EC:3.1.30.2 - FACTA Search

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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)

In an effort to identify genes involved in the excision of tRNA introns in Saccharomyces cerevisiae, temperature-sensitive mutants were screened for intracellular accumulation of intron-containing tRNA precursors by RNA hybridization analysis. In one mutant, tRNA splicing intermediates consisting of the 5' exon covalently joined to the intron ('2/3' pre-tRNA molecules) were detected in addition to unspliced precursors. The mutant cleaves pre-tRNA(Phe) in vitro at the 3' exon/intron splice site, generating the 3' half molecule and 2/3 intermediate. The 5' half molecule and intron are not produced, indicating that cleavage at the 5' splice site is suppressed. This partial splicing activity co-purifies with tRNA endonuclease throughout several chromatographic steps. Surprisingly, the splicing defect does not appreciably affect cell growth at normal or elevated temperatures, but does confer a pseudo cold-sensitive phenotype of retarded growth at 15 degrees C. The mutant falls into the complementation group SEN2 previously defined by the isolation of mutants defective for tRNA splicing in vitro [Winey, M. and Culbertson, M.R. (1988) Genetics, 118, 609-617], although its phenotypes are distinct from those of the previous sen2 isolates. The distinguishing genetic and biochemical properties of this new allele, designated sen2-3, suggests the direct participation of the SEN2 gene product in tRNA endonuclease function.
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PMID:Accumulation of pre-tRNA splicing '2/3' intermediates in a Saccharomyces cerevisiae mutant. 218 22

We have cloned several prototypic members of the family of human endogenous retroviruslike elements having a histidine tRNA primer-binding site (RTVL-H) and have determined the nucleotide sequence of one of these clones (RTVL-H2). The RTVL-H2 sequence is 5,813 nucleotides long, with long terminal repeats of 450 nucleotides. Although this particular sequence contains no long open reading frames, computer searches have revealed several segments of amino acid homology with known retroviral gene products. In the gag region of RTVL-H2, there is a segment with significant homology to a region of the gag protein p30 of type C baboon endogenous virus. In the pol region of RTVL-H2, three segments similar to the Moloney leukemia virus (MLV) pol polyprotein were detected. These correspond to parts of the protease, reverse transcriptase, and endonuclease domains of the MLV pol gene. Interestingly, the last two pol domains are equidistant in RTVL-H2 and the type C murine retroviruslike DNA sequence (MuRRS), both having deletions of equal sizes relative to the MLV pol gene. One other segment similar to a retroviral gene product was identified in the RTVL-H2 gag region. This segment has 55 to 60% amino acid homology to a 50-amino-acid region of the gag nucleic acid-binding proteins encoded by human T-cell lymphotropic viruses types I and II and bovine leukemia virus. Thus, the RTVL-H2 genome harbors sequences related to evolutionarily distant retroviruses.
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PMID:Human endogenous retroviruslike genome with type C pol sequences and gag sequences related to human T-cell lymphotropic viruses. 244 10

The number of rRNA genes in Mycobacterium smegmatis was examined by hybridization of BamHI and SalI digests of chromosomal DNA with 3'-end-labeled 5S, 16S, 23S rRNA and tRNA. Each RNA probe gave two hybridization bands. The PstI fragments of 6.6 kilobases were cloned to pBR322. The cloned DNA was characterized by restriction endonuclease mapping, DNA-RNA hybridization, and the R-loop technique.
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PMID:Study on rRNA genes in Mycobacterium smegmatis. 246 81

An in vitro assay system has been developed for the Halobacterium volcanii tRNA intron endonuclease using in vitro generated precursor RNAs. A partially purified enzyme preparation is capable of precise and accurate excision of the intron from the halobacterial tRNA(Trp) precursor. The cleavage reaction produces products having 5' hydroxyl and 2',3' cyclic phosphate termini. Processing of precursor molecules containing deletions within the exon regions indicates that the halobacterial endonuclease does not require intact mature tRNA structure in the substrate; this is in contrast to the eukaryotic endonuclease enzyme that has an absolute requirement for these structures. The large halobacterial tRNA(Trp) intron does not appear to be a primary site for recognition by the endonuclease, however, its removal affects cleavage efficiency. Through a comparison of the structural and sequence features of the halobacterial substrates and the precursors of other archaebacterial intron-containing precursors, a common element is proposed for the recognition of substrates by intron endonuclease.
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PMID:Transfer RNA intron processing in the halophilic archaebacteria. 247 Apr 86

