EC:3.1.30.2 - FACTA Search

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)

Untreated Xenopus cells synthesize RNA is increased and some sequences complementary to those of the nontranscribed spacer are found in the heavy shoulder of the 40S precursor rRNA peak. In such events transcription initiation seems to take place within the spacer because its middle and right BamHI endonuclease fragments are preferentially transcribed, whereas only few RNA sequences complementary to the left spacer fragment are found. It is concluded that at least some spacer regions contain promoters for transcription and can be transcribed either into a special class of "spacer transcripts" or into molecules covalently linked to rRNA precursor.
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PMID:Transcription of spacer sequences in genes coding for ribosomal RNA in Xenopus cells. 29 Oct 55

The 5' leads to 3' polarity of the 40S precursor rRNA molecule relative to the location of the 18S and 28S RNA regions in the precursor has been reinvestigated. Fragments of rDNA derived by the restriction endonuclease EcoRI and cloned in E. coli were partially digested with the exonuclease induced by bacteriophage lambda and with exonuclease III from E. coli. The resulting rDNA fragments with single-stranded tails were hybridized separately with 18S and 28S rRNA, and the formation of the hybrid was monitored by determination of radioactivity and by electron microscopy. Since the location of the EcoRI sites in rDNA is known, and the specificity of the two exonucleases for 5' and 3' ends of DNA strands has been established, the hybridization of the different partially digested rDNA fragments with either 18S or 28S rRNA could be interpreted in terms of polarity of the coding strand of rDNA, and consequently of the RNA (see models in Figure 1). The results supports the following model for the rRNA precursor moleculre: 5' end-transcribed space-18S gene-transcribed space-28S gene-3' end.
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PMID:A reinvestigation of 5' leads to 3' polarity in 40S ribosomal RNA precursor of Xenopus laevis. 95 98

The aim of this study was to identify multicomponent complexes involved in kinetoplastid mitochondrial mRNA editing. Mitochondrial extracts from Trypanosoma brucei were fractionated on 10-30% glycerol gradients and assayed for RNAs and activities potentially involved in editing, including pre-edited mRNA, guide RNA (gRNA), endonuclease, terminal uridylyltransferase (TUTase), RNA ligase and gRNA-mRNA chimera-forming activities. These experiments suggest that two distinct editing complexes exist. Complex I (19S) consists of gRNA, TUTase, RNA ligase and chimera-forming activity. Complex II (35-40S) is composed of gRNA, preedited mRNA, RNA ligase and chimera-forming activity. These studies provide the first evidence that editing occurs in a multicomponent complex. The possible roles of complex I, complex II and RNA ligase in editing are discussed.
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PMID:Native mRNA editing complexes from Trypanosoma brucei mitochondria. 133 May 37

We have isolated and sequenced a 1308bp clone from a pupal brain cDNA library of the flesh fly, Sarcophaga crassipalpis, showing 97% amino acid (aa) sequence similarity to Ceratitis capitata 60S acidic ribosomal protein P0 (CcP0) and 93% aa sequence similiarity to Drosophila melanogaster P0 (DmP0). DmP0 is a multifunctional protein necessary for efficient protein translation of the 60S ribosome as well as DNA repair via AP3 endonuclease activity. In this study, we observed that S. crassipalpis P0 (ScP0) is cyclically regulated throughout the fly's overwintering pupal diapause. Expression of ScP0 cycles out of phase with the 4day cycles of O(2) consumption: the peak day of O(2) consumption is characterized by low ScP0 expression, while high expression is noted during the trough of the O(2) consumption cycle. The O(2) cycles, which are in turn driven by cycles of juvenile hormone (JH), can be eliminated by application of a JH analog (JHA). Pupae rendered acyclic with a JHA application consume O(2) at a constant high rate and ScP0 is consistently downregulated. Our findings thus suggest that the cyclic nature of ScP0 regulation during pupal diapause is linked to the JH-mediated metabolic cycles characteristic of this species.
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PMID:Sequence and transcription patterns of 60S ribosomal protein P0, a diapause-regulated AP endonuclease in the flesh fly, Sarcophaga crassipalpis. 1102 99

The mammalian ribosomal protein S3 (rpS3) is a component of the 40S ribosomal subunit. It is known to function as a DNA repair enzyme, UV endonuclease III, which cleaves DNA that is irradiated by UV. It also has an endonuclease activity on AP DNA. In this report, the yeast ribosomal protein S3 (Rps3p) in S. cerevisiae was cloned, expressed in E. coli, and affinity-purified by 285 fold. Rps3p is composed of 240 amino acids and has a 78% amino acid similarity with the human counterpart that has 243 amino acids. The major difference in the amino acid sequence between the two proteins lies in most of the C-terminal 50 residues. Surprisingly, Rps3p only showed an endonuclease activity on AP DNA, but not on DNA that was irradiated with UV. The AP endonuclease activity of Rps3p was affected by pH, KCl, and beta-mercaptoethanol, but Triton X-100 and EDTA did not affect the enzyme activity. From these results, both the mammalian rpS3 and Rps3p appear to be involved in DNA damage processing, but in different modes.
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PMID:Yeast ribosomal protein S3 has an endonuclease activity on AP DNA. 1156 34

