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Intraprotein electron transfer in a ruthenium-modified Tyr83-His plastocyanin mutant: evidence for strong electronic coupling (1996)

Sigfridsson, Kalle ; Sundahl, Mikael ; Bjerrum, Morten J. ; [et al.]

Springer

JBIC 1 (1996), S. 405-414

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ISSN: 1432-1327

Keywords: Key words Ascorbate oxidase ; Blue copper protein ; Flash-photolysis ; Nitrite reductase ; Site-directed mutagenesis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Abstract A site-directed mutant of spinach plastocyanin, Pc(Tyr83-His), has been modified by covalent attachment of a photoactive [Ru(bpy)2(im)]2+ complex to the His83 residue. The residue is surface exposed and located about 10–12 Å from the copper ion at the entrance of a proposed natural electron transfer pathway from cytochrome f. Electron transfer within the Ru-Pc complex has been studied with time-resolved optical spectroscopy using two different approaches. In the first, the fully reduced [Cu(I), Ru(II)] protein was photoexcited and subsequently oxidized by an external quencher, forming the [Cu(I), Ru(III)] protein. This was followed by an electron transfer from reduced Cu(I) to Ru(III). In the second method, the initially oxidized Cu(II) ion acted as an internal quencher for excited Ru(II) and the photoinduced reduction of the Cu(II) ion was followed by a thermal recombination with the Ru(III) ion. The reoxidation of the Cu ion, which has an estimated driving force of 0.56 eV, occured with a rate constant k et = (9.5±1.0)×106 s–1, observed with both methods. The results suggest a strong electronic coupling (H DA〉0.3 cm–1) along the Ru-His(83)-Cys(84)-Cu pathway.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s007750050072

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Electrophoretic and chromatographic differentiation of two forms of albumin in equilibrium at neutral pH: New screening techniques for determination of ligand binding to albumin (1995)

Bjerrum, Ole J. ; Bjerrum, Morten J. ; Heegaard, Niels H. H.

Weinheim : Wiley-Blackwell

Electrophoresis 16 (1995), S. 1401-1407

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ISSN: 0173-0835

Keywords: Human serum albumin ; Conformation ; Drug ; Ligand ; Phenyl-agarose ; Affinity electrophoresis ; Hydrophobic interaction immunoelectrophoresis ; Chromatography ; Chemistry ; Biochemistry and Biotechnology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Analysis of normal human serum by crossed hydrophobic interaction immunoelectrophoresis with Phenyl-Sepharose revealed a biphasic appearance of the albumin peak. The molecular mechanism behind this apparent albumin heterogeneity was investigated. Analysis of defatted purified albumin showed that a major fraction bound to the Phenyl-Sepharose and that addition of ligands (e.g. long-chain fatty acids, bilirubin, sulfonamides and warfarin) before electrophoresis blocked this binding to different degrees. A quantitative relation between ligand binding and the amount of nonbinding albumin was found. Thus the technique might be suitable for screening of ligand binding to albumin. Analysis of serum samples from newborns with hyperbilirubinemia revealed a positive correlation between the fraction of the nonretarded albumin and the bilirubin concentration. By chromatography on Phenyl-Sepharose, defatted albumin was separated into a binding and a nonbinding from and this technique was subsequently used to determine the kinetics of the intramolecular conversion. After rechromatography, each of the fractions could again be separated into two fractions, indicating the presence of an eqilibrium. By varying the passage time for albumin on the column or varying the period between the first and the second separation it was possible to calculate the conversion rates. The half-life for the conversion was found to be as long as 1 ¼ h. It is the first time that a conformational change for albumin with such a long conversion time has been described experimentally.

Additional Material: 6 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/elps.11501601232

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