FokI, a class-IIS restriction endonuclease, cleaves double-stranded DNA to produce a protruding 5' end consisting of four nucleotides, 10-13 residues 3' from the nonpalindromic recognition sequence, GGATG. Cassettes which utilize this separation of cleavage and recognition site have been constructed for the purpose of linker mutagenesis and DNA replacement experiments. The cassettes are flanked by FokI recognition sequences oriented such that the FokI cleavage sites are several nucleotides beyond the cassette/vector fusion sites. FokI excises the cassette and several base pairs of the neighboring vector sequence. The ends produced in the vector by FokI cleavage are generally noncomplementary and suitable for the insertion of a segment of synthesized double-stranded replacement DNA. A cassette which contains a tyrosine tRNA suppressor gene (supF) is selectable by the suppression of amber mutations in the recipient host. A vector containing a pBR322-derived origin of replication, the Escherichia coli xanthine-guanine phosphoribosyl transferase gene as a selectable marker, and no FokI sites has been constructed for use with the FokI cassettes. An experiment which utilized the FokI/supF cassette to modify the N-terminal coding region of the R388 dihydrofolate reductase gene is described.
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PMID:The use of a selectable FokI cassette in DNA replacement mutagenesis of the R388 dihydrofolate reductase gene. 282 Aug 44

Predicted single-stranded structure at the 3' splice site is a conserved feature among intervening sequences (IVSs) in eukaryotic nuclear tRNA precursors. The role of 3' splice site structure in splicing was examined through hexanucleotide insertions at a central intron position in the Saccharomyces cerevisiae tRNA gene. These insertions were designed to alter the structure at the splice site without changing its sequence. Endonuclease cleavage of pre-tRNA substrates was then measured in vitro, and suppressor activity was examined in vivo. A precursor with fully double-stranded structure at the 3' splice site was not cleaved by endonuclease. The introduction of one unpaired nucleotide at the 3' splice site was sufficient to restore cleavage, although at a reduced rate. We have also observed that guanosine at the antepenultimate position provides a second consensus feature among IVSs in tRNA precursors. Point mutations at this position were found to affect splicing although there was no specific requirement for guanosine. These and previous results suggest that elements of secondary and/or tertiary structure at the 3' end of IVSs are primary determinants in pre-tRNA splice site utilization whereas specific sequence requirements are limited.
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PMID:Intron sequence and structure requirements for tRNA splicing in Saccharomyces cerevisiae. 284 39

This paper describes the nucleotide sequences of three spontaneous mutations in a suppressor gene of phage T4 tRNA(Ser). They are duplications of the anticodon and variable arms of the tRNA(Ser) molecule. One is a 34-nucleotide direct repeat of the wild-type sequence. The remaining two have reciprocal structures, with each containing 35-nucleotide inverted and direct repeats of the wild-type sequence. One of the latter mutations is frequent and was present in multiple isolates. All three duplications are unstable, and several revertants of each were sequenced. Most of the revertants had the wild-type nucleotide sequence; however, one had imprecisely removed the duplicated residues, leaving four new nucleotides compared to the wild-type sequence. These mutations represent significant genetic events with regard to their high rates and their gross structural alterations. As to their origin, the mutations can be described as the end-products of endonuclease cleavage of DNA at regions of potential secondary structure and subsequent DNA synthesis. The secondary structure contains four base-paired stems that emerge from duplex DNA. These stems encode the anticodon and variable arm regions of the tRNA(Ser) molecule. The cleavage sites mimic the known substrate of T4 endonuclease VII, an enzyme previously noted for its ability to resolve Holliday-like DNA intermediates.
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PMID:Specific duplications fostered by a DNA structure containing adjacent inverted repeat sequences. 285 Oct 51

