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)

We report here on the genomic organization and expression of a nuclear gene coding for a plastid ribosomal protein. The gene encodes the plastid-specific ribosomal protein S22 (formerly named CS-S5). Southern blot analysis suggests that the gene is present in one copy in the spinach genome. The gene consists of 5 exons of sizes ranging from 108 to 273 bp and of 4 introns of 1410, 92, 386 and 82 bp. The exon-intron splice junctions and intron branch sites fit well the consensus sequences for plant introns. The major transcription start site has been determined 29 bp upstream of the AUG initiation codon by primer extension and S1 nuclease mapping. No canonical TATA box is found but some other possible promoter motifs are observed. Transcripts are detected in leaves, etiolated leaves, roots and seeds suggesting that the rps22 gene is expressed constitutively. During germination a marked increase in the relative steady-state level of the mRNA can be seen as soon as 24 h after imbibition of the seeds.
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PMID:Organization and expression of the nuclear gene coding for the plastid-specific S22 ribosomal protein from spinach. 173 92

The relationship between global RNA transcription capacity and transcript initiation, attenuation, and stability in the rplKAJLrpoBC operon of Escherichia coli has been examined. The rplKAJLrpoBC operon encodes in order the four large ribosome subunit proteins, L11, L1, L10, and L12, and the two large beta and beta' subunits of RNA polymerase. Operon transcripts are initiated at two promoters, PL11 and PL10. The L12-beta intergenic space contains a transcription attenuator which, during balanced growth, terminates about 80% of the transcripts exiting the L12 gene; the remaining transcripts read through into the beta and beta' encoding genes. The capacity for global transcription initiation was modulated using a strain carrying a temperature-sensitive, initiation-defective mutation in rpoC. Following a shift to 39 degrees C, the global transcription initiation capacity was reduced to about one-half the level at 30 degrees C. This partial restriction resulted in a decrease in the stability of distal beta mRNA, whereas the stability of proximal L11-L1 and L10-L12 mRNA was not changed. Measurements of the synthesis rates of L11-L1, L10-L12, and beta mRNAs relative to total RNA synthesis indicated that this operon was selectively transcribed when the initiation capacity of RNA polymerase was limited. The synthesis rates of L11-L1 and L10-L12 mRNA increased about 2-fold, whereas the synthesis rate of beta mRNA increased nearly 5-fold. The relative transcription of other ribosome component genes and the alpha subunit gene exhibited only a modest increase during the partial restriction. Protection from S1 nuclease was used to demonstrate that the preferential transcription within the operon of beta mRNA was the consequence of active regulation of termination-antitermination at the attenuator structure in the L12-beta intergenic space. These results demonstrate that global transcription capacity may be an important parameter in determining both initiation and attenuation of transcription of the rplKAJLrpoBC ribosomal protein-RNA polymerase operon.
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PMID:RNA polymerase activity may regulate transcription initiation and attenuation in the rplKAJLrpoBC operon in Escherichia coli. 198 49

In order to determine the biological functions of moderately abundant, high mobility group (HMG)-like nuclear proteins, a genetic approach has been taken. The gene for one such protein, NHP2, has been cloned and characterized from Saccharomyces cerevisiae. NHP2 has been called 'HMG-like' because of the physical/chemical properties it shares with the HMG proteins from higher eukaryotic cells. However, nucleotide sequence analysis revealed that NHP2 could encode a 17.1 kilodalton basic protein which was not significantly homologous to any previously sequenced HMG proteins. Thus NHP2 defines a new member of the HMG class of proteins. A search of protein databases showed that the amino acid sequence of NHP2 shared significant identities with two ribosomal proteins; the acidic ribosomal protein S6 from Halobacterium marismorium and protein L7a from mammals. The biological relevance of these homologies is unclear since previous biochemical results indicated that NHP2 was not a ribosomal protein. S1 nuclease analysis indicated that the gene contained no introns but had multiple transcription initiation sites 20 to 40 bases before the ATG codon. Finally, NHP2 has been shown to have a critical role in the cell; when a diploid yeast strain deleted of one copy of the NHP2 gene was sporulated and dissected, only half of the spores grew into normal colonies. The rest of the spores germinated, but only formed microcolonies containing 12 to 40 cells. None of the spores which grew into normal-sized colonies contained the mutant NHP2 gene, thus demonstrating that the NHP2 protein has an essential physiological function.
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PMID:Sequence and genetic analysis of NHP2: a moderately abundant high mobility group-like nuclear protein with an essential function in Saccharomyces cerevisiae. 206 28

