Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.31.1 (micrococcal nuclease)
 2,818 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have mapped a gene in the mitochondrial DNA of Candida (Torulopsis) glabrata and shown that it is required for 5' end maturation of mitochondrial tRNAs. It is located between the tRNAfMet and tRNAPro genes, the same tRNA genes that flank the mitochondrial RNase P RNA gene in the yeast Saccharomyces cerevisiae. The gene is extremely AT rich and codes for AU-rich RNAs that display some sequence homology with the mitochondrial RNase P RNA from S. cerevisiae, including two regions of striking sequence homology between the mitochondrial RNAs and the bacterial RNase P RNAs. RNase P activity that is sensitive to micrococcal nuclease has been detected in mitochondrial extracts of C. glabrata. An RNA of 227 nucleotides that is one of the RNAs encoded by the gene that we mapped cofractionated with this mitochondrial RNase P activity on glycerol gradients. The nuclease sensitivity of the activity, the cofractionation of the RNA with activity, and the homology of the RNA with known RNase P RNAs lead us to propose that the 227-nucleotide RNA is the RNA subunit of the C. glabrata mitochondrial RNase P enzyme.
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PMID:A gene required for RNase P activity in Candida (Torulopsis) glabrata mitochondria codes for a 227-nucleotide RNA with homology to bacterial RNase P RNA. 170 11

A spermidine-dependent endoribonuclease (designated as RNase 65) activity requires both RNA and protein components (Nashimoto et al. (1991) Biochem. Biophs. Res. Comm. 176:1163-1169). In this study, we fractionated RNAs from mouse FM3A cell extracts and showed that an RNA fraction containing two major RNAs and two minor ones restored the micrococcal nuclease-inhibited RNase 65 activity. Partial sequences of these four RNA species were determined by chemical RNA sequencing. A sequence homology search revealed that the two major RNAs were glutamine tRNA lacking its 3' terminus, and that the two minor RNAs were initiator methionine tRNA and glycine tRNA lacking their 3' termini.
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PMID:Transfer RNA lacking its 3' terminus is required for spermidine-dependent ribonuclease 65 activity in mouse FM3A cell extracts. 187 44

Ribonuclease P is the endonuclease that removes the leader fragments from the 5'-ends of precursor tRNAs. The enzyme isolated from eubacteria contains a catalytic RNA subunit. RNAs also copurify with eukaryotic RNase P, although catalysis by those RNAs has not been demonstrated. This paper reports the isolation and characterization of ribonuclease P from the thermoacidophilic archaebacterium Sulfolobus solfataricus. Archaebacteria are a primary evolutionary lineage, distinct from both eukaryotes and eubacteria. Ribonuclease P of S. solfataricus has reaction component requirements and a Km for substrate tRNA (2.5 X 10(-7) M) that are roughly similar to those reported for eubacterial and eukaryotic ribonuclease P. The temperature optimum for the reaction is 77 degrees C, reflecting the thermophilic character of the organism. The enzyme activity is not affected by treatment with micrococcal nuclease, suggesting that there is no RNA subunit or that it is protected from nuclease action. The density of the enzyme in cesium sulfate equilibrium density gradients is 1.27 g/ml, which is similar to that of protein. However, several RNAs between 200 and 400 nucleotides in size copurify with the enzyme activity on the density gradients, and one of them remains after micrococcal nuclease treatment. These properties of the S. solfataricus enzyme are compared with those of ribonuclease P from eukaryotes and eubacteria.
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PMID:Characterization of ribonuclease P from the archaebacterium Sulfolobus solfataricus. 211 85

