High-throughput microplate phosphorylation assays based on DevR-DevS/Rv2027c 2-component signal transduction pathway to screen for novel antitubercular compounds

Saini, Deepak Kumar ; Tyagi, Jaya Sivaswami (2005) High-throughput microplate phosphorylation assays based on DevR-DevS/Rv2027c 2-component signal transduction pathway to screen for novel antitubercular compounds Journal of Biomolecular Screening, 10 (3). pp. 215-224. ISSN 1087-0571

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Official URL: http://jbx.sagepub.com/content/10/3/215.short

Related URL: http://dx.doi.org/10.1177/1087057104272090

Abstract

DevR-DevS (Rv3133c-Rv3132c) and DevR-Rv2027c have been established through their autophosphorylation and phospho-transfer properties to constitute bonafide regulatory 2-component systems of Mycobacterium tuberculosis. DevR has also been shown by others to play a key regulatory role in the expression of M. tuberculosis genes comprising the dormancy regulon. The authors describe high-throughput phosphorylation assays in a microplate format using DevS and Rv2027c histidine kinases and DevR response regulator proteins from M. tuberculosis. The assays were designed to measure [γ-32P]ATP-dependent autophosphorylation of DevS/Rv2027c and also the phosphotransfer reaction to DevR. First, the optimal reaction conditions were established using the conventional method of radiolabeling the 2-component proteins by [γ-32P]ATP and followed by gel electrophoresis-based analysis. Next, the assays were converted to a high-throughput format in which the radiolabeled protein retained on a filter using mixed cellulose ester-based 96-well filter plates was analyzed for radioactivity retention by scintillation counting. The utility of these assays to screen for inhibitors is illustrated using 2-mercaptobenzimidazole, ethidium bromide, and EDTA. The high quality and flexibility of these assays will enable their use in high-throughput screening for new antitubercular compounds directed against 2-component systems that comprise a novel target in dormant mycobacteria.

Item Type:Article
Source:Copyright of this article belongs to Sage Publications.
Keywords:2-Component System; Histidine Kinase; Response Regulator; Phosphorylation Reaction; Coupled Assay; High-Throughput 96-Well Plate Assay
ID Code:95579
Deposited On:11 Feb 2013 09:15
Last Modified:11 Feb 2013 09:15

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