The human ribosomal protein S3 (rpS3) functions as a component of the 40S subunit and as a UV DNA repair endonuclease. This enzyme has an endonuclease activity for UV-irradiated and oxidatively damaged DNAs. DNA repair endonucleases recognize a variety of UV and oxidative base damages in DNA from E. coli to human cells. E. coli endonuclease III is especially known to have an iron-sulfur cluster as a co-factor. Here, we tried an electron paramagnetic resonance (EPR) method for the first time to observe a known iron-sulfur cluster signal from E. coli endonuclease III that was previously reported. We compared it to the human rpS3 in order to find out whether or not the human protein contains an iron-sulfur cluster. As a result, we succeeded in observing a Fe EPR signal that is apparently from an iron-sulfur cluster in the human rpS3 endonuclease. The EPR signal from the human enzyme, consisting of three major parts, is similar to that from the E. coli enzyme, but it has a distinct extra peak.
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PMID:Electron paramagnetic resonance study reveals a putative iron-sulfur cluster in human rpS3 protein. 1191 68

Nob1p (Yor056c) is essential for processing of the 20S pre-rRNA to the mature 18S rRNA. It is part of a pre-40S ribosomal particle that is transported to the cytoplasm and subsequently cleaved at the 3' end of mature 18S rRNA (D-site). Nob1p is also reported to participate in proteasome biogenesis, and it was therefore unclear whether its primary activity is in ribosome synthesis. In this work, we describe a homology model of the PIN domain of Nob1p, which structurally mimics Mg(2+)-dependent exonucleases despite negligible similarity in primary sequence. Insights gained from this model were used to design a point mutation that was predicted to abolish the postulated enzymatic activity. Cells expressing Nob1p with this mutation failed to cleave the 20S pre-rRNA. This supports both the significance of the structural model and the idea that Nob1p is the long-sought D-site endonuclease.
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PMID:PIN domain of Nob1p is required for D-site cleavage in 20S pre-rRNA. 1538 78

Tif6p (eIF6) is necessary for 60S biogenesis, rRNA maturation and must be released from 60S to permit 80S assembly and translation. We characterized Tif6p interactors. Tif6p is mostly on 66S-60S pre-ribosomes, partly free. Tif6p complex(es) contain nucleo-ribosomal factors and Asc1p. Surprisingly, Tif6p particle contains the low-abundance endonuclease Sen34p. We analyzed Sen34p role on rRNA/tRNA synthesis, in vivo. Sen34p depletion impairs tRNA splicing and causes unexpected 80S accumulation. Accordingly, Sen34p overexpression causes 80S decrease and increased polysomes which suggest increased translational efficiency. With delayed kinetics, Sen34p depletion impairs rRNA processing. We conclude that Sen34p is absolutely required for tRNA splicing and that it is a rate-limiting element for efficient translation. Finally, we confirm that Tif6p accompanies 27S pre-rRNA maturation to 25S rRNA and we suggest that Sen34p endonuclease in Tif6p complex may affect also rRNA maturation.
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PMID:Sen34p depletion blocks tRNA splicing in vivo and delays rRNA processing. 1618 29

Ribosome biogenesis in eukaryotes is a highly regulated process involving hundreds of transiently associated proteins and RNAs. Although most of these assembly factors have been genetically linked to specific step(s) in the biogenesis pathway, their biochemical functions are generally unknown. Bms1, an essential protein in yeast, is the only known GTPase required for biosynthesis of the 40S ribosomal subunit and interacts with Rcl1, an essential protein suggested to be an endonuclease. Here, we show thermodynamic coupling in the binding of Bms1 to GTP, Rcl1, and U3 small nucleolar RNA (snoRNA), an essential RNA that base pairs to pre-rRNA. Rcl1 binding to preribosomes is severely limited in yeast cells expressing a Bms1 mutant defective for Rcl1 binding. Additionally, we provide evidence that the C-terminal domain of Bms1 acts as an intramolecular GTPase-activating protein. Together, these data suggest that Bms1 functions as a GTP-regulated switch to deliver Rcl1 to preribosomes, providing molecular insight into preribosome assembly.
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PMID:An essential GTPase promotes assembly of preribosomal RNA processing complexes. 1630 13

Ribosome biogenesis in eukaryotic organisms involves the coordinated assembly of 78 ribosomal proteins onto the four ribosomal RNAs, mediated by a host of trans-acting factors whose specific functions remain largely unknown. The essential GTPase Bms1, the putative endonuclease Rcl1 and the essential U3 small nucleolar RNA form a stable subcomplex thought to control an early step in the assembly of the 40S ribosomal subunit. Here, we provide a complete thermodynamic analysis of GTP-dependent subcomplex formation, revealing strong thermodynamic coupling of Rcl1, U3 small nucleolar RNA and GTP binding to Bms1 that is eliminated in the presence of GDP. The results suggest that Rcl1 activates Bms1 by promoting GDP/GTP exchange, analogous to ribosome-promoted nucleotide exchange within translation elongation factor EF-G. These and other data unveil thermodynamic similarities between Bms1 and the subgroup of GTPases involved in translation, providing evidence that parts of the ribosome assembly machinery may have evolved from the translation apparatus. This quantitative description of an early and essential step in pre-ribosome assembly provides a framework for elucidating the network of interactions between the Bms1 subcomplex and additional factors involved in ribosome biogenesis.
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PMID:GTP-dependent formation of a ribonucleoprotein subcomplex required for ribosome biogenesis. 1637 78

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