We have investigated the transcription patterns at the inter-operon regions between the S10 and spc, and spc and alpha ribosomal protein operons of Escherichia coli. Newly synthesized transcripts were characterized by RNase T1 protection experiments, and accumulated transcripts were mapped with S1 nuclease. With both techniques we found that about 75% of the RNA polymerases transcribing the S10 operon terminated at the position of a typical rho-independent terminator. In contrast, most or all RNA polymerases transcribing the spc operon continued into the alpha operon. Nevertheless, we observed that about 30% of the transcripts of the alpha operon were initiated at the alpha operon promoter.
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PMID:Transcriptional organization of the S10, spc and alpha operons of Escherichia coli. 220 63

We have investigated the heat shock response in the mouse pneumonitis strain of Chlamydia trachomatis. The kinetics of the chlamydial heat shock response resembled that of other procaryotes: the induction was rapid, occurring over a 5- to 10-min time period, and was regulated at the level of transcription. Immunoblot analysis and immunoprecipitations with heterologous antisera to the heat shock proteins DnaK and GroEL demonstrated that the rate of synthesis, but not the absolute amount of these two proteins, increased after heat shock. Using a general screen for genes whose mRNAs are induced by heat shock, we identified and cloned two of these. DNA sequence analysis demonstrated that one of the genes is a homolog of dnaK. Further sequence analysis of the region upstream of the dnaK gene revealed that the chlamydial homolog of the grpE gene is located just adjacent to the dnaK gene. The second locus encoded three potential nonoverlapping open reading frames. One of the open reading frames was 52% homologous to the ribosomal protein S18 of Escherichia coli and thus presumably encodes the chlamydial homolog. Interestingly, this ribosomal protein is not known to be induced by heat shock in E. coli. S1 nuclease and primer extension analyses located the start site of the dnaK transcript to the last nucleotide of the grpE coding sequence, suggesting that these two genes, although tandemly arranged, are transcribed separately. No promoter sequences resembling the E. coli consensus heat shock promoter could be identified upstream of either the C. trachomatis dnaK, grpE, or S18 gene. The induction of the dnaK and S18 mRNAs by heat shock occurred at a transcriptional level; their induction could be blocked by rifampin. The mechanisms of induction for these two loci were not the same, however; they were differentially sensitive to chloramphenicol. Whereas the induction of dnaK mRNA required de novo protein synthesis, the induction of the S18 mRNA did not. Thus, C. trachomatis utilizes at least two different pathways to induce the transcription of mRNAs encoding proteins induced in the heat shock response.
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PMID:Heat shock response of murine Chlamydia trachomatis. 225 67

Transcripts from the rplKAJL-rpoBC ribosomal protein-RNA polymerase gene cluster have been quantified and their ends mapped using RNA-DNA hybridization, sucrose density-gradient sedimentation, Northern hybridization and S1 nuclease protection. The results indicate that the most abundant transcript is the 2600 nucleotide tetracistronic L11-L1-L10-L12 mRNA initiated at the upstream major PL11 promoter and terminated at the transcription attenuator in the L12-beta intergenic space. Somewhat less abundant 1300 nucleotide L11-L1 and L10-L12 bicistronic transcripts were observed. The 3' ends of the L11-L1 transcripts were heterogeneous; most of the ends were localized to three sites within a 110 base-pair region in the L1-L10 intergenic space. This intergenic space encodes also the major PL10 promoter and the mRNA binding site for the L10 translational control protein. Two 5' ends were observed for L10-L12 bicistronic mRNA, one at the PL10 promoter and the other 150 nucleotides further downstream in a region in which promoter activity has not been detected. It is suggested that this second downstream 5' end is generated by processing of the transcripts initiated at the major PL10 promoter. No transcript initiation in the L10-L12 intergenic space was detected. About 80% of the transcripts reading through the L12 gene were terminated in the vicinity of the transcription attenuator that is responsible for the reduction in the expression of the downstream RNA polymerase genes. Transcripts reading through the attenuator were partially processed by RNase III within a potential hairpin structure in the RNA transcript. Processing appears to produce 3' and 5' transcript end sites separated by about ten nucleotides. No other major 5' ends were observed in the L12-beta intergenic space. These results indicate that the two major promoters, PL11 and PL10, are both utilized to drive the interrelated transcriptional expression of this ribosomal protein-RNA polymerase gene cluster.
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PMID:Transcription products from the rplKAJL-rpoBC gene cluster. 244 6

