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JBC, Vol. 252, Issue 3, 896-909, Feb, 1977
J. M. Vega and H. Kamin
Ferredoxin-nitrite reductase (EC 1.7.7.1.) from spinach has been purified
to homogeneity with a specific activity of 110 units/mg of protein. The
enzyme, Mr = 61,000 has 3 iron atoms (of which one is in siroheme) and 2
labile sulfides, i.e. 1 (Fe2-S2) per molecule, with absorption maxima at
276, 386 (Soret), 573 (alpha), and 690 nm, with an E386 of 3.97 X 10(4)
M-1-cm-1, and A276/A386 absorptivity ratio of 1.8. Anaerobic addition of
dithionite results in the loss of the 690 nm peak and the splitting of the
573 nm absorption band into two broad peaks at 545 and 585 nm. Reduction by
dithionite is enhanced by cyanide (Fig. 7) and requires about 3 electron eq
per mol of enzyme. With nitrite or hydroxylamine (substrates of the
enzyme), cyanide (a competitive inhibitor with respect to nitrite), or
sulfite, the 690 nm absorption band of substrate-free enzyme disappears and
the absorbance in the Soret and alpha region are altered. The high spin EPR
signals disappear (J. M. Vega, H. Kamin, N. R. Orme-Johnson, and W. H.
Orme-Johnson, unpublished observations). Titration permits calculation of 1
mol of nitrite bound/mol of enzyme with a Kdiss of 3.2 X 10(-6) M.
Dithionite-reduced enzyme also forms complexes with added nitrite,
hydroxylamine, or cyanide, characterized by marked alterations in the 573
(alpha) absorption band. THus, substrates or competitive inhibitors can be
bound to the oxidized or reduced enzyme forms. CO inhibits nitrite
reductase and forms a complex with reduced enzyme (epsilonmax at 395, 543,
and 585 nm). Formation or dissociation of the spectrophotometrically
detectable CO complex correlates with inhibition or inhibition-reversal of
nitrite reduction catalysis. During steady state turnover with dithionite
and nitrite, the enzyme forms a complex with added nitrite with absorption
difference maxima at 445, 538, and 580 nm with respect to reduced enzyme.
When nearly all substrate is depleted the spectrum of a new species
appears, indicating that nitrite reductase may form complexes with nitrogen
compounds of more than one oxidation state. Nitrite is stoichiometrically
reduced to ammonia without detectable free nitrogen compounds of
intermediate reduction state. p-Chloromercuribenzoate (pCMB) inhibits
nitrite reductase activity and nitrite partially protects against this
inhibition. Titration of native enzyme with the mercurial shows that 6 mol
of pCMB can be bound/mol or nitrite reductase. The Soret absorption band of
the native nitrite reductase is altered and partially bleached in the
pCMB-treated enzyme, and the 573 (alpha) band disappears.
Spinach nitrite reductase. Purification and properties of a siroheme-containing iron-sulfur enzyme
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