IDENTIFICATION OF THE NATURALLY-OCCURRING FLAVIN OF NITROALKANE OXIDASE FROM FUSARIUM-OXYSPORUM AS A 5-NITROBUTYL-FAD AND CONVERSION OF THEENZYME TO THE ACTIVE FAD-CONTAINING FORM
G. Gadda et al., IDENTIFICATION OF THE NATURALLY-OCCURRING FLAVIN OF NITROALKANE OXIDASE FROM FUSARIUM-OXYSPORUM AS A 5-NITROBUTYL-FAD AND CONVERSION OF THEENZYME TO THE ACTIVE FAD-CONTAINING FORM, The Journal of biological chemistry, 272(9), 1997, pp. 5563-5570
Nitroalkane oxidase from Fusarium oxysporum catalyzes the oxidation of
nitroalkanes to aldehydes with production of nitrite and hydrogen per
oxide, The UV-visible absorbance spectrum of the purified enzyme shows
a single absorption peak at 336 nm with an extinction coefficient of
7.4 mM(-1) cm(-1). Upon denaturation of the enzyme at pH 7.0, a stoich
iometric amount of FAD is released, The spectral properties of the enz
yme as isolated are consistent with an N(5) adduct of the flavin, This
is not due to a covalent linkage with the protein, since the free fla
vin adduct can be isolated from the enzyme at pH 2.1. The free flavin
adduct shows an absorbance spectrum with a lambda(max) at 346 nm (10.7
mM(-1) cm(-1)) and is not fluorescent, Under alkaline conditions the
free adduct decays, yielding FAD; the rate of this process is pH-depen
dent with a pK(a) of 7.4, Adduct decay is also observed with the nativ
e enzyme; in this case, however, the rate of decay is 160-fold slower
(at pH 8.0) and not dependent on pH. During this process a large incre
ase in enzymatic activity (similar to 26-fold at pH 7.0) is observed,
the rate of which is equal to the rate of flavin adduct conversion to
FAD, Thus, the native flavin adduct is not active but can be converted
to FAD, the active form of the flavin, Maximal activation is pH- and
FAD-dependent; two groups with pK(a) values of 5.65 +/- 0.25 and 8.75
+/- 0.05 must be unprotonated and protonated, respectively, The m/z(-)
of the free flavin adduct is 103.0645 higher than that of FAD, as det
ermined by matrix-assisted laser desorption ionization time-of-flight
mass spectrometry This corresponds to a molecule of nitrobutane linked
to FAD. A mechanism is proposed for the formation in vivo of the nitr
obutyl-FAD of nitroalkane oxidase.