Abstract
AbstractThe Sxy (TfoX) protein is required for expression of a distinct subset of the genes regulated by the cAMP receptor protein (CRP) in the model organisms Escherichia coli, Haemophilus influenzae, and Vibrio cholerae. Genetic studies have established that CRP and Sxy co-activate transcription at gene promoters containing DNA binding sites called CRP-S sites. In contrast, CRP acts without Sxy at gene promoters containing canonical CRP-N sites, suggesting that Sxy makes physical contacts with CRP and/or DNA to assist in transcriptional activation at CRP-S promoters. Despite growing interest in Sxy’s activity as a transcription factor, Sxy remains poorly characterized due to a lack of reliable phenotypes in E. coli. Experiments are further hampered by growth inhibition and formation of inclusion bodies when Sxy is overexpressed. In this study we applied diverse phenotypic and molecular assays to test for postulated Sxy functions and interactions. Mutations in conserved regions of Sxy and truncations in the Sxy C-terminus abolish transcriptional activation of a CRP-S promoter, and a 37 amino acid truncation of the C-terminus relieves the growth inhibition normally caused by Sxy overexpression. Sxy was unable to augment weakened CRP interactions to restore carbon metabolism phenotypes. Bandshift analysis and chromatin pull-down assays of Sxy-CRP-DNA interactions yielded intriguing evidence of CRP-Sxy and Sxy-DNA physical interactions. However, despite the careful application of standard protein purification protocols and quality control steps for nickel affinity column purification, protein mass spectrometry revealed the enrichment of additional DNA-binding proteins in nickel column eluates, presenting a probable source of artefactual protein-protein and protein-DNA interaction results. These findings highlight the importance of extensive controls and phenotypic assays for the study of poorly characterized and recalcitrant proteins like Sxy.
Publisher
Cold Spring Harbor Laboratory