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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 genomic region encoding the assembly protein of simian cytomegalovirus (CMV) strain Colburn has been cloned, sequenced, and found to be organized as a nested set of four in-frame, 3'-coterminal genes, each with its own TATA promoter element and translational start codon, and all using a single 3' polyadenylation signal. The 3' end of the longest open reading frame (1.770 bp) was identical to the 930-bp sequence coding for the assembly protein precursor, as determined from a cDNA clone. The assembly protein coding region of human CMV strain AD169 was similarly organized, suggesting that both viral genomes could give rise to four independently transcribed 3'-coterminal RNAs coding for four overlapping, in-frame, carboxy-coterminal proteins. These predictions were tested and confirmed. Four mRNAs corresponding in size and sequence to those predicted were identified in both human and simian CMV-infected cells by using transcript-specific antisense oligonucleotide probes in Northern (RNA blot) assays. The 5' ends of the three largest of these Colburn transcripts were determined by S1 nuclease protection assays and found to map between the anticipated TATA sequences and corresponding translational start codons. The four predicted overlapping proteins were identified by immunoassays in lysates of simian and human CMV-infected cells by using an antiserum specific for the carboxyl end of the assembly protein precursor. The structural relationship of both sets of proteins was verified by comparing their peptide patterns following protein cleavage at tryptophan residues by N-chlorosuccinimide. The similar organization of the homologous coding regions in other herpesviruses into at least two nested, in-frame, 3'-coterminal genes is discussed.
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PMID:Cytomegalovirus assembly protein nested gene family: four 3'-coterminal transcripts encode four in-frame, overlapping proteins. 164 17

We determined the DNA sequence of the Rhizobium meliloti gene encoding anthranilate synthase, the first enzyme of the tryptophan pathway. Sequences similar to those seen for the two subunits of the enzyme as found in all other procaryotic species studied are present in a single open reading frame of 729 codons. This apparent gene fusion joins the C terminus of the large subunit (TrpE) to the N terminus of the small subunit (TrpG) through a short connecting segment. We designate the fused gene trpE(G). The gene is flanked by a typical rho-independent terminator at the 3' end and a complex regulatory region at the 5' end resembling those of operons under transcriptional attenuation control. The location of the promoter was determined by S1 nuclease protection, using Rhizobium mRNA. Although this promoter was inactive in Escherichia coli, mutations eliciting activity were easily obtained. One of these was a C----T change at position -9 in the -10 region. The +1 position of the mRNA is the first base of the initiation codon of the leader peptide, implying that unlike trpE(G), which has a normal Shine-Dalgarno sequence, the leader peptide gene lacks a ribosome-binding site.
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PMID:Rhizobium meliloti anthranilate synthase gene: cloning, sequence, and expression in Escherichia coli. 265 57

The DNA sequences of the Caulobacter crescentus trpF, trpB, and trpA genes were determined, along with 500 base pairs (bp) of 5'-flanking sequence and 320 bp of 3'-flanking sequence. An open reading frame, designated usg, occurs upstream of trpF and encodes a polypeptide of 89 amino acids which seems to be expressed in a coupled transcription-translation system. Interestingly, the usg polypeptide is not homologous to any known tryptophan biosynthetic enzyme. S1 nuclease mapping of in vivo transcripts indicated that usg, trpF, trpB, and trpA are arranged into a single operon, with the transcription initiation site located 30 bp upstream from the start of usg. Sequences centered at -30 and -6 bp upstream from the transcription initiation site are somewhat homologous to the Escherichia coli promoter consensus sequence and are homologous to sequences found upstream of genes from several organisms which are evolutionarily related to C. crescentus. Furthermore, the trpFBA operon promoter sequence lacks homology to promoter sequences identified for certain developmentally regulated C. crescentus genes. The structures of the C. crescentus usg, trpF, trpB, and trpA genes were further analyzed in terms of codon usage, G+C content, and genetic signals and were related to genetic signals previously identified in C. crescentus and other bacteria. Taken together, these results are relevant to the analysis of gene expression in C. crescentus and the study of trp gene structure and regulation.
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PMID:Structure of the Caulobacter crescentus trpFBA operon. 282 22

