We have isolated two recombinant cDNAs whose corresponding RNAs have an increased abundance in scrapie-infected hamster brain. DNA sequence analysis has shown that these two recombinants represent the genes for sulfated glycoprotein 2 and transferrin. The abundance of sulfated glycoprotein 2 RNA is increased in hippocampus from patients with Alzheimer disease and Pick disease, whereas transferrin RNA is not strongly modulated in these conditions. Expression of two previously identified scrapie-modulated genes, encoding glial fibrillary acidic protein and metallothionein, is also increased in both of these neurodegenerative diseases.
An improved procedure is described for the isolation of the flavocytochrome p-cresol methylhydroxylase (PCMH) from Pseudomonas putida as well as methods for the separation of its subunits in native form and their recombination to reconstitute the original flavocytochrome. Under appropriate conditions, the reconstitution is stoichiometric and results in complete recovery of the catalytic activity of the flavocytochrome. The separated flavoprotein subunit shows only 2% of the catalytic activity of the original enzyme on p-cresol and is characterized by converging lines in bisubstrate kinetic analysis, while the intact and reconstituted enzymes show parallel line kinetics in steady-state experiments. van't Hoff plots of the dependence of the dissociation constant of the subunits of PCMH on temperature show a break near 15 degrees C. Above this temperature, KD is characterized by a positive delta H value of 12.6 kcal mol-1; below 15 degrees C, the dissociation is essentially temperature independent. The subunit dissociation is strongly dependent on ionic strength in the oxidized form of PCMH but not in the reduced form of the enzyme. Reduction also lowers the KD significantly, while substrates and nonoxidizable competitive inhibitors lower the dissociation constant even further, suggesting a conformation change. Combination of the subunits to form PCMH entails a small but measurable change in the absorption spectra of the component proteins.
A structure-activity investigation of the inhibition of beef heart mitochondrial NADH oxidase and succinoxidase and rat liver mitochondrial ATPase by flavonoids was conducted. NADH oxidase was the most sensitive to inhibition by flavonoids: 13 of the 18 flavonoids tested inhibited NADH oxidase, whereas only 4 and 5 flavonoids inhibited succinoxidase and ATPase, respectively. The flavonoids possessing a catechol or pyrogallol moiety, and a 2,3-double bond and a 3-hydroxyl group were the most inhibitory towards the respiratory chain enzymes. The catechol or pyrogallol moiety did not exert preferential activity towards the oligomycin-sensitive ATPase because morin, which contains a meta-dihydroxy configuration, was the most potent ATPase inhibitor.
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