led to the use of 30 mol % of DMAP in toluene, using a monomode microwave reactor and sealed vials. Moreover, the SNAr reaction intermediate salt was isolated and fully characterized. Finally, the procedure was extended to two different 2-substituted-quinazoline series and also to various anilines, demonstrating that this approach was a general efficient way to access to such 4-substituted quinazoline scaffolds of high pharmaceutical interest.
Synthesis of substituted quinazolines: Application to the synthesis of verubulin
Lockman, Jeffrey W.,Klimova, Yevgeniya,Anderson, Mark B.,Willardsen, J. Adam
experimental part, p. 1715 - 1723 (2012/04/10)
Through newly adapted methodology, 2-methyl-3H-quinazolin-4-one was activated using a number of methods followed by displacement to afford 4-aminoquinazolines. The most useful of these processes utilize the p-toluenesulfonate ester or I2/PPh3 activation. Using this methodology, the anticancer vascular targeting clinical candidate verubulin (1) was synthesized in a highly efficient manner. Copyright Taylor & Francis Group, LLC.
