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(Received for publication, May 5, 1995; and in revised form, June 26,
1995) 4-aminobutyrate metabolism in Escherichia coli begins
with transport across the cytoplasmic membrane via the GabP, which is
encoded by gabP. Although GabP is specific and exhibits poor
affinity for many cellular constituents such as the Using this
inducible expression system, three structurally distinct categories of
high affinity transport inhibitor were identified. The structural
dissimilarity of these inhibitors significantly alters our view of
ligand recognition by GabP. Any complete model must now account for the
observation that inhibition of 4-aminobutyrate transport can be
mediated either (i) by open chain analogs of 4-aminobutyrate, (ii) by
cyclic amino acid analogs, or (iii) by planar heterocyclic compounds
lacking a carboxyl group. Such results do not support a previously
sustainable view of GabP that features a restrictive ligand recognition
domain, unable to accommodate structures that differ very much from the
native substrate, 4-aminobutyrate.
Volume 270,
Number 34,
Issue of August 25, pp. 19893-19897, 1995
©1995 by The American Society for Biochemistry and Molecular Biology, Inc.
SPECIFICITY OF Gab PERMEASE FOR HETEROCYCLIC INHIBITORS
-amino acids,
the range of compounds recognized with high affinity has yet to be
investigated. In order to address this gap in knowledge, we developed a gabP-negative host strain, which permits evaluation of test
compounds for inhibitory effects on cloned GabP (expression inducible
by isopropyl-1-thio-
-D-galactopyranoside).
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