Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.30.2 (endonuclease)
 18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 0.6 kb cDNA fragment encoding the human NAD(+)-specific isocitrate dehydrogenase alpha-subunit (H-IDH alpha) was amplified by PCR using oligonucleotide primers synthesized on the basis of pig tryptic peptide sequences [Huang and Colman (1990) Biochemistry 29, 8266-8273]. With the amplified cDNA as a probe, cDNA clones for IDH alpha were isolated from a human heart lambda gt11 cDNA library. The deduced protein sequence of the largest cDNA clone (2628 bp) rendered a precursor protein of 366 amino acids (39,591 Da) and a mature protein of 339 amino acids (36,640 Da). The deduced H-IDH alpha protein sequence is highly similar to the partial peptide sequences of the pig enzyme. It is 55, 43 and 44% identical with yeast NAD(+)-specific IDH2, yeast NAD(+)-specific IDH1 and monkey NAD(+)-specific IDH gamma-subunit (IDH gamma) respectively. However, it has less similarity (about 30%) to NADP(+)-specific IDH from Escherichia coli and bovine mitochondria. These results indicate that the structure of IDH alpha closely resembles that of IDH2, the catalytic subunit of the yeast enzyme. Structural analysis of the deduced H-IDH alpha protein revealed that the amino acids responsible for the binding of isocitrate, Mg2+ and NAD+ are highly conserved. It also has two conserved motifs for the binding sites of ATP and ADP, but a canonical Ca(2+)-binding motif was not recognized. Unusual penta-(ATTTA) and tri-(TAA or ATT) nucleotides which are respectively believed to interact with RNA-binding proteins and be near the endonuclease cleavage sites were frequently recognized in its 3' untranslated region, indicating the possibility of an additional method of regulation of this enzyme. Northern-blot analysis suggests that one mRNA transcript (2.8 kb) exists in cultured HeLa cells. Genomic DNA Southern-blot analysis indicates that the IDH alpha gene is not closely related to that of the other IDH isoenzymes, and IDH alpha appears to be encoded by a single gene.
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PMID:Characterization of a cDNA clone for human NAD(+)-specific isocitrate dehydrogenase alpha-subunit and structural comparison with its isoenzymes from different species. 775 89

Aurintricarboxylic acid (ATA), an inhibitor of Ca(2+)-dependent endonuclease activity, is often used to implicate a role for increased intracellular calcium in mechanistic toxicology studies. We report here on the ability of ATA to inhibit the activity of several NAD(H)/NADP(H)-requiring enzymes (purified or cellular homogenates), including lactic dehydrogenase, alcohol dehydrogenase, cytochrome c reductase, ethoxycoumarin o-dealkylase, isocitric dehydrogenase, glutathione reductase and glucose-6-phosphate dehydrogenase. These results were compared with the ability of ATA to inhibit micrococcal nuclease and rat liver Ca(2+)-dependent endonuclease activity in similar incubations. With the exception of alcohol dehydrogenase, ATA was a potent inhibitor of each of the purified enzymes, with IC50s ranging from 0.5 to 82 microM. In cell homogenates, however, ATA was from 10 to 100-fold less potent at inhibiting these enzymes. When exogenous protein was added to purified enzyme incubations, the effect of ATA was similarly diminished. Our results demonstrate that ATA inhibits a wide range of NAD(H)/NADP(H)-requiring enzymes in in vitro incubations using purified enzymes, but that the inhibitory effects are markedly reduced in incubations which more closely resemble a cellular milieu.
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PMID:Inhibition of NAD(H)/NADP(H)--requiring enzymes by aurintricarboxylic acid. 855 68

Chloroplasts of land plants have an active transfer RNA processing system, consisting of an RNase P-like 5' endonuclease, a 3' endonuclease, and a tRNA:CCA nucleotidyltransferase. The specificity of these enzymes resembles more that of their eukaryotic counterparts than that of their cyanobacterial predecessors. Most strikingly, chloroplast RNase P activity almost certainly resides in a protein, rather than in an RNA.protein complex as in Bacteria, Archaea, and Eukarya. The chloroplast enzyme may have evolved from a preexisting chloroplast NADP-binding protein. Chloroplast RNase P cleaves pre-tRNA by a reaction mechanism in which at least one of the Mg2+ ions utilized by the bacterial ribozyme RNase P is replaced by an amino acid side chain.
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PMID:Structure, mechanism and evolution of chloroplast transfer RNA processing systems. 890 2

