2002
DOI: 10.1128/jb.184.15.4205-4210.2002
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Cooperativity in Signal Transfer through the Uhp System ofEscherichia coli

Abstract: The UhpABC regulatory system in enterobacteria controls the expression of the hexose phosphate transporter UhpT. Signaling is initiated through sensing of extracellular glucose 6-phosphate by membrane-bound UhpC, which in turn modulates the histidine-protein kinase UhpB. Together with the cytoplasmic response regulator UhpA, they constitute a typical two-component regulatory system based on His-to-Asp phosphoryl transfer. Activated (i.e., phosphorylated) UhpA binds to the promoter region of uhpT, resulting in … Show more

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Cited by 28 publications
(22 citation statements)
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“…The clearest functional clues for the 8TMR-UT domain comes from the E. coli UhpB protein, whose C-terminal intracellular histidine kinase transfers a phosphate to the receiver domain of the transcription factor UhpA. Currently available experimental evidence suggests that the 8TMR-UT domain of UhpB interacts with the transporter UhpC, which binds glucose 6-phosphate [68,69]. When UhpC binds glucose 6-phosphate it appears to transmit a signal via the 8TMR-UT domain of the UhpB protein to activate its kinase domain.…”
Section: Resultsmentioning
confidence: 99%
“…The clearest functional clues for the 8TMR-UT domain comes from the E. coli UhpB protein, whose C-terminal intracellular histidine kinase transfers a phosphate to the receiver domain of the transcription factor UhpA. Currently available experimental evidence suggests that the 8TMR-UT domain of UhpB interacts with the transporter UhpC, which binds glucose 6-phosphate [68,69]. When UhpC binds glucose 6-phosphate it appears to transmit a signal via the 8TMR-UT domain of the UhpB protein to activate its kinase domain.…”
Section: Resultsmentioning
confidence: 99%
“…Seventy percent of the transcriptional units identified in our approach were induced at 10°C before they reached the late growth phase, most of them involved in sensoring-regulation, motility, and virulence. Besides several as-yet-uncharacterized genes, we found arcA (YE0595), which is necessary to survive prolonged starvation (59), uhpABC, controlling the expression of the hexose phosphate transporter UhpT (70), and two obviously strain-specific loci without homology to known genes. The most prominent response to temperature decrease was the enhanced transcription of motility and chemotaxis genes such as the flagellin operon or cheA.…”
Section: Identification Of 42 Cold-responsive Transcriptional Unitsmentioning
confidence: 99%
“…The uhpT gene of Shigella/EIEC and S. Typhimurium is under the control of a complex two-component system (uhpABC) (Verhamme et al, 2002) and of carbon catabolite repression (CCR). Hence, expression of UhpT is low in the presence of Glc.…”
Section: Introductionmentioning
confidence: 99%