Gene/Protein Disease Symptom Drug Enzyme Compound
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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 product of the yeast nuclear gene PET494 is required specifically for the translation of the mitochondrially encoded subunit III of cytochrome c oxidase. We have determined the DNA sequence of a 1.9 kb fragment carrying PET494. The sequence contains a single long open reading frame of 489 codons. This open reading frame encodes the PET494 protein since the DNA sequence of the corresponding fragment derived from a strain with a known pet494 amber mutation contained an in frame UAG codon. The results of S1 nuclease protection experiments demonstrated that this region is transcribed and that the 5' ends of the major transcripts lie 30 to 40 base-pairs upstream of the first AUG codon in the PET494 reading frame. The predicted PET494 protein has a highly basic amino-terminal domain of 66 amino acids followed by a stretch of 32 uncharged residues, half of which are hydrophobic. The remainder of the protein is not unusual in amino acid composition or distribution except that the carboxyterminal region is notably basic. The phenotype of mutations generated in vitro around codon 119 by exonuclease digestion and linker insertion indicated that this region is dispensable for function. A mutation caused by deletion of 101 bp of coding sequence behaved like a simple frameshift when inserted into the chromosome: it was partially suppressed by the recessive non-group specific frameshift suppressor suf13 and reverted to Pet+ phenotype by mutations linked to PET494.
Mol Gen Genet 1986 Feb
PMID:Primary structure of wild-type and mutant alleles of the PET494 gene of Saccharomyces cerevisiae. 301 52

One unique feature of the prototype JC virus (JCV) (Mad 1) genome is the occurrence of a second TATA sequence within the early promoter region. A naturally occurring oncogenic variant of JCV (Mad 4) lacks this second TATA box. Several cell lines transformed by Mad 1, Mad 4 and simian virus 40 were characterized, in part to investigate whether the second TATA sequence is functional. S1 nuclease mapping of early JCV gene transcription products revealed a major set of start sites common to both Mad 1 and Mad 4 mRNAs. In addition, a second set of early transcripts was found exclusively in Mad 1 transformants, presumably positioned by the second TATA box. The presence of these unique mRNAs in the Mad 1-transformed cells did not appear to have any bearing on the other parameters investigated, including size and quantity of early viral proteins, integration patterns of viral DNA and growth properties of the cells.
J Gen Virol 1986 Aug
PMID:Characterization of cells transformed by the human polyomavirus JC virus. 301 61

DNA from human T-lymphoid (Molt-4) and hamster kidney (BHK-21) cells infected with the T-lymphotropic simian foamy virus LK-3 was shown to be infectious, when assayed by transfection of BHK-21 cells. The proviral genome was further characterized by blot hybridization to a specific cDNA probe, which had been prepared by reverse transcription in vitro using viral RNA and RNA-dependent DNA polymerase present in cytoplasmic extracts of infected BHK-21 cells. This probe hybridized to a DNA species of 14 kbp in extracts from LK-3-infected diploid human fibroblasts, Molt-4 and BHK-21 cells, whereas no hybridization occurred with DNA from the respective uninfected controls. No integrated proviral DNA could be demonstrated, and the 14 kbp DNA was shown not to represent circular DNA. The patterns of restriction endonuclease and S1 nuclease fragments indicated a unique configuration of linear double-stranded DNA containing a single-stranded section separating two subunits one of which may be sufficient to transmit LK-3 by transfection with DNA.
J Gen Virol 1986 Sep
PMID:Detection and characterization of infectious DNA intermediates of a primary foamy virus. 301 32

