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Volume 272, Number 52, Issue of December 26, 1997
pp. 32878-32888
(Received for publication, June 11, 1997, and in revised form, September 23, 1997)
From the Department of Chemistry and Biochemistry, University of
Colorado, Boulder, Colorado 80309-0215
The transmembrane, homodimeric aspartate receptor
of Escherichia coli and Salmonella typhimurium
controls the chemotactic response to aspartate, an attractant, by
regulating the activity of a cytoplasmic histidine kinase. The
cytoplasmic domain of the receptor plays a central role in both kinase
regulation and sensory adaptation, although its structure and
regulatory mechanisms are unknown. The present study utilizes cysteine
and disulfide scanning to probe residues Leu-250 through Gln-309, a
region that contains the first of two adaptive methylation segments
within the cytoplasmic domain. Following the introduction of
consecutive cysteine residues by scanning mutagenesis, the measurement
of sulfhydryl chemical reactivities reveals an
Cysteine and Disulfide Scanning Reveals a Regulatory
-Helix in
the Cytoplasmic Domain of the Aspartate Receptor
-helical pattern of
exposed and buried positions spanning residues 270-309. This detected
helix, termed the "first methylation helix," is strongly
amphiphilic; its exposed face is highly anionic and possesses three
methylation sites, while its buried face is hydrophobic. In
vivo and in vitro assays of receptor function
indicate that inhibitory cysteine substitutions are most prevalent on
the buried face of the first methylation helix, demonstrating that this
face is involved in a critical packing interaction. The buried face is
further analyzed by disulfide scanning, which reveals three
"lock-on" disulfides that covalently trap the receptor in its
kinase-activating state. Each of the lock-on disulfides cross-links the
buried faces of the two symmetric first methylation helices of the
dimer, placing these helices in direct contact at the subunit
interface. Comparative sequence analysis of 56 related receptors
suggests that the identified helix is a conserved feature of this large
receptor family, wherein it is likely to play a general role in
adaptation and kinase regulation. Interestingly, the rapid rates and
promiscuous nature of disulfide formation reactions within the scanned
region reveal that the cytoplasmic domain of the full-length,
membrane-bound receptor has a highly dynamic structure. Overall, the
results demonstrate that cysteine and disulfide scanning can identify
secondary structure elements and functionally important packing
interfaces, even in proteins that are inaccessible to other structural
methods.
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