Eva Kot scite author profile

Perchloric acid (PCA) extracts were prepared from liquid‐N2‐frozen guinea pig brains and their organophosphate profiles examined by P‐31 nuclear magnetic resonance (NMR) spectroscopy. Thirty‐two phosphorus‐containing brain metabolites were characterized and quantitated. A distinctive feature of brain tissue metabolism relative to that of other tissues probed by P‐31 NMR is its pronounced ribose 5‐phosphate content. Comparison of brain metabolite levels following control or sublethal cyanide treatment (4 mg/kg) revealed specific cyanide‐induced changes in brain metabolism. Brains from cyanidetreated animals were characterized by a reduced phosphocreatine content and elevated α‐glycerolphosphate and inorganic orthophosphate contents relative to control. P‐31 NMR spectra of brain PCA extracts at pH 7.2 were also obtained under conditions that approximate those used for in vivo and intact tissue in vitro P‐31 spectroscopic analyses. The spectra reveal nine separate resonance bands corresponding to: sugar phosphates, principally ribose 5‐phosphate (3.7δ); inorganic orthophosphate (2.2δ); glycerol 3‐phosphorylethanolamine (0.3δ); glycerol 3‐phosphorylcholine (−0.1δ); phosphocreatine (−3.2δ); adenosine tri‐(β‐ATP) and di‐(β‐ADP) phosphate ionized end‐groups (−6.2δ); α‐ATP, α‐ADP, and nicotinamide adenine dinucleotides esterified end‐groups (−11.1δ); uridine diphosphohexose, hexose esterified end‐groups (−13.0δ); and β‐ATP ionized middle group (−21.6δ). Knowledge of the phosphatic molecules that contribute resonances to the brain P‐31 NMR spectrum as well as understanding their magnetic resonance properties is essential for the interpretation of in vivo brain spectroscopic data as well as brain extract data, since these same compounds contribute to the intact brain P‐31 spectrum.

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Hydrogen Peroxide Production and Oxidation of Ferrous Iron by Lactobacillus delbrueckii ssp. bulgaricus

Kot

Furmanov

Bezkorovainy

1996

Journal of Dairy Science

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Iron accumulation by bifidobacteria at low pO2 and in air: action of putative ferroxidase

Kot¹,

Haloftis²,

Bezkorovainy³

1994

J. Agric. Food Chem.

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Eva Kot

P‐31 Nuclear Magnetic Resonance Analysis of Brain: The Perchloric Acid Extract Spectrum

Hydrogen Peroxide Production and Oxidation of Ferrous Iron by Lactobacillus delbrueckii ssp. bulgaricus

Iron accumulation by bifidobacteria at low pO2 and in air: action of putative ferroxidase

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