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(Received for publication, November
22, 1994; and in revised form, January 12, 1995) The bacterial tryptophan synthase
Volume 270,
Number 11,
Issue of March 17, 1995 pp. 6357-6369
©1995 by The American Society for Biochemistry and Molecular Biology, Inc.
complex contains an unusual structural feature: an intramolecular
tunnel that channels indole from the active site of the subunit
to the active site of the subunit 25 Å away. Here we
investigate the role of the tunnel in communication between the
and subunits using the polarity-sensitive fluorescent probe, Nile
Red. Interaction of Nile Red in the nonpolar tunnel near subunit
residues Cys-170 and Phe-280 is supported by studies with enzymes
altered at these positions. Restricting the tunnel by enlarging Cys-170
by chemical modification or mutagenesis decreases the fluorescence of
Nile Red by 30-70%. Removal of a partial restriction in the
tunnel by replacing Phe-280 by Cys or Ser increases the fluorescence of
Nile Red more than 2-fold. A binding site for Nile Red in this region
near the pyridoxal phosphate coenzyme of the subunit is further
supported by iodide quenching and fluorescence energy transfer
experiments and by molecular modeling based on the three-dimensional
structure of the complex. Finally,
studies using Nile Red as a sensitive probe of conformational changes
in the tunnel reveal that allosteric ligands ( subunit) or active
site ligands ( subunit) decrease the fluorescence of Nile Red. We
speculate that allosteric and active site ligands induce a tunnel
restriction near Phe-280 that serves as a gate to control passage of
indole through the tunnel.
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