EC:3.1.30.1 - FACTA Search

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Query: EC:3.1.30.1 (S1 nuclease)
3,660 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The genes for translational components frequently are located together on the Escherichia coli genome. We have reported previously that the gene for a serine tRNA lies directly downstream from infA, the gene encoding initiation factor IF1. Here we characterize this tRNA gene, named serW. The serW gene expresses a minor form of serine tRNA(GGA) which recognizes the most frequently used serine codons, UCC and UCU. Two promoters were identified by S1 nuclease mapping: P1, which lies about 72 bp upstream from the structural gene; and P2, which lies about 35 bp upstream. Expression from P1 and P2 is comparable under conditions of rapid growth. The P2 promoter is followed by a GC-rich element characteristic of promoters regulated by ppGpp. A putative hairpin structure followed by a stretch of U residues about 25 nucleotides following the mature tRNA sequence resembles a rho-independent termination signal. The upstream gene, infA, is followed by a transcriptional terminator, but S1 mapping shows considerable readthrough. This serW expression appears to rely both on its own promoters and on promoters further upstream. The downstream gene, encoding an unidentified protein of about 100 kDa, is expressed in the opposite orientation and also is followed by a termination signal. Therefore serW is expressed both as a monocistronic gene and in combination with infA.
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PMID:Characterization and expression of a gene encoding serine tRNA5 from Escherichia coli. 751 57

By using a combination of Northern blot hybridization with strand-specific DNA probes, S1 nuclease protection, and sequencing of oligo-dT-primed cDNA clones, we have identified a 0.8 kb poly(A)-containing RNA encoded by the H-strand of the mouse mitochondrial D-loop region. The 5' end of the RNA maps to nucleotide 15417, a region complementary to the start of tRNA(Pro) gene and the 3' polyadenylated end maps to nucleotide 16295 of the genome, immediately upstream of tRNA(Phe) gene. The H-strand D-loop region encoded transcripts of similar size are also detected in other vertebrate systems. In the mouse, rat, and human systems, the 3' ends of the D-loop encoded RNA are preceded by conserved sequences AAUAAA, AAUUAA, or AACUAA, that resemble the polyadenylation signal. The steady-state level of the RNA is generally low in dividing or in vitro cultured cells, and markedly higher in differentiated tissues like liver, kidney, heart, and brain. Furthermore, an over 10-fold increase in the level of this RNA is observed during the induced differentiation of C2C12 mouse myoblast cells into myotubes. These results suggest that the D-loop H-strand encoded RNA may have yet unknown biological functions. A 20 base pair DNA sequence from the 3' terminal region containing the conserved sequence motif binds to a protein from the mitochondrial extracts in a sequence-specific manner. The binding specificity of this protein is distinctly different from the previously characterized H-strand DNA termination sequence in the D-loop or the H-strand transcription terminator immediately downstream of the 16S rRNA gene. Thus, we have characterized a novel poly(A)-containing RNA encoded by the H-strand of the mitochondrial D-loop region and also identified the putative ultimate termination site for the H-strand transcription.
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PMID:Identification of a stable RNA encoded by the H-strand of the mouse mitochondrial D-loop region and a conserved sequence motif immediately upstream of its polyadenylation site. 753 62

The rrnA ribosomal RNA (rRNA) operon of Campylobacter jejuni (Cj) TGH9011 (ATCC43431) was cloned and sequenced to completion. rRNAs were then characterized by primer extension and S1 nuclease mapping analysis. The secondary structure models of Cj 16S and 23S rRNAs were constructed, and the models were compared to the corresponding models from other eubacterial rRNA. The analysis presented a typical 5'-promoter-16S-tRNAs-23S-5S-terminator-3' prokaryotic rRNA operon structure. However, an unusual organization of the intercistronic tRNAs was observed where the two tRNAs, tRNA(Ala) and tRNA(Ile), were present in the order 5'-16S-tRNA(Ala)-tRNA(Ile)-23S-3', which is opposite of the typical 5'-16S-tRNA(Ile)-tRNA(Ala)-23S-3' structure observed in other bacteria.
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PMID:Complete sequences and organization of the rrnA operon from campylobacter jejuni TGH9011 (ATCC43431). 759 Feb 96