Human DNA apurinic/apyrimidinic endonuclease (APE1) plays a key role in the DNA base excision repair process. In this study, we further characterized the exonuclease activity of APE1. The magnesium requirement and pH dependence of the exonuclease and endonuclease activities of APE1 are significantly different. APE1 showed a similar K(m) value for matched, 3' mispaired, or nucleoside analog beta-l-dioxolane-cytidine terminated nicked DNA as well as for DNA containing a tetrahydrofuran, an abasic site analog. The k(cat) for exonuclease activity on matched, 3' mispaired, and beta-l-dioxolane-cytidine nicked DNA are 2.3, 61.2, and 98.8 min(-1), respectively, and 787.5 min(-1) for APE1 endonuclease. Site-directed APE1 mutant proteins (E96A, E96Q, D210E, D210N, and H309N), which target amino acid residues in the endonuclease active site, also showed significant decrease in exonuclease activity. Gp(4)G was the only potent inhibitor to compete against the substrates of endonuclease and exonuclease activities among all tested naturally occurring ribo-, deoxyribo-nucleoside/nucleotides, NAD(+), NADP(+), and Ap(4)A. The K(i) values of Gp(4)G for the endonuclease and exonuclease activities of APE1 are 10 +/- 0.6 and 1 +/- 0.2 microm, respectively. Given the relative concentrations of Gp(4)G, 3' mispaired, and abasic DNA, Gp(4)G may play an important role in regulating APE1 activity in cells. The data presented here suggest that the APE1 exonuclease and AP endonuclease are two distinct activities. APE1 may exist in two different conformations, and each conformation has a preference for a substrate. The different conformations can be affected by MgCl(2) or salt concentrations.
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PMID:The exonuclease activity of human apurinic/apyrimidinic endonuclease (APE1). Biochemical properties and inhibition by the natural dinucleotide Gp4G. 1262 4

Higher order chromatin degradation (HOCD) is a stepwise dismantling of the genome through the excision of chromatin loops and their oligomers at matrix attachment regions (MARs) during the early stages of programmed cell death. Although HOCD ultimately leads to the inactivation of the genome and cell death, a partial HOCD in cells receiving sublethal signals may result in the loss of genetic stability leading to neoplasia, degeneration, and aging. The present study was undertaken to determine the role of protein poly(ADP-ribosyl)ation in HOCD. Nuclei isolated from rat glioma C6 cells were able to carry poly(ADP-ribosyl)ation as assessed by the incorporation of (32)P-NAD(+) into TCA-insoluble fraction. Under the same experimental conditions, millimolar NAD(+) induced rapid HOCD in nuclei. However, while poly(ADP-ribosyl)ation was totally abrogated by specific inhibitor, benzamide, NAD(+)-induced HOCD was unaffected. Benzamide also failed to inhibit HOCD induced by H(2)O(2) exposure in intact cells. These results indicate that HOCD is not mediated through chromatin poly(ADP-ribosyl)ation, and that NAD(+) activates MAR-associated endonuclease or facilitates the access of the enzyme to DNA by other mechanisms. Furthermore, other nucleotides including NADP(+), ATP, UTP, GTP, and CTP were also found to induce HOCD in isolated nuclei indicating that HOCD is controlled by nucleotide-related ligands.
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PMID:Nucleotides induce higher order chromatin degradation. 1631 10

An intimate link exists between circadian clocks and metabolism with nearly every metabolic pathway in the mammalian liver under circadian control. Circadian regulation of metabolism is largely driven by rhythmic transcriptional activation of clock-controlled genes. Among these output genes, Nocturnin (Noct) has one of the highest amplitude rhythms at the mRNA level. The Noct gene encodes a protein (NOC) that is highly conserved with the endonuclease/exonuclease/phosphatase (EEP) domain-containing CCR4 family of deadenylases, but highly purified NOC possesses little or no ribonuclease activity. Here, we show that NOC utilizes the dinucleotide NADP(H) as a substrate, removing the 2' phosphate to generate NAD(H), and is a direct regulator of oxidative stress response through its NADPH 2' phosphatase activity. Furthermore, we describe two isoforms of NOC in the mouse liver. The cytoplasmic form of NOC is constitutively expressed and associates externally with membranes of other organelles, including the endoplasmic reticulum, via N-terminal glycine myristoylation. In contrast, the mitochondrial form of NOC possesses high-amplitude circadian rhythmicity with peak expression level during the early dark phase. These findings suggest that NOC regulates local intracellular concentrations of NADP(H) in a manner that changes over the course of the day.
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PMID:Spatiotemporal regulation of NADP(H) phosphatase Nocturnin and its role in oxidative stress response. 3187 54