"Quinazolinones" Example Sentences
1. The synthesis of quinazolinones is a complex process.
2. Quinazolinones are heterocyclic compounds that have various pharmacological activities.
3. The antitumor activity of quinazolinones has been extensively studied.
4. The biological activity of quinazolinones largely depends on their chemical structure.
5. Quinazolinones have been reported to exhibit antiviral properties.
6. The synthesis of substituted quinazolinones has gained much attention in recent years.
7. Several derivatives of quinazolinones have been developed as potential therapeutic agents.
8. The cytotoxic effect of quinazolinones on cancer cells has been demonstrated by many studies.
9. Quinazolinones are widely used as intermediates in organic synthesis.
10. The pharmacological potential of quinazolinones has prompted many research studies.
11. Certain quinazolinones have been shown to act as potent inhibitors of monoamine oxidase.
12. The introduction of fluorine into the quinazolinones structure has been proven to enhance their antibacterial activity.
13. The antioxidant activity of some quinazolinones has been reported.
14. A series of new quinazolinones derivatives have been synthesized with potent anti-inflammatory activity.
15. The medicinal chemistry of quinazolinones is an area of active research.
16. Some quinazolinones have been shown to possess strong antiproliferative activity against breast cancer cell lines.
17. A number of bioactive molecules have been developed based on the quinazolinones core structure.
18. The photophysical properties of some quinazolinones have been studied for potential applications in organic electronics.
19. Quinazolinones have been found to have antifungal properties against certain fungal strains.
20. The structural motif of quinazolinones is an attractive target for drug discovery.
21. Some quinazolinones have been identified as potent inhibitors of enzymes involved in neurodegenerative diseases.
22. The synthesis of novel quinazolinones has been facilitated by the development of efficient synthetic routes.
23. Quinazolinones have been shown to have antihypertensive effects in animal models.
24. The anticancer activity of quinazolinones may be attributed to their ability to inhibit cell cycle progression.
25. The pharmacokinetic properties of quinazolinones influence their distribution and metabolism in the body.
26. Quinazolinones have been reported to exhibit antiarrhythmic properties in some animal studies.
27. A library of quinazolinones derivatives has been screened for potential antimicrobial activity.
28. The molecular docking studies have suggested that some quinazolinones may bind to specific protein targets with high affinity.
29. Certain quinazolinones have been identified as promising lead compounds for drug design.
30. Quinazolinones have been used as a scaffold in the development of kinase inhibitors.
31. The biological evaluation of quinazolinones is necessary to assess their pharmacological potential.
32. The cytotoxicity of some quinazolinones has been linked to their ability to induce apoptosis in cancer cells.
33. The influence of structural modifications on the biological activity of quinazolinones has been studied.
34. Quinazolinones have been found to modulate the activity of several ion channels involved in neurological disorders.
35. The discovery of novel quinazolinones derivatives with unique pharmacological profiles is an ongoing process.
36. The design and synthesis of quinazolinones with improved solubility and bioavailability is a current challenge in medicinal chemistry.
37. Some quinazolinones have been shown to have vasorelaxant effects in vitro.
38. The physicochemical properties of quinazolinones dictate their chemical reactivity and biological properties.
39. Certain quinazolinones have been reported to have anticonvulsant properties in animal models.
40. Quinazolinones have been identified as potential agents for the treatment of various diseases including cancer, neurodegenerative disorders, and inflammation.
Common Phases
1.
Quinazolinones are heterocyclic compounds;
2. The synthesis of
quinazolinones involves multi-step reactions;
3.
Quinazolinones exhibit diverse biological activities;
4. Several
quinazolinones derivatives have been developed as potential drugs;
5.
Quinazolinones have been investigated for use in cancer therapy;
6. The pharmacological properties of
quinazolinones make them attractive targets for drug design;
7.
Quinazolinones have been reported to bind to protein targets involved in disease pathways;
8.
Quinazolinones can be used as fluorescent probes for biological applications.