I. Goia scite author profile

I. Goia

5Publications

49Citation Statements Received

190Citation Statements Given

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Structural and enzymic properties of adenine 1-oxide nucleotides

Mantsch¹,

Goia²,

Kezdi³

et al. 1975

Biochemistry

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We decribed the preparation of adenine 1-oxide nucleotides by oxidation of the natural compounds with monopermaleic acid in aqueous solutions at neutral pH, with an overall yield after chromatographic purification between 75 and 80%. If irradiated, the adenine 1-oxide nucleotides undergo a photochemical rearrangement reaction, the main photoproducts in aqueous solution at alkaline pH being the corresponding isoguanine nucleotides. The modified ring vibration pattern of the 1-oxide analogues as well as the 13C chemical shift indicate a loss of aromaticity as compared to the natural compounds. Coupling constant measurements show that the dihedral angle between the 31POC and OC13C planes is around 180degree, i.e., trans, as in the natural adenine nucleotides. The modified adenine nucleotides were tested as potential substrates and/or inhibitors of mitochondrial processes, as substrates of varous phosphotransferases from mitochondria or cytosol, and as allosteric effectors in the reactions catalyzed by glutamate dehydrogenase and phosphofructokinase. Although the adenine 1-oxide nucleotides are not recognized by the translocase system of the inner mitochondrial membrane, they are good substrates for mitochondrial phosphotransferases located in the intermembrane space. Similarly, they participate in the phosphoryl group transfer reactions catalyzed by pyruvate kinase, phosphofructokinase, and hexokinase. As allosteric effectors, the modified nucleotides are less active than the natural compounds, probably because of a lower binding capacity to the allosteric sites of the regulatory enzymes.

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Enzymic properties of 8-bromoadenine nucleotides

Lascu¹,

Kezdi²,

Goia³

et al. 1979

Biochemistry

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8-Bromoadenine nucleotides were tested as potential substrates and/or inhibitors of mitochondrial processes in intact or disrupted organelles, as substrates of various phosphotransferases, and as allosteric effectors in the reactions catalyzed by phosphofructokinase, isocitrate dehydrogenase, glutamate dehydrogenase, and fructose-1,6-bisphosphatase. 8-BrATP and 8-BrADP are not recognized by the translocase system located in the inner mitochondrial membrane and cannot be used as usbstrates in oxidative phosphorylation and related reactions catalyzed be beef heart submitochondrial membranes. This confirms the high specificity for adenine nucleotides of the mammalian systems involved in energy-yielding and energy-requiring reactions. However, 8-BrATP and 8-BrADP are able to substitute for the natural adenine nucleotides in reactions catalyzed by many phosphotransferases, although their capacity as phosphate donors and acceptors is generally much reduced. On the other hand, in almost all investigated cases, the 8-bromoadenine nucleotides have lost the capability of the natural adenine nucleotides to act as allosteric effectors, indicating that the structural requirements for allosteric activity are more stringent than those for catalytic activity.

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Nucleotide specificity of pyruvate kinase and phosphoenolpyruvate carboxykinase

Bârzu¹,

Abrudan²,

Proinov³

et al. 1976

Biochimica et Biophysica Acta (BBA) - Enzymology

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Specificity of rabbit muscle phosphofructokinase for nucleotides as substrates or as allosteric effectors

Bârzu¹,

Tilinca²,

Porutiu³

et al. 1977

Archives of Biochemistry and Biophysics

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Phosphorylation and hydrolysis of 7-deazaadenine nucleotides by rat liver and beef heart mitochondria

Petrescu¹,

Lascu²,

Goia³

et al. 1982

Biochemistry

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Tubercidin nucleotides [tubercidin 5'-mono-phosphate (TuMP), 5'-diphosphate (TuDP), and 5'-triphosphate (TuTP)] were tested as potential substrates for the mitochondrial phosphotransferases from rat liver and beef heart. TuDP is recognized by the mitochondrial translocase and phosphorylated by the respiratory chain enzymes in both mitochondria and submitochondrial particles from rat liver and beef heart; the low transport rate of the analogue into the matrix space of the intact organelles seems to be not a limiting step in the formation of TuTP. The phosphorylation of TuDP is significantly lower in beef heart mitochondria because of a higher specificity for ADP of the heart oxidative phosphorylation system. On the basis of the kinetic parameters of the partially purified liver mitochondrial adenylate kinase, one can conclude that the liver mitochondria are able to phosphorylate in vivo TuMP at a rate practically equal to the rate of AMP phosphorylation. The liver mitochondrial NDP kinase ensures a further fast phosphorylation of TuDP without the direct involvement of respiratory chain enzymes. In the case of heart mitochondria, two factors limit the rate of TuMP phosphorylation to TuTP: the lower acceptor activity of adenylate kinase with TuMP as compared with AMP and the different localization of heart NDP kinase situated on the inner face of the inner mitochondrial membrane. TuDP and TuTP preserve the ability of the natural nucleotides to interact with the "tight" nucleotide binding sites of isolated or membrane-bound F1. The low hydrolytic rate of TuTP with F1 may be related to the unusual flexibility of the glycosyl bond of tubercidin nucleotides in aqueous solution, with a high accessibility to syn conformation.

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I. Goia

Structural and enzymic properties of adenine 1-oxide nucleotides

Enzymic properties of 8-bromoadenine nucleotides

Nucleotide specificity of pyruvate kinase and phosphoenolpyruvate carboxykinase

Specificity of rabbit muscle phosphofructokinase for nucleotides as substrates or as allosteric effectors

Phosphorylation and hydrolysis of 7-deazaadenine nucleotides by rat liver and beef heart mitochondria

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