Fluorimetric and spectrophotometric studies of DPN-linked isocitrate dehydrogenase from bovine heart. Properties of tyrosyl and tryptophyl residues.
نویسندگان
چکیده
The emission maximum of DPN-linked isocitrate dehydrogenase in pH 7.07 buffer is shifted from 317 to 324 nm and fluorescence intensity is decreased when the excitation wave-length is varied from 270 to 290 nm; in 0.2 M KOH, where the fluorescence of tyrosyl residues is almost completely quenched, a further substantial decline in quantum yield of protein fluorescence and a red shift of the emission peak to 339 nm occur. The latter should be due mainly to tryptophyl residues. The enzyme contains 9.4 tyrosyl residues per subunit of molecular weight 42,000 determined spectrophotometrically (295 nm) at pH 13, in good agreement with a tyrosine content of 9.7 by amino acid analysis. No more than 1.1 tyrosyl residues per subunit can be detected up to pH 10.6 at 7 degrees upon prolonged incubation. The increase in absorption at 295 nm with increasing pH is related to loss of enzyme activity and results in a red shift of the emission maximum, and decreased fluorescence intensity. Treatment of the enzyme in a Li+-containing buffer at pH 7.5 with an excess of N-acetylimidazole results in (a) modification of 1.1 tyrosyl residues per subunit, (b) a 30% decrease in enzyme activity, (c) a 6-nm red shift in emission maximum, and (d) a decrease in fluorescence intensity. Manganous DL-isocitrate (1.06 mM) prevents the acetylation of the enzyme. Deacetylation of the O-acetylated enzyme by hydroxylamine completely restores the enzyme activity and reverses the spectral changes. The acetylation studies indicate that the reactive tyrosyl residue does not participate directly in catalysis but may be involved in maintaining the proper conformation of the active enzyme center. A net of 1 of the 2 tryptophyl residues per subunit is perturbed immediately by a number of solvents. This perturbation is not affected by manganous isocitrate, whereas exposure of tyrosyl residues occurs only with time and is prevented by the substrate. The perturbation of the tryptophyl residue is accompanied by a red shift of the fluorescence emission maximum. The more exposed tryptophyl residue may contribute to the energy transfer from protein to nucleotides since the quenching of protein fluorescence upon binding of DPN+, DPNH, or ADP by enzyme results in a blue shift of the emission maximum. Manganous DL-isocitrate (1.06 mM) quenches protein fluorescence by 16% without a shift in emission peak and does not affect the relative extent of fluorescence quenching induced by the nucleotides.
منابع مشابه
Functional groups of diphosphopyridine nucleotide linked isocitrate dehydrogenase from bovine heart. I. Studies of an active amino group by amidination, arylation, acetylation, and carbamylation.
DPN-linked isocitrate dehydrogenase from bovine heart contains 6 half-cystine residues per subunit of molecular weight of 42,000. All of these residues are present as cysteine since six sulfhydryl groups per subunit can be modified by 5,5’-dithiobis(2-nitrobenzoate) (DTNB). Spectrophotometric measurements indicate that the modilication of three thiol groups which react preferentially with DTNB ...
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DPN-linked isocitrate dehydrogenase from bovine heart contains 6 half-cystine residues per subunit of molecular weight of 42,000. All of these residues are present as cysteine since six sulfhydryl groups per subunit can be modified by 5,5’-dithiobis(2-nitrobenzoate) (DTNB). Spectrophotometric measurements indicate that the modilication of three thiol groups which react preferentially with DTNB ...
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A polarographic technique suitable for kinetic studies of either isolated or bound pyridine nucleotide-linked dehydrogenases was used to investigate the isocitrate dehydrogenases of yeast mitochondria. Intact mitochondria were found to contain both triphosphopyridine nucleotideand diphosphopyridine nucleotide-linked isocitrate dehydrogenases with properties very similar to those which have been...
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ورودعنوان ژورنال:
- The Journal of biological chemistry
دوره 250 16 شماره
صفحات -
تاریخ انتشار 1975