Inhibition of an RNA processing reaction after treatment with the Ca2(+)-dependent micrococcal nuclease (MN) is often used as a criterion for the presence of a required RNA or ribonucleoprotein component in the system. Following MN digestion, the nuclease is inactivated with EGTA and radiolabeled substrate is added to assay for remaining RNA processing activity. We found previously that inhibition of RNA processing by MN need not involve RNA hydrolysis: EGTA-inactivated MN can suppress RNA processing if the assay is performed in the absence of carrier RNA. We now demonstrate both by native gel electrophoresis and by nitrocellulose filter retention that EGTA-inactivated MN forms a complex with free RNA which can be dissociated by addition of synthetic polynucleotides or heparin. In the absence of Ca2+, nuclease binds to precursor tRNA with an apparent KD congruent to 1.4 x 10(-6) M, comparable to its reported affinity for DNA. In an assay for endonucleolytic tRNA maturation, inactivated MN bound to radiolabeled pre-tRNA physically blocks the sites of endonuclease cleavage and prevents tRNA processing. We call this phenomenon 'substrate masking'. Addition of excess carrier RNA competes with pre-tRNA for MN binding and restores normal processing.
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PMID:Substrate masking: binding of RNA by EGTA-inactivated micrococcal nuclease results in artifactual inhibition of RNA processing reactions. 212 40

A hybrid enzyme consisting of an oligodeoxyribonucleotide fused to a unique site on staphylococcal nuclease site-selectively cleaves a number of natural RNAs including Escherichia coli M1 RNA (377 bases), 16S rRNA (1542 bases), and yeast tRNA(Phe). The oligonucleotide directs the nuclease activity of the enzyme to the nucleotides directly adjacent to the complementary target sequence on the substrate RNA. In the case of M1 RNA, hydrolysis occurs primarily at one phosphodiester bond, converting 50% of the starting material to product. Furthermore, the reaction products can be enzymatically manipulated: tRNA(Phe) was cleaved in the anticodon region and was religated to form the full-length tRNA in high yield. Because the specificity of these hybrid enzymes can be easily altered, they should prove to be useful tools for probing RNA structure and function.
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PMID:Site-selective cleavage of structured RNA by a staphylococcal nuclease-DNA hybrid. 246 91

A ribonuclease P-like activity was partially purified from HeLa cell mitochondria by DEAE-cellulose and octyl-Sepharose chromatography. RNase P-like activity can be quantitatively recovered from intact mitochondrial preparations treated with micrococcal nuclease, strongly suggesting that the enzyme is localized within the organelles. Mitochondrial RNase P (mtRNase P) cleaves the precursor to Escherichia coli suppressor tRNATyr at the same site as E. coli RNase P, producing the mature 5'-end of tRNATyr. The sensitivity of mtRNase P to pretreatment with nucleases or Pronase indicates that the enzyme has essential RNA and protein components. Although the ionic requirements of mtRNase P are similar to those of the RNase P activity isolated from the post-mitochondrial cytosol fraction, the chromatographic properties of mtRNase P are distinct. Mitochondrial RNase P is probably a part of the mitochondrial RNA processing machinery of mammalian mitochondria, being responsible for the endonucleolytic cleavage of the RNA transcripts at the 5'-side of the tRNA sequences.
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PMID:Characterization of an RNase P activity from HeLa cell mitochondria. Comparison with the cytosol RNase P activity. 258 45

Degradation of yeast tRNAPhe with spleen phosphodiesterase in the presence of ethidium bromide has been studied. It was found that in the presence of the intercalating dye, the digestion is halted after a limited number of nucleotides is removed. Possible explanations of the observed phenomenon in connection with tRNA-ethidium bromide complex formation are discussed.
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PMID:Controlled degradation of yeast tRNAPhe by spleen phosphodiesterase in the presence of ethidium bromide. 283 99

