G. V. Ovcharenko scite author profile

G. V. Ovcharenko

3Publications

72Citation Statements Received

78Citation Statements Given

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Affiliations

Institute of Molecular Biology and Genetics, National Academy of Sciences of Ukraine, Max Planck Institute for Molecular Genetics

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Molecular Cloning of CoA Synthase

Zhyvoloup¹,

Nemazanyy²,

Бабич³

et al. 2002

Journal of Biological Chemistry

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Coenzyme A functions as a carrier of acetyl and acyl groups in living cells and is essential for numerous biosynthetic, energy-yielding, and degradative metabolic pathways. There are five enzymatic steps in CoA biosynthesis. To date, molecular cloning of enzymes involved in the CoA biosynthetic pathway in mammals has been only reported for pantothenate kinase. In this study, we present cDNA cloning and functional characterization of CoA synthase. It has an open reading frame of 563 aa and encodes a protein of ϳ60 kDa. Sequence alignments suggested that the protein possesses both phosphopantetheine adenylyltransferase and dephospho-CoA kinase domains. Biochemical assays using wild type recombinant protein confirmed the gene product indeed contained both these enzymatic activities. The presence of intrinsic phosphopantetheine adenylyltransferase activity was further confirmed by site-directed mutagenesis. Therefore, this study describes the first cloning and characterization of a mammalian CoA synthase and confirms this is a bifunctional enzyme containing the last two components of CoA biosynthesis.

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Three tRNA Binding Sites in Rabbit Liver Ribosomes and Role of the Intrinsic ATPase in 80S Ribosomes from Higher Eukaryotes

et al. 1997

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Three tRNA binding sites have been found in organisms of all domains (former kingdoms) with only one exception: Four binding sites have been reported for cytoplasmic 80S ribosomes from rabbit liver. Therefore, the issue was reconsidered, and the data revealed that rabbit liver ribosomes contain three tRNA binding sites, underlining the universal character of this ribosomal feature. Furthermore, a first analysis of the role of the ribosome intrinsic ATPase was performed. This ATPase is found in ribosomes of higher eukarya but not in lower eukarya such as yeast or ribosomes of the domains archea and bacteria. The results suggest that the intrinsic ATPase fulfills the same function as the essential third elongation factor EF-3, an ATPase in higher fungi (yeast etc.), that facilitates the release of the deacylated tRNA from the E site.

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ATPase Strongly Bound to Higher Eukaryotic Ribosomes

Rodnina

Serebryanik

Ovcharenko

et al. 1994

European Journal of Biochemistry

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-EJB 94 0574/2 80 S ribosomes from a number of higher eukaryotic organisms are able to hydrolyse ATP and GTP without the addition of soluble protein factors. ATPase seems to be an intrinsic activity of the ribosome, as indicated by the findings that ATPase activity is not diminished upon dissociation of ribosomes and reassociation of subunits, by washing with 0.66 M (KC1 + NH,Cl) or 0.6 M LiCl treatment and ethanol precipitation; 1.5 M LiCl treatment removes only 40% ATPase activity. 80 S ribosomes are able to bind a variety of NTPs, NDPs and NTP analogues, with a preference for ATP. Effective inhibitors of the ribosomal ATPase are ammonium metavanadate and alcaloid emetine. The ATPase activity is present on both ribosomal subunits, which may reflect the existence of two catalytical sites for ATP on the 80 S ribosome. Ribosomal ATPase is stimulated by the occupancy of the A site, in particular with charged tRNA. The ATPase inhibitor adenylylimidodiphosphate almost completely prevents elongation-factor(EF)-1-dependent binding of Phe-tRNAPh" to the A site. The hydrolysis of ATP, therefore, is likely to be involved in the mechanism of tRNA binding to the A site of the 80 S ribosome. As far as wide substrate specificity and possible participation in tRNA interaction with the ribosome are concerned, the ribosomal ATPase seems to be similar to EF-3 found in fungi. A synergism in ATPase activities of yeast EF-3 and rabbit liver ribosomes at high ATP concentration and certain ribosomeEF-3 ratios have been observed. Rabbit liver ribosomes seem to stimulate the ATPase activity of yeast EF-3 similar to the mechanism in yeast ribosomes, though less efficiently.

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G. V. Ovcharenko

Molecular Cloning of CoA Synthase

Three tRNA Binding Sites in Rabbit Liver Ribosomes and Role of the Intrinsic ATPase in 80S Ribosomes from Higher Eukaryotes

ATPase Strongly Bound to Higher Eukaryotic Ribosomes

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