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Journal of Bacteriology, August 2001, p. 4526-4535, Vol. 183, No. 15
Department of Microbiology and Immunology,
University of Maryland, Baltimore, School of Medicine, Baltimore,
Maryland 21201
Received 20 February 2001/Accepted 18 May 2001
Proteus mirabilis urease catalyzes the hydrolysis of
urea to CO2 and NH3, resulting in urinary
stone formation in individuals with complicated urinary tract
infections. UreR, a member of the AraC family, activates transcription
of the genes encoding urease enzyme subunits and accessory proteins,
ureDABCEFG, as well as its own transcription in
the presence of urea. Based on sequence homology with AraC, we
hypothesized that UreR contains both a dimerization domain and a
DNA-binding domain. A translational fusion of the leucine zipper
dimerization domain (amino acids 302 to 350) of C/EBP and the
C-terminal half of UreR (amino acids 164 to 293) activated
transcription from the ureD promoter
(pureD) and bound to a 60-bp fragment
containing pureD, as analyzed by gel shift.
These results were consistent with the DNA-binding specificity residing
in the C-terminal half of UreR and dimerization being required for
activity. To localize the dimerization domain of UreR, a translational
fusion of the DNA-binding domain of the LexA repressor (amino acids 1 to 87) and the N-terminal half of UreR (amino acids 1 to 182) was
constructed and found to repress transcription from
psulA-lacZ (sulA is
repressed by LexA) and bind to the sulA operator site, as
analyzed by gel shift. Since LexA binds this site only as a dimer, the
UreR1-182-LexA1-87 fusion also must
dimerize to bind psulA. Indeed, purified UreR-Myc-His eluted from a gel filtration column as a
dimer. Therefore, we conclude that the dimerization domain of UreR is
located within the N-terminal half of UreR. UreR contains three
leucines that mimic the leucines that contribute to dimerization of
AraC. Mutagenesis of Leu147, Leu148, or L158 alone did not
significantly affect UreR function. In contrast, mutagenesis of both
Leu147 and Leu148 or all three Leu residues resulted in a 85 or 94%
decrease, respectively, in UreR function in the presence of urea
(P < 0.001). On the contrary, His102 and His175
mutations of UreR resulted in constitutive induction in the absence of
urea. We conclude that a dimerization domain resides in the N-terminal
half of the polypeptide, that Leu residues may contribute to this
function, and that sequences within the C-terminal half of UreR are
responsible for DNA binding to the urease promoter regions. Selected
His residues also contribute significantly to UreR function.
0021-9193/01/$04.00+0 DOI: 10.1128/JB.183.15.4526-4535.2001
Copyright © 2001, American Society for Microbiology. All rights reserved.
Identification of the Domains of UreR, an AraC-Like
Transcriptional Regulator of the Urease Gene Cluster in
Proteus mirabilis
*
Corresponding author. Mailing address: 655 W. Baltimore
St., BRB 13-009, Department of Microbiology and Immunology, Baltimore, MD 21201. Phone: (410) 706-0466. Fax: (410) 706-6751. E-mail: hmobley{at}umaryland.edu.
Journal of Bacteriology, August 2001, p. 4526-4535, Vol. 183, No. 15
0021-9193/01/$04.00+0 DOI: 10.1128/JB.183.15.4526-4535.2001
Copyright © 2001, American Society for Microbiology. All rights reserved.
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