The nucleotide sequence of a 1384 bp fragment containing the coding and promoter sequences of the streptomycin phosphotransferase gene (sph) of the hydroxystreptomycin-producing Streptomyces glaucescens was determined. Evidence for an ATG as translation start codon for sph was derived from a comparison with the amino-terminal amino acid sequence of an aminoglycoside phosphotransferase (aphD gene product) of S. griseus, exhibiting a high degree of amino acid homology to the deduced amino acid sequence of the S. glaucescens sph gene product. Transcriptional start and termination sites for the sph gene were identified by primer extension and/or nuclease S1 mapping experiments. The promoter region of the sph gene appears to be complex since tandemly arranged promoters (orfIp1, orfIp2) initiating transcription of a likely coding region (ORFI) in the opposite direction overlap sph promoter sequences. The presumptive sphp and orfIp1 promoters show considerable sequence similarities in the -10 region to Escherichia coli consensus promoter sequences but no homology to E. coli or Streptomyces -35 regions.
Mol Gen Genet 1987 Jun
PMID:Characterisation of the hydroxystreptomycin phosphotransferase gene (sph) of Streptomyces glaucescens: nucleotide sequence and promoter analysis. 303 5

The hemolytic activity of Escherichia coli and Proteus vulgaris is determined by common contiguous genes encoding synthesis (hly C, hly A) and specific secretion (hly B, hly D) of active hemolysin. Nevertheless, the hly C-proximal DNA sequences directing production of the homologous hemolysins by the recombinant DNAs P. vulgaris pVU763-709 and E. coli pANN202-312 showed no extensive homology. Primer extension and S1 nuclease protection were used to define in the two sequences the 5' termini of hly transcripts synthesized in vivo and thus to infer the active hly promoters sequences. The E. coli hly C upstream region contained three separate promotors directing in vivo hly transcription, while the corresponding transcription of the P. vulgaris hly operon originated from a single distinct promotor, the -35 and -10 sequences of which formed part of an inverted repeat sequence. Elevated hemolytic activity caused by upstream Tn5 insertions in pVU763-709 resulted from increased transcription from this promotor.
Mol Gen Genet 1988 Jul
PMID:Identification of the promoters directing in vivo expression of hemolysin genes in Proteus vulgaris and Escherichia coli. 306 12

A strong transcriptional signal previously cloned from the Streptomyces griseus genome in S. lividans was subcloned and its nucleotide sequence was determined. Upstream of the transcriptional start point which was determined by high-resolution S1 nuclease mapping, -35 (5'-TTGCCG-3') and -10 (5'-TAGCGT-3') sequences, separated by 18 nucleotides, were present. By replacing the tet promoter of pBR322 with the Streptomyces promoter, no expression of the tet gene was observed in Escherichia coli cells. The result suggests that notwithstanding a similarity to the E. coli -35 and -10 sequences, the Streptomyces promoter is not functional in E. coli. The strong promoter was inserted in multi-copy and wide host range plasmids pIJ702 and pKS11, resulting in the pSEV series of expression-vectors with several unique restriction endonuclease cleavage sites downstream of the promoter for cloning of foreign genes. The extremely heat-stable malate dehydrogenase of Thermus flavus, when its coding sequence with a ribosome-binding site was located downstream of the strong promoter in pSEV2, was produced in large quantities in S. lividans throughout growth. When an extracellular cellulase from Bacillus subtilis was expressed in a cellulase-negative S. lividans strain, virtually all of the cellulase activity was found in the culture supernatant.
Mol Gen Genet 1987 Dec
PMID:Construction and characterization of multicopy expression-vectors in Streptomyces spp. 312 89

