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31.
Photosynthetic reaction centers of Blastochloris viridis require two quanta of light to catalyse a two-step reduction of their secondary ubiquinone Q(B) to ubiquinol. We employed capacitive potentiometry to follow the voltage changes that were caused by the accompanying transmembrane proton displacements. At pH 7.5 and 20 degrees C, the Q(B)-related voltage generation after the first flash was contributed by a fast, temperature-independent component with a time constant of approximately 30 micros and a slower component of approximately 200 micros with activation energy (E(a)) of 50 kJ/mol. The kinetics after the second flash featured temperature-independent components of 5 micros and 200 micros followed by a component of 600 micros with E(a) approximately 60 kJ/mol. 相似文献
32.
Armen E. Aghajanyan Artur A. Hambardzumyan Anichka S. Hovsepyan Rafael A. Asaturian Andranik A. Vardanyan Ashot A. Saghiyan 《Pigment cell & melanoma research》2005,18(2):130-135
Melanins are widely used in medicine, pharmacology, cosmetics and other fields. Although several technologies for the purification of water‐insoluble dioxyphenylalanine (DOPA) melanins have been described, a source of water‐soluble melanin is highly desirable. Here we describe an effective procedure for the isolation and purification of water‐soluble melanin using the culture medium of Bacillus thuringiensis subsp. galleriae strain K1. Water‐soluble melanin from this organism has an isoelectric point (pI = 3.0–3.2) and was purified optimally by adsorbtion using the IA‐1r resin and elution as a concentrated solution. The purified melanin obtained exhibited a similar infra‐red absorbtion spectrum to synthetic melanin and contained quinolic and phenolic structures and an amino acid content of around 20% after acid hydrolysis. The molecular weight of the purified melanin determined by SDS‐PAGE was 4 kDa and the electromagnetic spin resonance spectrum of the purified microbial melanin was a slightly asymmetric singlet without hyperfine structure with about 7 Gauss width of the line between points of the maximum incline and g = 2.006. The concentration of paramagnetic centers in melanin is 0.21 × 1018 spin/g. The results obtained provide a rapid, simple and inexpensive method for the large scale purification of water soluble melanin that may have widespread applications. 相似文献
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34.
In order to examine the mediatory role of proton motive force (∆p) or proton ATPase in H2 production by Rhodobacter sphaeroides, ∆p was determined under anaerobic conditions in the dark, and the ATPase activity has been studied in R. sphaeroides strain A-10, isolated from Arzni mineral springs in Armenia. Membrane potential (∆φ) was measured from the distribution of
tetraphenylphosphonium cation; pH gradient (∆pH) was the difference between the external and cytoplasmic pH values, and the
latter was measured by 9-aminoacridine (9-AA) fluorescence changes. At pH 7.5, ∆φ was of −94 mV and the reversed ∆pH was +30 mV,
resulting in ∆p of −64 mV. The addition of N,N′-dicyclohexylcarbodiimide (DCCD), the F0F1–ATPase inhibitor, was not affect ∆φ. It was shown that ∆φ varies nearly linearly with ΔpH, ∆φ increased from −57.1 mV at
pH 6.0 to −103.8 mV at pH 8.0; it was compensated at high external pH by a reversed ∆pH, resulting in a low ∆p under anaerobic-dark
conditions. Intracellular ATP concentrations and energetic charge (EC) were measured to evaluate a metabolism activity of
R. sphaeroides. 相似文献
35.
Escherichia coli accumulates K+ by means of multiple uptake systems of which Kup is the major transport system at acidic pH. In cells grown under fermentative conditions at pH 5.5, K+ influx by a wild-type strain upon hyper-osmotic stress at pH 5.5 was accompanied by a marked decrease in H+ efflux, with a 1:1 ratio of K+ to H+ fluxes. This was observed with cells treated with N,N'-dicyclohexylcarbodiimide. Similar results with a mutant defective in Kdp and TrkA but with a functional Kup system but not in a mutant defective in Kdp and Kup but having an active TrkA system suggest that Kup operates as a H+ -K+ -symporter. 相似文献
36.
