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Enzyme
Compound
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Target Concepts:
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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 herpes simplex virus (HSV) type 1 thymidine kinase gene (tk) was resected from its 3' end with
BAL
31 exonuclease. Two sets of plasmids were isolated that lacked information distal to the two copies of the hexanucleotide 5'-AATAAA-3' located at the 3' end of the HSV tk gene. The presence of a simian virus 40 origin of DNA replication in each plasmid facilitated analysis of patterns of transcription in transfected Cos-1 monkey cells. Transcription analyses were performed with an
S1 nuclease
protection assay. Efficient processing and polyadenylation at the normal site still occurred when all sequences more than 44 or 46 base pairs (bp) downstream from the first AATAAA were removed (pTK311R/SV010 and pTK209R/SV010). Removal of an additional 7 bp (pTK312R/SV010) decreased the amount of tk mRNA processed at that normal site, and tk mRNA polyadenylated at a cryptic site within pBR322 sequences began to appear. The normal processing and polyadenylation site was not used at all when an additional 12 bp was removed (pTK314R/SV010); the small amount of tk mRNA produced was processed and polyadenylated at the cryptic pBR322 site. The region of the tk gene critical for efficient processing and polyadenylation of tk mRNA is located 20 to 38 bp downstream from the first AATAAA, distal to the polyadenylation site, and as RNA can form a stem-loop structure containing AAUAAA. Similar G + T-rich elements were located in DNA fragments which substitute efficiently for the HSV tk processing and polyadenylation signal and were not found in AATAAA-containing DNA fragments which substitute inefficiently for the HSV tk signal.
...
PMID:Identification of sequences in the herpes simplex virus thymidine kinase gene required for efficient processing and polyadenylation. 301 51
Some genetic and biochemical properties of the tetracycline resistance element of the Staphylococcus aureus plasmid pT181 have been studied. Resequencing of a portion of the tetracycline resistance gene (tet) showed the presence of a single open reading frame of 1,299 nucleotides capable of encoding a polypeptide of 433 amino acids. Analysis of
BAL
31 nuclease-generated deletion mutants of the tet gene showed the presence of two complementation groups within this region. Northern blot hybridizations demonstrated that the tet gene encodes a single mRNA, and its initiation site has been mapped by
S1 nuclease
protection experiments. We also identified an approximately 52,000-dalton tetracycline-inducible polypeptide in Bacillus subtilis minicells carrying pT181. Induction of the tet gene by tetracycline resulted in a 4-fold increase in the levels of TET mRNA and at least a 15-fold increase in the amount of TET protein in B. subtilis minicells.
...
PMID:Characterization of the tetracycline resistance gene of plasmid pT181 of Staphylococcus aureus. 314 48
The genomic double-stranded DNA of mycobacteriophage I3, when denatured with alkali, heat, formamide or dimethylsulfoxide, breaks down to heterogeneous-sized single-strand (ss) fragments smaller than the expected intact unit genome length suggesting the presence of random ss interruptions on both the strands. The occurrence of the interruptions at random is also demonstrated by two-dimensional gel electrophoresis of the restriction fragments of I3 DNA. These interruptions have no adverse effect on the phage infectivity or DNA transfectivity. Studies with nuclease
BAL
31 and end-labeling analysis confirm the presence of random interruptions. Detailed analysis using T4 DNA ligase,
nuclease S1
and DNA polymerase I Klenow fragment revealed that the interruptions are in the form of small gaps rather than single phosphodiester bond breaks. The average length of the gap is about 10 nucleotides long and there are 13 to 14 such gaps per DNA molecule.
...
PMID:Presence of random single-strand gaps in mycobacteriophage I3 DNA. 378 Dec 46
We describe a rapid "nonrandom" DNA sequence analysis procedure that facilitates the nucleotide sequence determination of large contiguous regions of DNA. The method consists of cloning a restriction endonuclease fragment of interest into bacteriophage M13 followed by construction of a series of nuclease
BAL
-31 deletion mutants originating from a single site in M13 that is close to the DNA insert. Determination of the size of the deletion mutant is accomplished by hybridization to a complementary single-stranded probe derived from M13 containing that total insert followed by
nuclease S1
treatment. Single-stranded M13-insert DNAs of progressively smaller sizes are isolated and analyzed by using a site-specific M13 DNA primer and the dideoxy chain-termination method. In this way, analysis of the DNA sequence proceeds from one end of the total insert to the other in a nonrandom fashion due to generation of a controlled overlapping set of deletion mutants.
