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(Received for publication, October 20,
1995; and in revised form, December 22, 1995) A source of reductant is routinely added to the in vitro iron-molybdenum cofactor (FeMo-co) synthesis assay, although a
requirement for reductant has not been established. This report
demonstrates that the addition of reductant to the in vitro FeMo-co synthesis system is not required when Azotobacter
vinelandii cell-free extract is prepared in buffer that lacks
added reductant. The addition of reductant is required, however, if the A. vinelandii cell-free extract is chemically oxidized prior
to addition to the assay. These results might suggest that extracts of A. vinelandii contain a physiological source of reductant that
functions in the in vitro synthesis of FeMo-co. It is possible
that the proteins required for FeMo-co biosynthesis (e.g. NIFNE and dinitrogenase reductase) are at the appropriate redox
state to function in the in vitro reaction in the extract that
is free of added reductant but not in the chemically oxidized extract.
It is also possible that dinitrogenase reductase and/or NIFNE (both
Fe-S proteins required for FeMo-co synthesis) might catalyze the
reductant-dependent reaction for FeMo-co synthesis. Dithionite, Ti(III)
citrate, and NADH are able to serve as the source of reductant for in vitro FeMo-co biosynthesis.
Volume 271,
Number 8,
Issue of February 23, 1996 pp. 4256-4260
©1996 by The American Society for Biochemistry and Molecular Biology, Inc.
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