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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)

Sucrose density gradient centrifugation and DNA/RNA hybridization have been used to analyse the mRNA synthesized from the ribosomal protein - RNA polymerase subunits gene cluster rplKAJL-rpoBC in Escherichia coli. DNA/RNA hybrids obtained from total E. coli RNA and specific DNA restriction fragments from this chromosomal area were further subjected to endonuclease S1 digestion. This analysis permits the mapping of the ends of mRNA molecules for specific genes or operons by sizing the S1 resistant hybrids. Our results show that the predominant mRNA synthesized under conditions of balanced growth from the rplKAJL-rpoBC region codes for the four ribosomal proteins L11, L1, L10 and L7/12. This tetracistronic mRNA puts the transcription of the following rpoBC genes under the main control of the L11 promoter. Smaller distinct mRNA species could also be detected by this technique. They originate from intercistronic transcription termination and re-initiation as well as from processing of the larger polycistronic mRNA.
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PMID:In vivo synthesis of a polycistronic messenger RNA for the ribosomal proteins L11, L1, L10 and L7/12 in Escherichia coli. 703 27

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

The chloroplast S10 ribosomal protein operon is partially duplicated in many plants because it initiates within the inverted repeat of the circular chloroplast genome. In spinach, the complete S10 operon (S10B) spans the junction between inverted repeat B (IRB) and the large single-copy (LSC) region. The S10 operon is partially duplicated in the inverted repeat A (IRA), but the sequence of S10A completely diverges from S10B at the junction of S10A and the LSC region. The DNA sequence shared by S10A and S10B includes trnI1, the rpl23 pseudogene (rpl23 psi), the intron-containing rpl2 and rps19, which is truncated in S10A at the S10A/LSC junction (rps19'). Transcription of rps19' from the promoter region of S10A could result in the synthesis of a mutant S19 protein. Analysis of RNA accumulation and run-on transcription from S10A and S10B using unique probes from the S10A/LSC and S10B/LSC junctions reveals that expression of S10A is reduced. The difference in S10A and S10B expression appears to be the result of reduced transcription from S10A, rather than differences in RNA stability. Transcription of S10B can initiate at three distinct promoter regions, P1, P2 and P3, which map closely to transcripts detected by S1 nuclease analysis. P1 is located upstream of trnI1 and has the highest transcription initiation frequency in vitro of the three promoter regions. The DNA sequence of P1 is most similar to the chloroplast promoter consensus DNA sequence. Interference by the highly and convergently transcribed psbA-trnH1 operon is considered as a mechanism to explain the reduced activity of the S10A promoters.
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PMID:Differential expression of the partially duplicated chloroplast S10 ribosomal protein operon. 823 97

We have cloned and sequenced the nuclear gene of the chloroplast ribosomal protein L21 (rpl21) of Spinacia oleracea. The gene consists of five exons and four introns. All introns are located in the sequence which corresponds to the Escherichia coli-like central core of the protein. L21 mRNA is present in photosynthetic (leaves) and nonphotosynthetic (roots and seeds) plant organs, although large quantitative differences exist. Primer extension and S1 nuclease mapping experiments revealed the existence of two types of transcripts in leaves. The two corresponding start sites were defined as P1 and P2. In roots and seeds, we found only the shorter of the two transcripts (initiated at P2). The nucleotide sequence surrounding P2 resembles promoters for housekeeping and vertebrate r-protein genes. Analysis of several promoter constructions by transient expression confirmed that both transcripts originate from transcription initiation. Results are interpreted to mean that the expression of the rpl21 gene is regulated by alternative promoters. One of the promoters (P2) is constitutive, and the other one (P1) is specifically induced in leaves, i.e., its activation should be related to the transformation of amyloplasts or proplastids to chloroplasts. The gene thus represents the first example of a housekeeping gene which is regulated by the organ-specific usage of alternative promoters. Primer extension analysis and S1 nuclease mapping of another nucleus-encoded chloroplast ribosomal protein gene (rps1) give evidence that the same type of regulation by two-promoter usage might be a more general phenomenon of plant chloroplast-related ribosomal protein genes. Preliminary results indicate that presence of conserved sequences within the rpl21 and rps1 promoter regions which compete for the same DNA binding activities.
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PMID:Structure and expression of the nuclear gene coding for the chloroplast ribosomal protein L21: developmental regulation of a housekeeping gene by alternative promoters. 845 34

The DNA sequence of the promoter region of the Mycobacterium smegmatis rpsL gene, which encodes the S12 ribosomal protein, was determined. Primer extension analysis and S1 nuclease protection experiments identified the 5' end of the rpsL mRNA to be 199 bp upstream of the translation initiation codon. The rpsL promoter contained sequences upstream of this start point for transcription that were similar to the canonical hexamers found at the -10 and -35 regions of promoters recognized by Esigma70, the major form of RNA polymerase in Escherichia coli. To define the promoter of the rpsL gene, DNA fragments containing progressive deletions of the upstream region of the rpsL gene were inserted into a plasmid vector containing a promoterless xylE gene. These insertions revealed that the 200 bp of DNA sequence immediately upstream from the translation initiation codon was not essential for promoter function. In addition, 5' deletions removing all but 34 bp upstream of the transcription start point retained greater than 90% promoter activity, suggesting that the -35 hexamer was not essential for promoter activity. To determine which nucleotides were critical for promoter function, oligonucleotide-directed mutagenesis and mutagenic PCR amplification were used to produce point mutations in the region upstream of the start point of transcription. Single base substitutions in the -10 hexamer, but not in the -35 hexamer, severely reduced rpsL promoter activity in vivo. Within the -10 hexamer, nucleotide substitutions causing divergence from the E. Coli sigma70 consensus reduced promoter activity. The DNA sequence immediately upstream from the - 10 hexamer contained the TGn motif described as an extended -10 region in prokaryotic promoters. Mutations in this motif, in combination with a transition at either the -38 or -37 position within the -35 hexamer, severely reduced promoter activity, indicating that in the absence of a functional -35 region, the rpsL promoter is dependent on the TGn sequence upstream from the -10 hexamer. Comparison of the nucleotide sequence of the rpsL promoter region of M. smegmatis with the homologous sequences from Mycobacterium leprae, Mycobacterium bovis, and Mycobacterium tuberculosis showed the presence in these slowly growing mycobacterial species of conserved promoter elements a similar distance upstream of the translation initiation codon of the rpsL gene, but these other mycobacterial promoters did not contain the extended -10 motif.
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PMID:Genetic analysis of the Mycobacterium smegmatis rpsL promoter. 865 55

