Zinc(II)-dependent synthesis of diadenosine 5',5'''-P1,P4-tetraphosphate by Escherichia coli and yeast phenylalanyl-tRNA synthetases

Plateau, Pierre; Mayaux, Jean Francois; Blanquet, Sylvain

doi:10.1021/bi00519a021

Cited by 123 publications

(53 citation statements)

References 35 publications

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“…Ap4A and Ap4G transiently increased three-to sevenfold after 1 h and then decreased concomitantly with an 80% decrease in the level of ATP after 2 h in the presence of dinitrophenol. These results do not support the hypothesis that Ap4A is a positive pleiotypic activator that modulates DNA replication, but they are consistent with the hypothesis proposed for procaryotes that ApA and Ap4G are signal nucleotides or alarmones of oxidative stress (B. R. Bochner Diadenosine 5',5" '-P',P4-tetraphosphate (Ap4A) and other adenosine tetraphosphonucleoside (Ap4N) and adenosine triphosphonucleoside (Ap3N) compounds are synthesized as side reaction products by tRNA synthetases from several organisms, including Physarum polycephalum (6,19,36,40,55). Zamecnik and Stephenson (54) have suggested that Ap4A might serve as a regulatory nucleotide that couples protein synthesis and transcription or replication.…”

supporting

confidence: 76%

In vivo levels of diadenosine tetraphosphate and adenosine tetraphospho-guanosine in Physarum polycephalum during the cell cycle and oxidative stress.

Garrison¹,

Mathis²,

Barnes³

1986

Mol. Cell. Biol.

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Cellular levels of diadenosine tetraphosphate (Ap4A) and adenosine tetraphospho-guanosine (Ap4G) were specifically measured during the cell cycle of Physarum polycephalum by a high-pressure liquid chromatographic method. Ap4A was also measured indirectly by a coupled phosphodiesterase-luciferase assay. No cell cycle-specific changes in either Ap4A or Ap4G were detected in experiments involving different methods of assay, different strains of P. polycephalum, or different methods of fixation of macroplasmodia. Our results on Ap4A are in contrast with those reported previously (C. Weinmann-Dorsch, G. Pierron, R. Wick, H. Sauer, and F. Grummt, Exp. Cell Res. 155:171-177, 1984). Weinmann-Dorsch et al. reported an 8-to 30-fold increase in Ap4A in early S phase in P. polycephalum, as measured by the phosphodiesterase-luciferase assay. We also measured levels of Ap4A, Ap4G, and ATP in macroplasmodia treated with 0.1 mM dinitrophenol. Ap4A and Ap4G transiently increased three-to sevenfold after 1 h and then decreased concomitantly with an 80% decrease in the level of ATP after 2 h in the presence of dinitrophenol. These results do not support the hypothesis that Ap4A is a positive pleiotypic activator that modulates DNA replication, but they are consistent with the hypothesis proposed for procaryotes that ApA and Ap4G are signal nucleotides or alarmones of oxidative stress (B.

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supporting

confidence: 76%

In vivo levels of diadenosine tetraphosphate and adenosine tetraphospho-guanosine in Physarum polycephalum during the cell cycle and oxidative stress.

Garrison¹,

Mathis²,

Barnes³

1986

Mol. Cell. Biol.

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“…In particular, we have been interested in the role of Zn 2ϩ in strongly augmenting the aminoacyl-tRNA synthetase synthesis of adenyl dinucleoside polyphosphates (17)(18)(19) and the role of the ion in the heat shock response. Most of the class II aminoacyl-tRNA synthetases are stimulated by Zn 2ϩ in Ap n A synthesis, yet many do not have clear zinc-binding motifs.…”

mentioning

confidence: 99%

Isothermal Titration Calorimetry Reveals a Zinc Ion as an Atomic Switch in the Diadenosine Polyphosphates

Tanner

Abowath

Miller

2002

Journal of Biological Chemistry

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“…produced in the back reaction of the amino acid activation step of protein synthesis [6] and its biosynthesis can be dramatically stimulated by low concentrations (80 pM) of Zn2+ [7]. The site of its intracellular activity has been shown to be the DNA replicative machinery.…”

mentioning

confidence: 99%

Drastic rise of intracellular adenosine(5′)tetraphospho(5′)adenosine correlates with onset of DNA synthesis in eukaryotic cells

Weinmann‐Dorsch

Hedl

Grummt

et al. 1984

European Journal of Biochemistry

112

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An assay of adenosine(5′)tetraphospho(5′)adenosine (Ap4A), based on the luciferin/luciferase method for ATP measurement, was developed, which allows one to determine picomolar amounts of unlabeled Ap4A in cellular extracts. In eukaryotic cells this method yielded levels of Ap4A varying from 0.01 μM to 13 μM depending on the growth, cell cycle, transformation, and differentiation state of cells. After mitogenic stimulation of G1‐arrested mouse 3T3 and baby hamster kidney fibroblasts the Ap4A pools gradually increased 1000‐fold during progression through the G1 phase reaching maximum Ap4A concentrations of about 10 μM in the S phase. Quiescent 3T3 cells reach a high level of Ap4A (1 μM) in a “committed” but prereplicative state if exposed to an external mitogenic stimulant (excess of serum) and simultaneously to a synchronizer which inhibits entry into the S phase (hydroxyurea). When the block for DNA replication was removed at varying times after removal of the stimulant decay of commitment to DNA synthesis was found correlated with a shrinkage of the Ap4A pool. Cells lacking a defined G1 phase (V79 lung fibroblasts, Physarum) possess a constitutively high base level of Ap4A (about 0.3 μM) even during mitosis. From this high level, Ap4A concentration increases only about tenfold during the S phase. Temperature‐down‐shift experiments, using chick embryo cells infected with transformation‐defective temperature‐sensitive viral mutants(td‐ts), have shown that the expression of the transformed state at 35°C is accompanied by a tenfold increase of the cellular Ap4A pool. Treatment of exponentially growing human cells with interferon leads, concomitantly with an inhibition of DNA syntheses, to a tenfold decrease in intracellular Ap4A levels within 20 h. The possibility of Ap4A being a “second messenger” of cell cycle and proliferation control is discussed in the light of these results and those reported previously demonstrating that Ap4A is a ligand of mammalian DNA polymerase α, triggers DNA replication in quiescent mammalian cells and is active in priming DNA synthesis.

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Zinc(II)-dependent synthesis of diadenosine 5',5'''-P1,P4-tetraphosphate by Escherichia coli and yeast phenylalanyl-tRNA synthetases

Cited by 123 publications

References 35 publications

In vivo levels of diadenosine tetraphosphate and adenosine tetraphospho-guanosine in Physarum polycephalum during the cell cycle and oxidative stress.

In vivo levels of diadenosine tetraphosphate and adenosine tetraphospho-guanosine in Physarum polycephalum during the cell cycle and oxidative stress.

Isothermal Titration Calorimetry Reveals a Zinc Ion as an Atomic Switch in the Diadenosine Polyphosphates

Drastic rise of intracellular adenosine(5′)tetraphospho(5′)adenosine correlates with onset of DNA synthesis in eukaryotic cells

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