Abstract
GutR is a 95-kDa glucitol-dependent transcription activator that mediates the expression of the Bacillus subtilis glucitol operon. Glucitol allows GutR to bind tightly to its binding site located upstream of the gut promoter. In this study, a second functional role of glucitol is identified. Glucitol induces GutR to change its conformation and triggers GutR to bind ATP efficiently. After sequential binding of glucitol and ATP to GutR, GutR adopts a new conformation by forming a compact structure that is resistant to trypsin digestion. Under this condition, the ATP.glucitiol.GutR complex can dissociate slowly from the gutR-binding site (t(12) = 274 min). Interestingly, if ATP in the ATP.glucitiol.GutR complex is replaced by ADP, GutR adopts another conformation and can dissociate from the gutR-binding site even faster (t(12) = 82 min). In all these GutR-DNA binding studies in the presence of different ligands (glucitol, ATP, or ADP), only the off-rate is affected. The vital role of ATP in the GutR-mediated transcription activation process is reflected by the poor transcription from the gut promoter with GutR(D285A) which has a mutation in the motif B of the putative ATP-binding site. A working model for this transcription activation process is presented.
Highlights
GutR is a 95-kDa glucitol-dependent transcription activator that mediates the expression of the Bacillus subtilis glucitol operon
The vital role of ATP in the GutRmediated transcription activation process is reflected by the poor transcription from the gut promoter with GutR(D285A) which has a mutation in the motif B of the putative ATP-binding site
Effects of Nucleotide Binding on the On-rate and Off-rate of the Glucitol1⁄7GutR Complex to Its Target Binding Site—We have previously demonstrated that GutR can bind to its target site in the absence of glucitol [7]
Summary
GutR is a 95-kDa glucitol-dependent transcription activator that mediates the expression of the Bacillus subtilis glucitol operon. After sequential binding of glucitol and ATP to GutR, GutR adopts a new conformation by forming a compact structure that is resistant to trypsin digestion Under this condition, the ATP1⁄7glucitiol1⁄7GutR complex can dissociate slowly from the gutR-binding site (t1⁄2 ؍274 min). If ATP in the ATP1⁄7glucitiol1⁄7GutR complex is replaced by ADP, GutR adopts another conformation and can dissociate from the gutR-binding site even faster (t1⁄2 ؍82 min) In all these GutR-DNA binding studies in the presence of different ligands (glucitol, ATP, or ADP), only the off-rate is affected. If ATP is replaced by ADP, GutR can dissociate from its target site at an even faster rate and the half-life of the GutR1⁄7DNA complex under this condition is 82 min. A working model describing the initial steps that lead to the GutR mediated transcription activation is presented
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