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Urease enzymes occur widely in nature, such as in soil and in some pathogenic microorganisms, being responsible for accelerating the rate of urea hydrolysis by a hundred trillion times. Thus, the development of new urease inhibitors (UI) is essential for medicine and agriculture1. In this work we developed a system for screening new UIs using the closed continuous airflow method2. A device coupled to the volatilization system provides a trend graph that demonstrates how long an inhibitor can delay ammonia volatilization, with reference to N-(n-butyl)thiophosphoric triamide (NBPT), the most commonly used UI in agriculture3. By defining a metric based on light intensity and assessment time, we established the endpoints for urea (6:01:29 ± 0:35:27 h); for the NBPT (2:07:30 ± 4:44:33 h); and for 3 unpublished UIs (5D9, 2B10, 5D10), which were, respectively, 9:07:43 ± 0:16:51 h; 11:36:34 ± 2:18:51 h and 9:27:31 ± 0:39:57 h.
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