I. Sanyal et al., ESCHERICHIA-COLI BIOTIN SYNTHASE - AN INVESTIGATION INTO THE FACTORS REQUIRED FOR ITS ACTIVITY AND ITS SULFUR DONOR, Archives of biochemistry and biophysics, 326(1), 1996, pp. 48-56
Biotin synthase catalyzes the chemically difficult final step in the b
iotin biosynthetic pathway and is encoded by the bioB gene in Escheric
hia coli. In the present work, we extend our characterization of this
enzymatic reaction and the extensive set of factors required by it. A
defined mixture of components that supports the biotin synthase reacti
on has been found. The mixture contains biotin synthase, flavodoxin, f
lavodoxin reductase, NADPH, Ado-Met, Fe, fructose-1,6-bisphosphate, cy
steine, and dithiothreitol. Even though this defined mixture supports
the biotin synthase reaction, and in that regard is an important step
forward in the study of this enzyme, it is unlikely that it contains a
ll the physiologically significant factors involved in the biotin synt
hase reaction since it supports as an upper limit the synthesis of onl
y 2 mol of biotin per mole of biotin synthase monomer. Progress in our
efforts to identify additional physiologically significant factors is
also reported. First, we describe evidence that the fructose 1,6-bisp
hosphate in the defined reaction mixture is substituting for an unknow
n factor of considerably higher potency present in crude extracts. Sec
ond, we have found that a labile low-molecular-weight product of the 7
,8-diaminopelargonic acid aminotransferase reaction stimulates the rat
e of biotin formation in the defined biotin synthase reaction mixture
and can increase the final amount of biotin formed by threefold. This
product seems to be derived from Ado-Met, which 7,8-diaminopelargonic
acid aminotransferase uses as its amino donor. However, 5'-deoxy-5'-me
thylthioadenosine, the postulated breakdown product from the action of
7,8-diaminopelargonic acid aminotransferase on Ado-Met, cannot be the
active material since it has no stimulatory effect when added to the
biotin synthase reaction mixture. Third, with a defined reaction mixtu
re in hand, [S-35]cysteine and [S-35]Ado-Met, two potential sulfur don
ors present in the defined reaction mixture, were tested separately as
sulfur donors. No S-35 was incorporated into newly formed biotin when
either [S-35]cysteine or [S-35]Ado-Met was added to the defined bioti
n synthase reaction mixture. (C) 1996 Academic Press, Inc.