Polynucleotide kinase (EC 2.7.1.78) has been purified from rat testes, and an approximately 2000-fold purification was obtained. The purified enzyme had an Mr of 38000 +/- 3800. The enzyme phosphorylated micrococcal nuclease-treated calf thymus DNA and (dT)10 while 5'-HO-tRNA was a very poor substrate. A certain degree of specificity towards purine-containing 5'-HO-nucleotides was observed. The polynucleotide kinase had an absolute requirement for a divalent cation. Both Mg2+ and Mn2+ could be used, but 10 mM MgCl2 gave optimal activity. The monovalent cations Na+, K+ and NH4+ all stimulated enzyme activity, and the optimal concentration was 0.1 M. The enzyme was inhibited by inorganic phosphate, pyrophosphate and sulphate. A 50% inhibition was obtained with 20, 0.3 and 2 mM, respectively. At 2 mM MgCl2, 1 mM spermine enhanced the enzyme activity 3-times. The apparent KATP was estimated to be 36 microM and KHO-DNA was found to be 2 microM.
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PMID:Purification and kinetic properties of polynucleotide kinase from rat testes. 298 15

After infection of mouse L cells with mengovirus, there is a rapid inhibition of protein synthesis, a concurrent disaggregation of polysomes, and an accumulation of 80S ribosomes. These 80S ribosomes could not be chased back into polysomes under an elongation block. The infected-cell 80S-ribosome fraction contained twice as much initiator methionyl-tRNA and mRNA as the analogous fraction from uninfected cells. Since the proportion of 80S ribosomes that were resistant to pronase digestion also increased after infection, these data suggest that the accumulated 80S ribosomes may be in the form of initiation complexes. The specific protein synthetic activity of polysomal ribosomes also decreased with time of infection. However, the transit times in mock-infected and infected cells remained the same. Cell-free translation systems from infected cells reflected the decreased protein synthetic activity of intact cells. The addition of reticulocyte initiation factors to such systems failed to relieve the inhibition. Fractionation of the infected-cell lysate revealed that the ribosomes were the predominant target affected. Washing the infected-cell ribosomes with 0.5 M KCI restored their translational activity. In turn, the salt wash from infected-cell ribosomes inhibited translation in lysates from mock-infected cells. The inhibitor in the ribosomal salt wash was temperature sensitive and micrococcal nuclease resistant. A model is proposed wherein virus infection activates (or induces the synthesis of) an inhibitor that binds to ribosomes and stops translation after the formation of the 80S-ribosome initiation complex but before elongation. The presence of such an inhibitor on ribosomes could prevent them from being remobilized into polysomes in the presence of an inhibitor of polypeptide elongation.
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PMID:Evidence for the presence of an inhibitor on ribosomes in mouse L cells infected with mengovirus. 299 47

The RNA modification enzyme, tRNA pseudouridine synthase I has been isolated in 95% purity from an Escherichia coli strain harboring a multicopy plasmid with a 2.3-kilobase pair insert from the hisT operon. Its molecular size, amino acid composition, and amino-terminal sequence correspond to those predicted by the structure and expression of the hisT gene. Enzyme activity, as measured by a 3H release assay, is unaffected by pretreatment of tRNA pseudouridine synthase I with micrococcal nuclease and is optimized by the addition of a monovalent cation and thiol reductant. The activity is inhibited by all tRNA species tested, including substrates, modified tRNAs, nonsubstrates, or tRNAs containing 5-fluorouridine. Binding of tRNA pseudouridine synthase I occurs with both substrate and nonsubstrate tRNAs and does not require a monovalent cation. Our findings are consistent with a multistep mechanism whereby tRNA pseudouridine synthase I first binds nonspecifically and then forms transient covalent adducts with tRNA substrates. In the absence of other proteins, purified tRNA pseudouridine synthase I forms psi at all three modification sites known to be affected in hisT mutants. The 36.4-kDa polypeptide product of the gene adjacent to hisT, whose translation is linked to that of tRNA pseudouridine synthase I, is not a functional subunit for tRNA pseudouridine synthase I activity, nor is it a separate synthase acting at one of the three loci.
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PMID:Purification, structure, and properties of Escherichia coli tRNA pseudouridine synthase I. 327 86


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