During senescence in the filamentous fungus Podospora anserina, specific regions of the mitochondrial genome, termed senDNA are excised, ligated and amplified. We have cloned in their entirety three such autonomously replicating plasmids, alpha, beta and epsilon senDNA. None of these plasmids displayed cross-hybridization nor did we detect any significant DNA homology by computer analysis. The complete DNA sequence of the 2.5 kb alpha, the 5.5 kb epsilon and about 3.4 kb of the 9.8 kb beta senDNA is presented (kb = 10(3) base-pairs). These sequences were analyzed for the presence of consensus sequences common to introns, and it was found that alpha senDNA has the characteristics of a group II intron, epsilon senDNA contains three group I introns, and beta senDNA did not show relevant sequences in the 3.4 kb examined. Comparison of the 5' and 3'-flanking sequences of alpha senDNA with oxi 3 (Co I) amino acid sequences from Neurospora crassa and Saccharomyces cerevisiae revealed significant homology and provided strong support that the excised alpha senDNA itself consists entirely of an intron. Upstream from the oxi 3 gene a transfer RNA cysteine sequence was detected. beta senDNA contained four tRNA sequences, aspartic acid, serine, valine and tryptophan, and sequences homologous to URFC (untranslated reading frame C) as well as two new URFs. epsilon senDNA contained sequences homologous to ATPase 8 and URFl; URFl was interrupted by three group I introns. The excision site sequences, as located by S1 nuclease mapping were unique for each senDNA. Analysis for repeated units showed that each plasmid contained elements which could be involved in secondary structure required for the alignment of distal ends preparatory to excision. These results are interpreted in terms of the structural requirements of mobile elements including the possible involvement of reverse transcriptase in the excision-ligation-amplification process.
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PMID:Excision-amplification of mitochondrial DNA during senescence in Podospora anserina. DNA sequence analysis of three unique "plasmids". 299 55

The nucleotide sequence of a 2-kilobase DNA fragment of the tdc region of Escherichia coli K-12, previously cloned in this laboratory, revealed two open reading frames, tdcC and ORFX, downstream from the tdcB gene (formerly designated tdc) encoding biodegradative threonine dehydratase. A 24-base-pair sequence separated tdcC from the dehydratase coding region, and an untranslated region of 60 nucleotides, which contains a recognizable -10 consensus sequence, was found between tdcC and ORFX. The deduced amino acid sequence of tdcC showed it to be a large hydrophobic polypeptide of 431 amino acid residues, whereas ORFX coded for a small 135-residue polypeptide lacking glutamine and tryptophan. A computer-assisted sequence analysis revealed no similarity among the tdcB, tdcC, and ORFX polypeptides, and a search of the GenBank database failed to detect similarity with any other known proteins. The tdc genes and ORFX showed similar codon usage and, in analogy with other bacterial genes, showed codon usage typical for genes expressed at an intermediate level. Transcriptional analysis with S1 nuclease indicated two distinct transcription start sites upstream of the tdcB gene in regions previously identified as promoterlike elements P1 and P2. Interestingly, expression of tdcB and tdcC, but not ORFX, was contingent upon the presence of P1. These results taken together tend to suggest that the biodegradative threonine dehydratase is the second gene in a polycistronic transcription unit constituting a novel operon (tdcABC) in E. coli implicated in anaerobic threonine metabolism.
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PMID:Molecular characterization of the tdc operon of Escherichia coli K-12. 305 59

The nucleotide sequence of the yeast gene TRP5 and its 5' and 3' flanking regions was determined. The deduced coding sequence for tryptophan synthase contains 2,127 base pairs. The protein chain has a calculated molecular weight of 76,544. Yeast tryptophan synthase, a bifunctional protein, has a primary structure which corresponds to an Escherichia coli tryptophan synthase alpha chain-beta chain fusion. An NH2-terminal 239 amino acid segment of yeast tryptophan synthase is homologous with E. coli tryptophan synthase alpha subunit, while a distal 389 amino acid residue segment is homologous to the E. coli tryptophan synthase beta chain. This order of segments of the yeast enzyme is the reverse of the chromosomal order characteristic of all prokaryotes that have been examined. The two segments are joined by a connecting region of 28 residues in the yeast enzyme which is not homologous to either the alpha or beta chains of the bacterial enzyme. A portion of the connecting region of yeast tryptophan synthase exhibits nucleotide sequence similarity to the 3' terminus of E. coli trpC and the trpC-trpB intercistronic region. Active site cysteine, histidine, and lysine residues in the beta 2 subunit of E. coli tryptophan synthase are conserved in the yeast enzyme. Also conserved in the yeast enzyme are 6/8 amino acid residues having an important role in maintaining the structure and function of the E. coli tryptophan synthase alpha subunit. S1 nuclease mapping was used to identify three major mRNA transcripts with different 5' termini. Potential T-A-T-A sites for transcription initiation were identified, as well as other sequences that occur frequently in yeast genes. A 5' flanking region of TRP5 was shown by DNA/DNA hybridization to be present in multiple copies in the yeast genome. TRP5 mRNA levels, measured by RNA/DNA hybridization, increased 2- to 7-fold in response to starvation for either tryptophan or histidine, indicating transcriptional regulation.
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PMID:Yeast gene TRP5: structure, function, regulation. 627 87

