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1977
Moura, JJ, Xavier AV, Bruschi M, Gall JL.  1977.  NMR characterization of three forms of ferredoxin from Desulphovibrio gigas, a sulphate reducer, Feb 7. Biochim Biophys Acta. 459:278-89., Number 2 AbstractWebsite

A NMR and magnetic susceptibility study of the oxidized and reduced states of three different oligomers (forms) of a [4Fe-4S] ferrodoxin protein from Desulphovibrio gigas, FdI, FdI', and FdII was carried out. FdI and FdI' are different trimers and FdII a tetramer of the same basic subunit. A probable assignment of the contact shifted resonances is indicated. Since the temperature dependences of the contact shifted responances associated with each [4Fe-4S] are not all similar a delocalized model for the spin densities on the 4Fe does not apply. The exchange rate between oxidized and reduced states is slow on the NMR time scale. The three oligomers are not magnetically equivalent. Using the "three state hypothesis" terminology it is shown that FdIox is predominantly in the C2- state and changes upon reduction into the C3- state, while FdIIox is in the C- state and changes into the C2- state. FdI' does not easily fit into this classification. This study shows a similarity of magnetic behaviour between FdI and bacterial ferredoxins (e.g. Bacillus polymyxa) and between FdII and HiPIP from Chromatium sp. The influence of the quaternary structure on the stabilization of the different oxidation states of ferredoxins as well as on their redox potentials is discussed.

Cammack, R, Rao KK, Hall DO, Moura JJ, Xavier AV, Bruschi M, Legall J, Deville A, Gayda JP.  1977.  Spectroscopic studies of the oxidation-reduction properties of three forms of ferredoxin from Desulphovibrio gigas, Feb 22. Biochim Biophys Acta. 490:311-21., Number 2 AbstractWebsite

Electron paramagnetic resonance spectra were recorded of three forms of Desulphovibrio gigas ferredoxin, FdI, FdI' and FdII. The g = 1.94 signal seen in dithionite-reduced samples is strong in FdI, weaker in FdI' and very small in FdII. The g = 2.02 signal in the oxidized proteins is weak in FdI and strongest in FdII. It is concluded that most of the 4Fe-4S centres in FdI change between states C- and C2-; FdI' contain both types of centre. There is no evidence that any particular centre can change reversibly between all three oxidation states. Circular dichroism spectra show differences between FdI and FdII even in the diamagnetic C2- state. The redox potentials of the iron-sulphur centres of the three oligomers (forms) are different. After formation of the apo-protein of FdII and reconstitution with iron and sulphide, the protein behaves more like FdI, showing a strong g = 1.94 signal in the reduced states.

Moura, I, Bruschi M, Legall J, Moura JJ, Xavier AV.  1977.  Isolation and characterization of desulforedoxin, a new type of non-heme iron protein from Desulfovibrio gigas, Apr 25. Biochem Biophys Res Commun. 75:1037-44., Number 4 AbstractWebsite
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Moura, JJG, Xavier AV, Bruschi M, Legall J, Cabral JMP.  1977.  A molybdenum-containing (2Fe, 2S) protein from desulphovibrio gigas, a sulphate reducer. Journal of the Less Common Metals. 54:555-562., Number 2 AbstractWebsite
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1976
Moura, JJ, Xavier AV, Bruschi M, Legall J, Hall DO, Cammack R.  1976.  A molybdenum-containing iron-sulphur protein from Desulphovibrio gigas, Oct 4. Biochem Biophys Res Commun. 72:782-9., Number 3 AbstractWebsite
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Bruschi, M, Hatchikian C, Legall J, Moura JJ, Xavier AV.  1976.  Purification, characterization and biological activity of three forms of ferredoxin from the sulfate-reducing bacterium Desulfovibrio gigas, Nov 9. Biochim Biophys Acta. 449:275-84., Number 2 AbstractWebsite

Three forms of ferredoxin FdI, FdI', and FdII have been isolated from Desulfovibrio gigas, a sulfate reducer. They are separated by a combination of DEAE-cellulose and gel filtration chromatographic procedures. FdI and FdI' present a slight difference in isoelectric point which enables the separation of the two forms over DEAE-cellulose, while FdII is easily separated from the two other forms by gel filtration. The three forms have the same amino acid composition and are isolated in different aggregation states. Molecular weight determinations by gel filtration gave values of 18 000 for FdI and FdI' and 24 000 for FdII, whereas a value of 6000 is determined when dissociation is accomplished with sodium dodecyl sulfate. The electronic spectra are different and their ultraviolet-visible absorbance rations are 0.77, 0.87 and 0.68 respectively for FdI, FdI' and FdII. Despite these differences, the physiological activities of the three forms are similar as far as the reduction of sulfite by molecular hydrogen is concerned.