Yeast tRNA ligase, from Saccharomyces cerevisiae, is one of the protein components that is involved in the splicing reaction of intron-containing yeast precursor tRNAs. It is an unusual protein because it has three distinct catalytic activities. It functions as a polynucleotide kinase, as a cyclic phosphodiesterase, and as an RNA ligase. We have studied the binding interactions between ligase and precursor tRNAs containing two photoreactive uridine analogues, 4-thiouridine and 5-bromouridine. When irradiated with long ultraviolet light, RNA containing these analogues can form specific covalent bonds with associated proteins. In this paper, we show that 4-thiouridine triphosphate and 5-bromouridine triphosphate were readily incorporated into a precursor tRNA(Phe) that was synthesized, in vitro, with bacteriophage T7 RNA polymerase. The analogue-containing precursor tRNAs were authentic substrates for the two splicing enzymes that were tested (endonuclease and ligase), and they formed specific covalent bonds with ligase when they were irradiated with long-wavelength ultraviolet light. We have determined the position of three major cross-links and one minor cross-link on precursor tRNA(Phe) that were located within the intron and near the 3' splice site. On the basis of these data, we present a model for the in vivo splicing reaction of yeast precursor tRNAs.
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PMID:Binding interactions between yeast tRNA ligase and a precursor transfer ribonucleic acid containing two photoreactive uridine analogues. 285 71

Ty3, a retrotransposon of Saccharomyces cerevisiae, is found within 20 base pairs (bp) of the 5' ends of different tRNA genes. Determination of the complete nucleotide sequence of one Ty3 retrotransposon (Ty3-2) shows that the element is composed of an internal domain 4,748 bp long flanked by long terminal repeats of the 340-bp sigma element. Three open reading frames (ORFs) longer than 100 codons are present in the sense strand. The first ORF, TYA3, encodes a protein with a motif found in the nucleic acid-binding protein of retroviruses. The second ORF, TYB3, has homology to retroviral pol genes. The deduced amino acid sequence of the reverse transcriptase domain shows the greatest similarity to Drosophila retrotransposon 17.6, with 43% identical residues. The inferred order of functional domains within TYB3--protease, reverse transcriptase, and endonuclease--resembles the order in Drosophila element 17.6 and in animal retroviruses but is different from that found in yeast elements Ty1 and Ty2. A second Ty3 element (Ty3-1) from a standard laboratory strain was overexpressed and shown to transpose.
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PMID:Ty3, a yeast retrotransposon associated with tRNA genes, has homology to animal retroviruses. 285 94

A subcellular extract from Saccharomyces cerevisiae has been used to transcribe cloned yeast tRNA genes in vitro and to process the primary transcripts at the 5' and 3' termini. Chromatographic fractionation of the extract has separated the transcription components from two distinct nucleolytic activities: an endonuclease that cleaves the precursors to produce mature 5' termini; and a 3'-5' exonuclease. These fractions have been used to elaborate a processing pathway for the dimeric primary transcript of the yeast tRNAArg-tRNAAsp gene pair. Under optimal conditions in vitro this gene is expressed at a rate of 200 transcripts/gene/hour, initiating at position -10 with respect to the mature 5' terminus of tRNAArg and terminating near position +160. The primary transcripts are cleaved by an endonuclease to give tRNAAsp with a mature 5' terminus, and a pre-tRNAArg monomer with a 5' leader and 3' trailer sequences. A second endonuclease cleavage of pre-tRNAArg generates the mature 5' terminus of tRNAArg. The endonuclease cleavages are not ordered. Exonuclease activity(ies) remove the spacer sequences from the 5' mature tRNAArg, and trim the 3' trailer portion from tRNAAsp. Exonucleolytic removal of the 3' trailer does not require prior endonuclease action, but removal of the spacer sequences from pre-tRNAArg is incomplete without prior removal of the 5' leader sequences.
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PMID:Nucleolytic processing of a tRNAArg-tRNAAsp dimeric precursor by a homologous component from Saccharomyces cerevisiae. 298 39

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