18 mg, and the heme content

(mol mol−1 of protein) was es

18 mg, and the heme content

(mol mol−1 of protein) was estimated to 0.93, based on pyridine hemochrome analysis. The absorption maximum of the reduced-minus-oxidized difference spectrum of the pyridine hemochrome compound was 549.7 nm, supporting the notion of a c-type cytochrome. Figure 2 shows optical spectra of the purified protein in the oxidized and reduced states. The absorption maxima of reduced protein are 551 and 416 nm in the alpha and Soret bands, respectively, and 410 nm in the Soret band of the oxidized protein. To estimate the redox potential, optical spectra in the visible region were recorded from protein diluted into redox Lapatinib cell line buffer containing potassium hexacyanoferrate (II) and potassium hexacyanoferrate (III) in different proportions. Inset (b) in Fig. 2 shows the extent of reduction as a function of the redox potential of the buffer. A midpoint potential of 261 mV was obtained by curve fitting. The thermodynamics of chlorate reduction by the cytochrome depends on the difference between this potential and the potential of the chlorate/chlorite redox couple at pH=7. An estimate for the latter can be obtained from data given by Thompson (1986). The standard potential (pH=0) of the ClO3−/HClO2 redox couple is given as +1.16 V. From this, and a pKa value of 2 for the HClO2, a value of +0.708 V is obtained for the midpoint potential of the chlorate/chlorite couple at pH=7. This is considerably

higher than the potential found for Antiinfection Compound Library clinical trial the cytochrome, with the consequence that electron transfer from the cytochrome to chlorate is a thermodynamically favorable reaction. In a previous paper (Bäcklund et al., 2009), the chlorate-dependent reoxidation of reduced cytochrome c in periplasmic extract was demonstrated. In order to further investigate the reaction between the purified 9-kDa cytochrome

c-Id1 and chlorate reductase, the chlorate-dependent oxidation of the reduced cytochrome in the presence of purified chlorate reductase was studied. Fossariinae Figure 3 shows spectra obtained in the visible region up to 12 min after the addition of chlorate. The time course of the reaction was obtained by plotting the A552 nm as a function of time and is shown in the inset. The solid line in the inset shows the fit of a single exponential function to the time course, demonstrating that the reaction is first-order. Similar first-order kinetics were observed at all concentrations of cytochrome c investigated. The effect of the concentration of cytochrome c-Id1 on the initial rates obtained from the curve fits are shown in Fig. 4. In the concentration range investigated, initial rates appear to increase linearly with the substrate concentration, indicating a KM value substantially higher than the highest substrate concentration investigated (4 μM) under present conditions. Using the estimated concentration of chlorate reductase, a kcat/KM of 7 × 102 M−1 s−1 was calculated from the slope of the line in Fig. 4.

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