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

14-3-3 protein, a brain-specific protein, is thought to be a multifunctional protein involved in the activation of tyrosine and tryptophan hydroxylases, the inhibition or activation of protein kinase C, and the activation of signal transduction. The human 14-3-3 eta chain gene was isolated and its structure was determined. It is composed of two exons separated by one long intron (approximately 8 kb) and spans about 10 kb. A transcription initiation site was identified by a combination of S1 nuclease mapping, primer extension analysis, and RACE methods. In the 5'-flanking region, we found four GC box sequences, four anti-GC box sequences, a TATA box-like sequence, CAAT box-like sequences, a C/EBP element, two AP-2 sequences, an AP-3 sequence, an Oct-6-like sequence, six E boxes, and a CRE sequence. FISH with DNA probes of the human 14-3-3 eta chain gene mapped the 14-3-3 eta chain gene to chromosome 22q12.1-q13.1.
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PMID:Structural organization and chromosomal assignment of the human 14-3-3 eta chain gene (YWHAH). 881 17

The taxonomic position of eight strains isolated from mineral water and previously grouped in the authentic pseudomonads on the basis of a phenotypic analysis (cluster Ib of M. Elomari, L. Coroler, D. Izard, and H. Leclerc [J. Appl. Bacteriol. 78:71-81, 1995]) has been further studied by DNA-DNA hybridizations. Using the S1 nuclease method at 60 degrees C and labeled reference DNA from a representative strain, CFML 92-134, we showed that members of cluster Ib constituted a homogeneous group with a relative binding ratio of greater than 80% and changes in melting temperature of less than 1 degree C. With a total of 67 strains representing known or partially characterized species of the genus Pseudomonas, only 4 to 47% DNA hybridization and changes in melting temperature of between 8 and 20 degrees C were found, the highest hybridization values being measured with members of the saprophytic fluorescent pseudomonads. Since cluster Ib could also be clearly differentiated from members of the latter group and from other phenotypic clusters containing isolates from mineral water, we designated the Ib strains members of a new Pseudomonas species for which the name Pseudomonas veronii sp. nov. has been proposed. Members of this species grew on alpha-aminobutyrate, sucrose, butyrate, isobutyrate, erythritol, L-tryptophan, and trigonelline as sole sources of carbon and energy. The average G+C content of the DNA of the eight strains of P. veronii was 61.5 +/- 0.5 mol%. The type strain is CFML 92-134T (CIP 104663T), with a G+C content of 61 mol%. The clinical significance of P. veronii is unknown.
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PMID:DNA relatedness among Pseudomonas strains isolated from natural mineral waters and proposal of Pseudomonas veronii sp. nov. 886 48

Transformation of tryptophan auxotrophs of Streptomyces coelicolor A3(2) and subsequent analysis have allowed the identification of four tryptophan biosynthetic genes. Subcloning, complementation of trp strains, nucleotide sequencing of 5.1 kb and 1.95 kb of DNA and subsequent homology comparisons identified the trpC, trpB and trpA genes and trpD gene respectively. The arrangement of genes in the trpCBA cluster is unusual in that trpC is separated by a small open reading frame, trpX, from the potentially translationally coupled trpB and trpA genes. Sequence analysis of the trpD gene revealed the presence of a large mRNA loop structure directly upstream of the trpD-coding region. S1 nuclease mapping studies of trpCXBA have revealed two major potential transcription start points, one just upstream of the trpC gene and the other located upstream of the trpX gene. S1 nuclease mapping of the trpD region revealed four fragment end-points. Quantitative S1 nuclease protection assays and a promoterless catechol dioxygenase reporter gene have revealed that the expression of all these genes is growth phase dependent and growth rate dependent, expression being maximal during early exponential phase and dropping off sharply in late exponential phase. This growth phase-dependent and growth rate-dependent regulation is the first reported in streptomycete primary metabolism.
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PMID:The expression of the trpD, trpC and trpBA genes of Streptomyces coelicolor A3(2) is regulated by growth rate and growth phase but not by feedback repression. 1036 Dec 88


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