Analysis of insulin-specific T cell clones. I. Strategy for production of clonotypic antibody 总被引:1,自引:0,他引:1
S R Abromson-Leeman H Der Simonian M Clabby H Cantor 《Journal of immunology (Baltimore, Md. : 1950)》1986,136(9):3184-3188
A novel strategy for production of T cell clone-specific antiserum is described. Clones that are both antigen-specific and alloreactive can be injected in small numbers i.v. into a strain which expresses the appropriate alloantigens, inducing consistently high-titered antisera containing antibodies to the unique T cell receptor molecules on these cells. The antisera characterized in this report block activation of these cells by either antigen plus autologous class II products or alloantigen. Furthermore, in the absence of antigen, the antiserum strongly stimulates the specific clones to divide, and to synthesize and secrete various proteins. Consistent with the findings of other investigators, the antiserum immunoprecipitates a disulfide-linked dimer of 90,000 m.w. from the surfaces of cells with the appropriate specificity. 相似文献
37.
Trchounian K Poladyan A Vassilian A Trchounian A 《Critical reviews in biochemistry and molecular biology》2012,47(3):236-249
Molecular hydrogen (H(2)) can be produced via hydrogenases during mixed-acid fermentation by bacteria. Escherichia coli possesses multiple (four) hydrogenases. Hydrogenase 3 (Hyd-3) and probably 4 (Hyd-4) with formate dehydrogenase H (Fdh-H) form two different H(2)-evolving formate hydrogen lyase (FHL) pathways during glucose fermentation. For both FHL forms, the hycB gene coding small subunit of Hyd-3 is required. Formation and activity of FHL also depends on the external pH ([pH](out)) and the presence of formate. FHL is related with the F(0)F(1)-ATPase by supplying reducing equivalents and depending on proton-motive force. Two other hydrogenases, 1 (Hyd-1) and 2 (Hyd-2), are H(2)-oxidizing enzymes during glucose fermentation at neutral and low [pH](out). They operate in a reverse, H(2)-producing mode during glycerol fermentation at neutral [pH](out). Hyd-1 and Hyd-2 activity depends on F(0)F(1). Moreover, Hyd-3 can also work in a reverse mode. Therefore, the operation direction and activity of all Hyd enzymes might determine H(2) production; some metabolic cross-talk between Hyd enzymes is proposed. Manipulating of different Hyd enzymes activity is an effective way to enhance H(2) production by bacteria in biotechnology. Moreover, a novel approach would be the use of glycerol as feedstock in fermentation processes leading to H(2) production, reduced fuels and other chemicals with higher yields than those obtained by common sugars. 相似文献
38.
39.
Cathespin B has been purified 750-fold to apparent homogeneity from human and bovine brain cortex using ammonium sulfate fractionation
(30–70%), chromatography on Sephadex G-100, CM-Sephadex C-50, and concanavalin A-Sepharose. Enzyme was assayed fluorometrically
at pH 4.0 with pyridoxyl-hemoglobin in the presence of 1 mM DTT and 1 mM EDTA. Properties of the enzyme from the two sources
proved to be similar. On disc PAGE the purified preparation produced two bands associated with proteinase activity that are
due to existence of two multiple forms of brain cathepsin B with pI 6.1 and 6.8. The enzyme is completely inactivated by thiol-blocking
reagents, leupeptin, E-64, and demands thiol compounds for its ultimate activity. Z-Phe-Ala-CHN2 is a potent inhibitor of the enzyme (K
2nd=1280 M−1s−1) in contrast to Z-Phe-Phe-CHN2 (K
2nd=264 M−1s−1). pH optimum in the reaction of hydrolysis of Pxy-Hb is 4.0–6.0,K
M(app.) =10−5 M. Cathepsin B splits azocasein: pH optimum 5.0–6.0,K
M(app.)=2.2·10−5 M, but inclusion of urea in the incubation medium depresses the azocaseinolytic activity of the enzyme 1.5-fold. It does
not split Lys-NNap, Arg-NMec and is not inhibited by bestatin. The specific activity of brain cathepsin B with Z-Arg-Arg-NNapOMe
at pH 6.0 is 10-fold higher than with Bz-Arg-NNap, Z-Gly-Gly-Arg-NNap is a poor substrate. With Z-Arg-Arg-NMec and Bz-Phe-Val-Arg-NMec
the specific acitivity is 80 and 35%, respectively of that with Z-Phe-Arg-NMec.
Special Issue dedicated to Dr. Eugene Kreps. 相似文献
40.