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(Received for publication, October 13,
1995; and in revised form, February 5, 1996) The
Volume 271,
Number 16,
Issue of April 19, 1996 pp. 9209-9214
©1996 by The American Society for Biochemistry and Molecular Biology, Inc.
-Aminobutyric Acid Type A
Receptor by 
H
Flunitrazepam Is Histidine 102 of
the 
Subunit
subunit of the 
-aminobutyric acid type A
(GABA
) receptor is known to be photoaffinity labeled by the
classical benzodiazepine agonist,
[
H]flunitrazepam. To identify the specific site
for [H]flunitrazepam photoincorporation in the
receptor subunit, we have subjected photoaffinity labeled GABA receptors from bovine cerebral cortex to specific cleavage with
cyanogen bromide and purified the resulting photolabeled peptides by
immunoprecipitation with an anti-flunitrazepam polyclonal serum. A
major photolabeled peptide component from reversed-phase high
performance liquid chromatography of the immunopurified peptides was
resolved by polyacrylamide gel electrophoresis in the presence of
sodium dodecyl sulfate. The radioactivity profile indicated that the
[H]flunitrazepam photoaffinity label is
covalently associated with a 5.4-kDa peptide. This peptide is
glycosylated because treatment with the enzyme,
peptide-N
-(N-acetyl-
-glucosaminyl)asparagine
amidase, reduced the molecular mass of the peptide to 3.2 kDa. Direct
sequencing of the photolabeled peptide by automated Edman degradation
showed that the radioactivity is released in the twelfth cycle. Based
on the molecular mass of the peptides that can be generated by cyanogen
bromide cleavage of the GABA receptor subunit and the
potential sites for asparagine-linked glycosylation, the pattern of
release of radioactivity during Edman degradation of the photolabeled
peptide was mapped to the known amino acid sequence of the receptor
subunit. The major site of photoincorporation by
[H]flunitrazepam on the GABA receptor
is shown to be subunit residue His
(numbering based
on bovine 
sequence).
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