The tsf genes from Streptomyces coelicolor A3(2) and Streptomyces ramocissimus, encoding the guanine-nucleotide exchange factor EF-Ts, were cloned and sequenced. Streptomycetes have multiple and highly divergent EF-Tu species, with EF-Tu1 and EF-Tu3 showing only about 65% amino acid sequence identity, and yet these can apparently interact with a single EF-Ts species. tsf lies in an operon with rpsB, which encodes ribosomal protein S2. The amino acid sequence of S2 from S. coelicolor differs from most other bacterial S2 homologues in having a C-terminal extension of 70 aa residues with a highly repetitive organization, the function of which is unknown. Transcription analysis of the rpsB-tsf operon of S. coelicolor by promoter probing, nuclease S1 mapping and Northern blotting revealed that the genes give rise to a bicistronic transcript from a single promoter upstream of rpsB. An attenuator was identified in the rpsB-tsf intergenic region; it results in an approximately 2:1 ratio of rpsB vs tsf transcripts. Although tuf1, encoding the major EF-Tu, is located in the rpsL ribosomal protein operon, an additional promoter in the fus-tuf1 intergenic region leads to a significant excess of EF-Tu over ribosomes. Most amino acid residues known from the Escherichia coli crystal structure of the EF-Tu-EF-Ts complex to be directly involved in interaction between the two elongation factors are conserved between E. coli and Streptomyces. However, whenever interaction residues in the EF-Tu moiety show divergence among Streptomyces EF-Tu1, EF-Tu2 and EF-Tu3, the single Streptomyces EF-Ts exhibits compensatory substitutions of the corresponding residues. These apparently enable productive interaction to occur with all three EF-Tus.
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PMID:Evidence that a single EF-Ts suffices for the recycling of multiple and divergent EF-Tu species in Streptomyces coelicolor A3(2) and Streptomyces ramocissimus. 1051 82

In Chlamydomonas reinhardtii, the origin for chloroplast DNA replication, Ori A, overlaps the coding region for the chloroplast ribosomal protein Rpl16. In an in vitro DNA replication system that uses cloned Ori A as template, alteration of transcription across rpl16 affects replication activity. S1 nuclease protection mapping of cellular RNA derived from this region revealed multiple 5' and 3' ends, and several 3' ends were mapped within mini Ori A (224 bp), the core region for replication initiation. We also demonstrated that the protein fraction used in the in vitro DNA replication system contained an RNA processing activity responsible for the generation of multiple 3' ends. The 3' ends of some of the processed RNA species coincided with those of the cellular transcripts. Initiation of DNA replication in the in vitro system changed the abundance of some of the processed RNA species, and the S1 nuclease protection pattern generated by the 3' ends now mimicked that of the in vivo transcripts. We also monitored the pattern of 3' ends in cellular transcripts from the rpl16 region during gametogenesis--when the chloroplast DNA is under-replicated--and detected a change in transcript abundance that correlated with that seen in the in vitro study. Measurements of the template activity of mutants with targeted sequences change near the sites of processing also supported the notion that the processed transcripts play an important role in DNA replication.
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PMID:The effects of transcription and RNA processing on the initiation of chloroplast DNA replication in Chlamydomonas reinhardtii. 1077 51

A cluster of six genes, tRNA(Trp)-secE-nusG-rplK-rplA-pkwR, was cloned and sequenced from a Corynebacterium glutamicum cosmid library and shown to be contiguous in the C. glutamicum genome. These genes encode a tryptophanyl tRNA, the protein translocase component SecE, the antiterminator protein NusG, and the ribosomal proteins L11 and L1 in addition to PkwR, a putative regulatory protein of the LacI-GalR family. S1 nuclease mapping analysis revealed that nusG and rplK are expressed as separate transcriptional units and rplK and rplA are cotranscribed as a single mRNA. A 19-nucleotide inverted repeat that appears to correspond to a transcriptional terminator was located in the 3' region downstream from nusG. Northern analysis with different probes confirmed the S1 mapping results and showed that the secE-rplA four-gene region gives rise to four transcripts. secE was transcribed as a 0.5-kb monocistronic mRNA, nusG formed two transcripts of 1.4 and 1.0 kb from different initiation sites, and the two ribosomal protein genes rplK and rplA were cotranscribed as a single mRNA of 1.6 kb. A consensus L1 protein binding sequence was identified in the leader region of the rplK-rplA transcript, suggesting that expression of the rplK-rplA cluster was regulated by autogenous regulation exerted by the L1 protein at the translation level. The promoters of the nusG and rplK-rplA genes were subcloned in a novel corynebacterial promoter-probe vector and shown to confer strong expression of the reporter gene.
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PMID:Organization and transcriptional analysis of a six-gene cluster around the rplK-rplA operon of Corynebacterium glutamicum encoding the ribosomal proteins L11 and L1. 1131 98


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