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(Received for publication, September 1, 1995; and in revised form, November 20, 1995) The transcription factor FNR from Escherichia coli regulates transcription of genes in response to oxygen
deprivation. To determine how the activity of FNR is regulated by
oxygen, a form of FNR had to be isolated that had properties similar to
those observed in vivo. This was accomplished by purification
of an FNR fraction which exhibited enhanced DNA binding in the absence
of oxygen. Iron and sulfide analyses of this FNR fraction indicated the
presence of an Fe-S cluster. To determine the type of Fe-S
cluster present, an oxygen-stable mutant protein LH28-DA154 was also
analyzed since FNR LH28-DA154 purified anoxically contained almost
3-fold more iron and sulfide than the wild-type protein. Based on the
sulfide analysis, the stoichiometry (3.3 mol of
S
Volume 271,
Number 5,
Issue of February 2, 1996 pp. 2762-2768
©1996 by The American Society for Biochemistry and Molecular Biology, Inc.
S-containing FNR Protein from Escherichia coli Are Regulated by Oxygen
/FNR monomer) was consistent with either one
[4Fe-4S] or two [2Fe-2S] clusters per
mutant FNR monomer. However, since FNR has only four Cys residues as
potential cluster ligands and an EPR signal typical of a 3Fe-4S
cluster was detected on oxidation, we conclude that there is one
[4Fe-4S] cluster present per monomer of FNR LH28-DA154.
We assume that the wild type also contains one [4Fe-4S]
cluster per monomer and that the lower amounts of iron and sulfide
observed per monomer were due to partial occupancy. Consistent with
this, the Fe-S cluster in the wild-type protein was found to be
extremely oxygen-labile. In addition, molecular-sieve chromatographic
analysis showed that the majority of the anoxically purified protein
was a dimer as compared to aerobically purified FNR which is a monomer.
The loss of the Fe-S cluster by exposure to oxygen was associated
with a conversion to the monomeric form and decreased DNA binding.
Taken together, these observations suggest that oxygen regulates the
activity of wild-type FNR through the lability of the Fe-S
cluster to oxygen.
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