Production of actinorhodin, a polyketide antibiotic made by Streptomyces coelicolor A3(2), normally occurs only in stationary-phase cultures. S1 nuclease protection experiments showed that transcription of actII-ORF4, the activator gene required for expression of the biosynthetic structural genes, increased dramatically during the transition from exponential to stationary phase. The increase in actII-ORF4 expression was followed by transcription of the biosynthetic structural genes actIII and actVI-ORF1, and by the production of actinorhodin. The presence of actII-ORF4 on a multicopy plasmid resulted in enhanced levels of actII-ORF4 mRNA, and transcription of actIII and actinorhodin production during exponential growth, suggesting that actinorhodin synthesis in rapidly growing cultures is normally limited only by the availability of enough of the activator protein. bldA, which encodes a tRNA(Leu)UUA that is required for the efficient translation of a single UUA codon in the actII-ORF4 mRNA, was transcribed throughout growth. Moreover, translational fusions of the 5' end of actII-ORF4 that included the UUA codon to the ermE reporter gene demonstrated the presence of functional bldA tRNA in young, exponentially growing cultures and no increase in the efficiency of translation of UUA codons, relative to UUG codons, was observed during growth. The normal growth-phase-dependent production of actinorhodin in the liquid culture conditions used in these experiments appears to be mediated at the transcriptional level through activation of the actII-ORF4 promoter.
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PMID:Stationary-phase production of the antibiotic actinorhodin in Streptomyces coelicolor A3(2) is transcriptionally regulated. 768 65

Eukaryotic initiation factor (eIF) 1A (formerly called eIF-4C) is a small protein that promotes dissociation of 80 S ribosomes into subunits, stabilizes methionyl-tRNA binding to 40 S ribosomal subunits, and is required for the binding of mRNA to ribosomes. The sequence of eIF-1A derived from its cloned cDNA possesses a high frequency of basic residues and acidic residues at its N and C termini, respectively. Northwestern blotting with a fragment of mRNA indicates that eIF-1A binds RNA. Overexpression of the human eIF-1A cDNA in Escherichia coli and subsequent purification enabled us to prepare large quantities of active factor. The level of eIF-1A in HeLa cells determined by Western immunoblotting is 0.01% of total protein, which corresponds to 0.2 molecules of eIF-1A/ribosome. The moderate abundance means that eIF-1A is equal to or in excess of native 40 S subunits and suggests that the factor may not be limiting for protein synthesis, a conclusion reinforced by the failure of overproduced eIF-1A to stimulate translation rates in transiently transfected COS-1 cells. S1 nuclease protection and primer extension analyses show that eIF-1A mRNA possesses an unusually long 5'-untranslated leader that is very G/C-rich (72%). Unexpectedly, the mRNA is efficiently translated in HeLa cells as judged by polysome profile analyses.
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PMID:Protein synthesis initiation factor eIF-1A is a moderately abundant RNA-binding protein. 789 Jul 5

The polycistronic mRNA of the histidine operon is subject to a processing event that generates a rather stable transcript encompassing the five distal cistrons. The molecular mechanisms by which such a transcript is produced were investigated in Escherichia coli strains carrying mutations in several genes for exo- and endonucleases. The experimental approach made use of S1 nuclease protection assays on in vivo synthesized transcripts, site-directed mutagenesis and construction of chimeric plasmids, dissection of the processing reaction by RNA mobility retardation experiments, and in vitro RNA degradation assays with cellular extracts. We have found that processing requires (1) a functional endonuclease E; (2) target site(s) for this activity in the RNA region upstream of the 5' end of the processed transcript that can be substituted by another well-characterized rne-dependent cleavage site; (3) efficient translation initiation of the first cistron immediately downstream of the 5' end; and (4) a functional endonuclease P that seems to act on the processing products generated by ribonuclease E. This is the first evidence that ribonuclease P, an essential ribozyme required for the biosynthesis of tRNA, may also be involved in the segmental stabilization of a mRNA.
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PMID:Ribonuclease E provides substrates for ribonuclease P-dependent processing of a polycistronic mRNA. 800 21