...
PMID:"Nonrandom" DNA sequence analysis in bacteriophage M13 by the dideoxy chain-termination method. 695 59
Resistant strains for trimethoprim, a potent inhibitor of dihydrofolate reductase, were obtained by transforming the ligated products of Escherichia coli K12 DNA and plasmid pBR322 BamH I fragments. The strains carry a 13.6 kbp plasmid, pTP1, which contains the trimethoprim- and ampicillin-resistance determinant genes. The trimethoprim-resistance determinant gene was estimated to consist of more than 500 nucleotides and less than 1,500 nucleotides and was restricted by EcoR I and Sal I. Trimethoprim-, ampicillin-, and tetracycline-resistant plasmids were made in the following way, and the resultant plasmids contained a unique EcoR I "insertional inactivation" site for trimethoprim resistance: the DNA sequences extraneous to the determinant gene of the trimethoprim resistance on BamH I fragment of pTP 1 were eliminated by digestion with a double-strand-specific exonuclease
BAL
31, and the resultant fragments were ligated with pBR 322 which had been digested by EcoR I and a single-strand-specific
nuclease S1
. The strains carrying pTP 1 or trimethoprim-resistant plasmids produced about 10 times more dihydrofolate reductase than control strains. The enhancement of the enzyme production, which is due to an increase in the copy number of the enzyme gene, seems to be responsible for the trimethoprim resistance of the transformed cells.
...
PMID:Cloning of dihydrofolate reductase gene of Escherichia coli K12. 704 10
cis-Diamminedichloroplatinum(II) was found to bind to covalently closed circular supercoiled, covalently closed circular nonsupercoiled, and single-strand broken relaxed PM2 DNA and induce different types of DNA conformational changes. Using Kleinschmidt's technique, it was found that binding of cis-diamminedichloroplatinum(II) decreased the DNA length to 75% of the original single-strand broken relaxed DNA without inducing superhelical conformational changes. cis-Diamminedichloroplatinum(II) also shortened the length of covalently closed circular nonsupercoiled DNA before a supercoiled conformation was generated. Single strand-specific nucleases were used to detect drug-induced DNA structural alterations. Local single-strand regions or regions of denaturation were detected by
S1 nuclease
from Aspergillus oryzae and by
BAL
-31 nuclease from Alteromonas espejiana
BAL
-31. The single-strand regions or local denaturation regions do not seem to be related to or caused by DNA superhelical conformational changes since they were detected at drug concentrations at which no significant DNA superhelical turns were found. DNA shortening, superhelical conformational changes, and local denaturation regions can be explained by the previously proposed "DNA intrastrand cross-linking" model (Stone et al., J. Mol. Biol., 104: 793-801, 1976).
...
PMID:DNA supercoiling, shortening, and induction of single-strand regions by cis-diamminedichloroplatinum(II). 719 92
Reaction conditions for numerous endonucleases are detailed in this unit along with discussions of potential applications. Specific enzymes include
BAL
31 nuclease,
S1 nuclease
, mung bean nuclease, micrococcal nuclease and DNase I.
...
PMID:Endonucleases. 1826 21
Reaction conditions for a variety of endonucleases are detailed in this unit along with discussions of potential applications. Enzymes covered include
BAL
31 nuclease,
S1 nuclease
, mung bean nuclease, micrococcal nuclease, and DNase I. A general discussion regarding the use of endonucleases to generate nonspecific breaks in dsDNA is also provided. For a detailed discussion of the endonucleases more typically associated with DNA damage repair (e.g., Endo III, IV, V and VIII of E. coli and human APE1), see UNIT 3.9.
...
PMID:Endonucleases. 2122 39
