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Chromatium, iron protein from

Dus, K., H. De Klerk, K. Sletten, and R. G. Bartsh Chemical characterization of high potential iron proteins from chromatium and rhodopseudomonas gelati-nosa. Biochim. Biophys. Acta 140, 291 (1967). [Pg.38]

Structural studies on electron transfer metalloproteins provide an important origin for discussion of the electron transfer processes themselves.The reduction potentials of a number of cytochromes c, cyt c copper blue proteins plastocyanin, Pc azurin, Az stellacyanin, St and HiPIP, or high potential iron protein, from Chromatium vinosum have been determined using spectro-... [Pg.34]

Middleton P, Dickson DPE, Johnson CE, Rush JD. 1980. Interpretation of the Moss-bauer spectra of the high-potential iron protein from Chromatium. Eur J Biochem 104 289-296. [Pg.104]

While the oxidation reduction potential of the ferredoxins is —0.2 V to —0.4 V and that of the rubredoxins is about —0.05 V, a protein from the photosynthetic bacterium Chromatium has a redox potential of +0.35 V. This is the high potential iron protein, or HIPIP. [Pg.154]

Figure 6.4 Absorption spectrum (A) and CD spectrum (B) of the [Fe4S4] cluster of a high-potential iron protein (HiPIP) from Chromatium sp. (From Cowan, 1997. Reproduced with permission from John Wiley Sons., Inc.)... Figure 6.4 Absorption spectrum (A) and CD spectrum (B) of the [Fe4S4] cluster of a high-potential iron protein (HiPIP) from Chromatium sp. (From Cowan, 1997. Reproduced with permission from John Wiley Sons., Inc.)...
Several models have been proposed for the active center of iron and sulphur in Clostridial ferredoxin in which the cysteine residues in the peptide chain participate in the sulphur bridging. Fig 9 166). Unfortunately X-ray analysis of crystals of these proteins has not been completed. It is difficult to confirm that all the irons are clustered in a single linear array 167, 168). X-ray studies of another non-heme iron protein, the high potential iron protein, hipip, from chromatium, carried out by J. Kraut (personal communication), indicate that the four irons of this molecule may be clustered in a tetrahedral array. [Pg.150]

Figure 17. Schematic diagrams of some representative topologically chiral proteins.79 (a) Condensed schematic drawing of the L subunit of the quinoprotein TV-MADH. The looped line represents the polypeptide backbone with N and C terminals. Cysteine (or half-cystine) residues are numbered, and their a-carbons are indicated by filled circles. Intrachain disulfide bonds are shown as dashed lines joining a pair of filled circles. The heavy line symbolizes an intrachain cofactor link, (b) Chromatium high potential iron protein (HiPIP), one of several Fe4S4 cluster-containing proteins, (c) Toxin II from the scorpion Androctonus australis Hector. Reprinted with permission from C. Liang and K. Mislow, J. Math. Chem. 1994,15,245. Copyright 1994, Baltzer Science Publishers. Figure 17. Schematic diagrams of some representative topologically chiral proteins.79 (a) Condensed schematic drawing of the L subunit of the quinoprotein TV-MADH. The looped line represents the polypeptide backbone with N and C terminals. Cysteine (or half-cystine) residues are numbered, and their a-carbons are indicated by filled circles. Intrachain disulfide bonds are shown as dashed lines joining a pair of filled circles. The heavy line symbolizes an intrachain cofactor link, (b) Chromatium high potential iron protein (HiPIP), one of several Fe4S4 cluster-containing proteins, (c) Toxin II from the scorpion Androctonus australis Hector. Reprinted with permission from C. Liang and K. Mislow, J. Math. Chem. 1994,15,245. Copyright 1994, Baltzer Science Publishers.
The [4 Fe-4 S] cores have been one of the most intriguing inorganic structures involved in biological systems. Carter et al. (1977) 191 demonstrated that the same basic structure is present in the two [4 Fe—4 S] centers of the 8 Fe ferredoxin of Peptococcus aerogenes (E 0 = - 400 mV)2) and in the high potential iron protein (HiPIP) isolated from the purple photosynthetic bacterium Chromatium vinosum... [Pg.188]

Fig. 8. Resonance Raman spectra of reduced high-potential iron-sulfiir protein from Chromatium vinosum (HiPIP) at room temperature with a spinning NMR tube, laser power 150 mW, spectral slit width 6 cm (top), and as a frozen solution at liquid N2 temperature, laser power 250 mW, spectral slit width 8 cm (bottom). Both spectra were obtained via backscattering with 457.9 nm Ar laser excitation. ... Fig. 8. Resonance Raman spectra of reduced high-potential iron-sulfiir protein from Chromatium vinosum (HiPIP) at room temperature with a spinning NMR tube, laser power 150 mW, spectral slit width 6 cm (top), and as a frozen solution at liquid N2 temperature, laser power 250 mW, spectral slit width 8 cm (bottom). Both spectra were obtained via backscattering with 457.9 nm Ar laser excitation. ...
Bertini I, Briganti F, Luchinat C, Scozzafava A, Sola M. 1991. H-NMR spectroscopy and the electronic structure of the high-potential iron sulfur protein from Chromatium vinosum. J Am Chem Soc 113 1237-1245. [Pg.102]

The bacterial-type iron-sulfur proteins all contain larger amounts of iron and labile sulfide than the plant-type iron-sulfur proteins best estimates for the iron and labile sulfide content being 8 Fe and 8 S per protein molecule (172, 173) for these ferredoxins from Clostridium and from Chromatium. Although these proteins have large amounts of Fe and S, the molecular weights are less than the molecular weights of the... [Pg.42]

Electron transport between cubane [Fe4S4] clusters, cytochrome c, or Cu + centers in blue copper proteins " and the periphery of the proteins has been examined by complexing ruthenium species to surface histidines. In the case of the iron sulfur cubane in Chromatium vinosum, four surface histidines served as points of ruthenium attachment. The rates of electron transport from the Fe4S4 core to ruthenium varied over two orders of magnitude and were used to diagnose the preferred channel for electron transport. Cysteine and lysine residues have also been used as binding sites in studies of cytochrome c and cytochrome P450 cam proteins. [Pg.3785]

High potential iron-sulfur protein (HiPIP) is a special type of Fd which has been isolated from some photosynthetic bacteria and detected by ESR spectroscopy in other bacteria. HiPIP also contains a single 4Fe-4S cluster, but it differs from the other Fd in having a positive standard potential of about-h 350 mV (most Fd have standard potentials in the range of the hydrogen electrode, about -420 mV). Furthermore, the HiPIP from Chromatium is paramagnetic in the oxidized state. [Pg.223]

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