The chloroplast genome of Euglena gracilis contains a psaA operon which encodes a lysine tRNA gene, trnK; psaA and psaB photosystem I genes, and psbE, psbF, psbL and psbJ photosystem II genes. The pre-mRNA of the psaA operon undergoes a complex processing pathway of 5' and 3' tRNA processing, splicing of 11 group II introns and one group II twintron, plus three intercistronic RNA cleavage events. The accumulated transcripts of the psaA operon have been characterized by Northern hybridization, S1 nuclease analysis and primer extension RNA sequencing. The mature 5' end of the psaA-psaB-psbE-psbF-psbL-psbJ hexacistronic transcript lies 8 nt downstream of the trnK gene, and is the result of intercistronic trnK-psaA cleavage. Other intercistronic processing events occur between the psaA and psaB genes and the psaB and psbE genes. Processing at the latter site produces a dicistronic mRNA of PSI genes and a tetracistronic mRNA of PSII genes. The PSI dicistronic transcript is further processed to monocistronic psaA and psaB mRNAs. Secondary structural motifs within the intercistronic regions may be recognition sites for processing. The steady-state levels of psaA operon mRNAs from Euglena grown under several different conditions have been determined. Accumulated transcripts from all growth conditions are spliced, and a proportion are also processed at the intercistronic sites. The products of intercistronic processing increase from heterotrophic dark- to heterotrophic light-grown Euglena, and from heterotrophic light- to photoautotrophic light-grown Euglena. The differential accumulation of psaA operon mRNAs may be a means of chloroplast gene regulation or, alternatively, a consequence of gene expression during chloroplast development.
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PMID:The psaA operon pre-mRNA of the Euglena gracilis chloroplast is processed into photosystem I and II mRNAs that accumulate differentially depending on the conditions of cell growth. 814 79

Structural differences between native (modified) and in vitro transcribed (unmodified) Escherichia coli tRNA(Val) were explored by comparing their temperature-absorbance profiles as a function of magnesium ion concentration and by probing their solution conformation with single- and double-strand-specific endonucleases. In vitro transcribed tRNA(Val) has a less ordered structure as monitored by thermal melting profiles; its Tm is appreciably lower than that of native tRNA(Val) at all Mg2+ concentrations. Structure probing experiments with nuclease S1 and ribonuclease V1 show that the unmodified tRNA(Val) transcript is more susceptible to nuclease attack at low Mg2+ concentrations, particularly in the D- and T-loops, indicative of at least a partial disruption of D-loop/T-loop interactions. These experiments also provide evidence for temperature-dependent alternative conformations of the anticodon loop of native tRNA(Val). Modified nucleosides are essential for the stability of these conformers; they cannot be detected in the unmodified in vitro transcript. The observations suggest that post-transcriptional modifications in tRNA allow the adoption of unique conformations and act to stabilize those that are biologically active.
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PMID:Probing structural differences between native and in vitro transcribed Escherichia coli valine transfer RNA: evidence for stable base modification-dependent conformers. 817 44

A 54 kDa protein from mustard chloroplasts was previously shown to interact specifically with a conserved U-rich sequence element in RNA derived from the 3' flanking regions of the plastid trnK and rps16 genes, which code for tRNA(Lys) and ribosomal protein CS19, respectively (Nickelsen and Link, 1991). This RNA-binding protein has now been purified by affinity chromatography on heparin Sepharose and poly(U) Sepharose. In vitro processing experiments and nuclease S1 analyses of the processing products revealed that the 54 kDa polypeptide is an endonuclease. The in vitro cleavage sites are consistent with the positions of corresponding transcript in vivo 3' ends downstream of trnK and rps16, suggesting that RNA 3' end formation takes place endonucleolytically also in vivo.
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PMID:The 54 kDa RNA-binding protein from mustard chloroplasts mediates endonucleolytic transcript 3' end formation in vitro. 822 Apr 60

In the thermophilic archaeon Methanobacterium thermoautotrophicum Marburg, the structural gene for isoleucyl-tRNA synthetase (ileS) is flanked upstream by orf401 and downstream by purL. orf401 encodes a 43.5-kDa protein with an unknown function. Northern (RNA) hybridization and S1 nuclease protection experiments showed that the orf401, ileS, and purL genes are cotranscribed from an archael consensus promoter in front of orf401. The corresponding transcript was about eightfold increased in cells that had been exposed to pseudomonic acid A, a specific inhibitor of isoleucyl-tRNA synthetase. Growth inhibition by puromycin, tryptophan starvation, or starvation for hydrogen did not affect the level of this transcript. The level of a trpE transcript, however, was drastically elevated upon tryptophan starvation, while inhibition by pseudomonic acid A had no effect on the level of this transcript. Expression of ileS thus appears to be controlled by a regulatory mechanism which specifically responds to the availability of isoleucyl-tRNA. Extensive decay of the orf401-ileS-purL message was observed. Degradation occurred, presumably by endonucleolytic cleavage, within the orf401 region.
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PMID:Transcription of the ileS operon in the archaeon Methanobacterium thermoautotrophicum Marburg. 837 40

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