We have isolated clones representing at least three nuclear genes for mitochondrial ribosomal proteins from Neurospora crassa by screening a lambda gt11 cDNA library with an antiserum against a mixture of these proteins. The cDNA and genomic DNA sequence for one of these genes, mrp-3, was determined. The MRP3 protein was purified by immune-affinity chromatography, using a monoclonal antibody probe, and subjected to amino acid sequence analysis to identify the mature amino terminus and a prospective mitochondrial-targeting presequence. MRP3 was identified as the largest, least basic protein detected from the small subunit of ribosomes which had been salt-washed and fractionated on sucrose gradients. However, the mRNA and protein products of mrp-3 were found to be present in excess over those of other N. crassa mitoribosomal protein genes. Using a solution hybridization/S1 nuclease assay, we found three-fold- more mRNA for mrp-3 than for another mito-ribosomal protein gene. In addition, a 30- to 50-fold excess of non-ribosomal MRP3 protein was discovered. The additional protein was localized in mitochondrial membrane fractions; none was detected in matrix fractions after removal of the ribosomes. An immunologically related protein was detected in ribosome and membrane fractions of mitochondria from Saccharomyces cerevisiae. The functional significance of this dual localization remains an enigma.
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PMID:A mitochondrial protein from Neurospora crassa detected both on ribosomes and in membrane fractions. Analysis of the gene, the message, and the protein. 252 Dec 17

The organisation and expression of the rpl22, rps3, rpl16 and rpl14 genes, which belong to the S10- and spc-like operons of spinach chloroplasts, have been studied. Northern experiments and nuclease S1 mapping show that the two operon-like groups of genes are cotranscribed. It is demonstrated that the intron-containing rpl16 gene is spliced in vivo. Based on amino acid composition and protein sequence data, the products of the rpl22, rpl16 and rpl14 genes are identified respectively as the spinach chloroplast ribosomal proteins CS-L13, CS-L24 and CS-L29. The rpl22 gene product is a 5S rRNA binding protein and therefore is distinguishable from the homologous Escherichia coli L22 ribosomal protein.
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PMID:Cotranscription of the S10- and spc-like operons in spinach chloroplasts and identification of three of their gene products. 274 23

The genes coding for threonyl-tRNA synthetase (thrS), translation initiation factor 3 (infC) and ribosomal protein L20 (rplT) are clustered in the Escherichia coli genome. Previous studies had suggested the possibility that the expression of these genes is coupled. The transcriptional events in this operon have now been examined by S1 nuclease mapping and promoter fusion studies. The results indicate that infC-containing mRNAs are initiated from three separate promoters. Two of these are located in the protein-coding region of thrS and one, P12, is the major promoter at all growth rates tested. In addition, there is co-transcription of thrS and infC from the thrS promoter (PT). A single promoter for thrS has been mapped approx. 170 nucleotides upstream from its translation initiation site. Another promoter has been located within the infC-coding region. It is separated from the next downstream gene, rplT, by a transcription end point. However, termination at this region is only 50-70% efficient and transcripts starting at this promoter can read through into rplT. These findings demonstrate that the pattern of transcription in this operon is highly complex and the mRNA levels for each of the genes is determined by a variety of factors, including multiple promoters, co-transcription and readthrough of transcription termination signals.
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PMID:Transcriptional patterns for the thrS-infC-rplT operon of Escherichia coli. 283 94

The nucleotide sequence of a Spirodela chloroplast DNA fragment, which directs the synthesis of a approximately 15 kD chloroplast ribosomal protein in an E. coli cell free system, has been determined. The deduced aminoacid sequence of the open reading frame shows extensive homology with E. coli ribosomal protein L16. Primer extension analysis, S1 nuclease mapping and nucleotide sequence analysis indicate that the chloroplast L16 gene (rpl16) is interrupted by a 1411 bp intron, which separates a short 5' exon from a large 3' exon. The shorter in vitro synthesized ribosomal protein results from an artificial initiation event at an internal ATG codon in the 3' exon. The sequences at the 5' and 3' splice sites of the intron are similar to consensus sequences described for other, class II intron containing, protein coding chloroplast genes. Northern hybridization experiments reveal 6 stable transcripts of rpl16 ranging from 500 b to greater than 4000 b. As determined by S1 nuclease mapping, the 3'-end of the smallest transcript maps exactly after the stem of a proposed termination signal. Finally, the implications of the finding of a cluster of several chloroplast ribosomal protein genes and possible polycistronic transcription of this chloroplast DNA region, are discussed in relation to the organization and expression of ribosomal protein genes found in the S10 operon of E. coli.
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PMID:The gene for Spirodela oligorhiza chloroplast ribosomal protein homologous to E. coli ribosomal protein L16 is split by a large intron near its 5' end: structure and expression. 301 Feb 29

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