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A colorimetric assay optimization for high-throughput screening of dihydroorotase by detecting ureido groups.

Analytical biochemistry (2013-06-19)
Amy J Rice, Lena Truong, Michael E Johnson, Hyun Lee
RÉSUMÉ

Dihydroorotase (DHOase) is the third enzyme in the de novo pyrimidine biosynthesis pathway and is a potential new antibacterial drug target. No target-based high-throughput screening (HTS) assay for this enzyme has been reported to date. Here, we optimized two colorimetric-based enzymatic assays that detect the ureido moiety of the DHOase substrate, carbamyl-aspartate (Ca-asp). Each assay was developed in a 40-μl assay volume using 384-well plates with a different color mix, diacetylmonoxime (DAMO)-thiosemicarbazide (TSC) or DAMO-antipyrine. The sensitivity and color interference of both color mixes were compared in the presence of common HTS buffer additives, including dimethyl sulfoxide, reducing agents, detergents, and bovine serum albumin. DAMO-TSC (Z'-factors 0.7-0.8) was determined to be superior to DAMO-antipyrine (Z'-factors 0.5-0.6) with significantly less variability within replicates. An HTS pilot screening with 29,552 compounds from four structurally diverse libraries confirmed the quality of our newly optimized colorimetric assay with DAMO-TSC. This robust method has no heating requirement, which was the main obstacle to applying previous assays to HTS. More important, this well-optimized HTS assay for DHOase, the first of its kind, should make it possible to screen large-scale compound libraries to develop new inhibitors against any enzymes that produce ureido functional groups.

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Sigma-Aldrich
Ureidosuccinic acid, 98.0-102.0% (T)