An inducible resistance determinant, ermSF, from the tylosin producer Streptomyces fradiae NRRL 2338 has been cloned, sequenced, and shown to confer inducible macrolide-lincosamide-streptogramin B resistance when transferred to Streptomyces griseofuscus NRRL 23916. From mapping studies with S1 nuclease to locate the site of transcription initiation, the ermSF message contains a 385-nucleotide 5' leader sequence upstream from the 960-nucleotide major open reading frame that encodes the resistance determinant. On the basis of the potential secondary structure that the ermSF leader can assume, a translational attenuation model similar to that for ermC is proposed. The model is supported by mutational analysis involving deletions in the proposed attenuator. By analysis with restriction endonucleases, ermSF is indistinguishable from the tlrA gene described by Birmingham et al. (V. A. Birmingham, K. L. Cox, J. L. Larson, S. E. Fishman, C. L. Hershberger, and E. T. Seno, Mol. Gen. Genet. 204:532-539, 1986) which comprises one of at least three genes from S. fradiae that can confer tylosin resistance when subcloned into S. griseofuscus. When tested for inducibility, ermSF appears to be strongly induced by erythromycin, but not by tylosin.
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PMID:Translational attenuation control of ermSF, an inducible resistance determinant encoding rRNA N-methyltransferase from Streptomyces fradiae. 312 81

We have determined the structure and complete nucleotide sequence of the trifunctional trpC gene from the Ascomycetous fungus Aspergillus nidulans. Results from RNA gel blot analyses showed that this gene encodes two size classes of polyribosomal, poly (A)+RNAs with approximate lengths of 2,400 and 2,600 nucleotides. S1 nuclease protection studies demonstrated that the distribution into the two size classes is due to selection of alternative sites for polyadenylation. The transcription units contain a single open translation reading frame of 2,304 nucleotides. The sequence of this reading frame is approximately 40% divergent from the sequence of the functionally analogous trp-1 gene from Neurospora crassa (Schechtman, M.G. and Yanofsky, C., J. Mol. Appl. Gen. 2:83-99). The predicted amino acid sequence of the A. nidulans trpC polypeptide is also 40% divergent from the predicted amino acid sequence of the N. crassa trp-1 polypeptide. The A. nidulans gene has considerably less bias in codon selection than observed for the N. crassa gene. Discrete regions of DNA homology were also found in similar positions in the 5' and 3' flanking sequences of the Aspergillus and Neurospora genes. Similar regions of homology were not observed in other Aspergillus or Neurospora genes that have been sequenced. Thus, if these evolutionarily conserved sequences act as signals for transcription initiation or polyadenylation, or are involved in gene regulation, their functions are restricted to a subset of protein coding genes in these two closely related fungi.
Mol Gen Genet 1985
PMID:Primary structure of the trpC gene from Aspergillus nidulans. 315 96

Similar DNA homology values were recorded when a modified S1 nuclease technique and a standard nitrocellulose membrane filter method were applied to representative strains of Rhodococcus. The DNA homology data showed that R. globerulus, R. luteus and R. sputi form distinct genomic species. The congruence between the DNA homology and earlier numerical phenetic data was good, but there was evidence that some strains had been misclassified in the previous studies. In particular, the type strains of R. obuensis and R. sputi belong to a single genomic species. The former name is thus a later, subjective synonym of the latter. The guanine plus cytosine content of the DNA of the rhodococci fell within the range 61 to 72 mol%.
J Gen Microbiol 1988 Oct
PMID:DNA base composition and homology values in the classification of some Rhodococcus species. 325 37

Sequencing data indicated that the RNA polymerase sigma 43 operon of Bacillus subtilis consisted of three genes, P23 (function unknown), dnaE (DNA primase), and rpoD (sigma 43) (Wang and Doi 1986a). S1 nuclease mapping experiments with RNA from various stages of growth demonstrated the presence of two overlapping sigma 43 promoters that controlled the expression of the operon during growth and a sigma 37 promoter that regulated the expression of the operon during the sporulation phase. This promoter switching mechanism ensured that this important operon would be expressed during different nutritional states of the cell and also illustrated a function for the minor RNA polymerase sigma 37 holoenzyme in the expression of genes which are normally expressed during the logarithmic phase of growth. The location of the transcription termination signal confirmed that the sigma 43 operon consists of three genes.
Mol Gen Genet 1987 Apr
PMID:Promoter switching during development and the termination site of the sigma 43 operon of Bacillus subtilis. 329 98


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