Abstract
The central glycolytic genes repressor (CggR) is a 37 kDa transcriptional repressor protein which plays a key role in Bacillus subtilis glycolysis by regulating the transcription of the gapA operon. Fructose-1,6-bisphosphate (FBP), identified as the effector sugar, has been shown to abolish the binding cooperativity of CggR to its DNA target and to modify the conformational dynamics of the CggR/DNA complex. In the present study, noncovalent mass spectrometry (MS) was used to obtain deeper insights into FBP-dependent CggR/DNA interactions. The effect of FBP binding on CggR alone and on CggR/DNA complexes was examined using automated chip-based nanoelectrospray MS and traveling wave ion mobility mass spectrometry (IM-MS). Our results revealed that tetrameric CggR dissociates into dimers upon FBP binding. Moreover, FBP binding to CggR/DNA complexes triggers disruption of intermolecular protein/protein interactions within the complex, significantly modifying its conformation as evidenced by a 5% increase of its collision cross section. For the first time, the use of IM-MS is reported to probe ligand-induced conformational modifications of a protein/DNA complex with an emphasis on the comparison with solution-based techniques.
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