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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 structure of chromatin is changed at early stages of glucocorticoid hormone interaction with rat hepatocytes. These changes consist in: a) increase of actidine orange binding in rate liver nuclei after injection of the hormone; b) decrease of the number of sites in chromatin which are sensitive to
nuclease S1
; c) inhibition of the nuclei capacity for DNA synthesis in the presence of E. coli
DNA polymerase
and d) increase of molecular weight of DNA fragments. The data obtained suggest that at early stages of hormonal induction part of template DNA ruptures is reconstituted, which can result in an increase of DNA molecular weights and changes in chromatin superstructure and the template properties of the protein.
...
PMID:[Early changes in template DNA structure following glucocorticoid injection]. 711 5
Pulsed-field agarose gel electrophoresis showed that fragmentation of chromosomal DNA in Raji cells was induced by infection with the P3HR-1 strain of Epstein-Barr virus (EBV).
S1 nuclease
treatment of the agarose plugs containing cells suggested that the majority of DNA fragments did not contain single-strand gaps. Chromosomal DNA fragmentation was inhibited by cycloheximide, indicating that protein synthesis was required for DNA fragmentation. Phosphonoacetic acid, an inhibitor of EBV
DNA polymerase
, did not inhibit fragmentation of chromosomal DNA. These findings suggest that EBV-specific early proteins participate in fragmentation of chromosomal DNA. Chromosomal DNA of P3HR-1 cells was also fragmented by treatment with n-butyrate plus 12-O-tetradecanoylphorbol-13-acetate (TPA), which induced activation of latent EBV genome following viral replication. In addition, fragmentation of DNA preceded cell death during lytic infection. These results suggest that fragmentation of chromosomal DNA is generally induced during EBV replication and probably contributes to the cytopathic effect of EBV. The role of DNA fragmentation in death of infected cells is discussed in relation to apoptosis.
...
PMID:Epstein-Barr virus induces fragmentation of chromosomal DNA during lytic infection. 823 Apr 85
A simple method for scoring short tandem DNA repeats is presented. An oligonucleotide target, containing tandem repeats embedded in a unique sequence, was hybridized to a set of complementary probes, containing tandem repeats known lengths. Single-stranded loops structures formed on duplexes containing a mismatched (different) number of tandem repeats. No loop structure formed on duplexes containing a matched (identical) number of tandem repeats. The matched and mismatched loop structures were enzymatically distinguished and differentially labeled by treatment with
S1 nuclease
and the Klenow fragment of
DNA polymerase
.
...
PMID:In situ detection of tandem DNA repeat length. 902 99
DNA end-labeling procedures were used to analyze both the frequency and distribution of DNA strand breaks in mammalian cells exposed or not to different types of DNA-damaging agents. The 3' ends were labeled by T4
DNA polymerase
-catalyzed nucleotide exchange carried out in the absence or presence of Escherichia coli endonuclease IV to cleave abasic sites and remove 3' blocking groups. Using this sensitive assay, we show that DNA isolated from human cells or mouse tissues contains variable basal levels of DNA strand interruptions which are associated with normal bioprocesses, including DNA replication and repair. On the other hand, distinct dose-dependent patterns of DNA damage were assessed quantitatively in cultured human cells exposed briefly to menadione, methylmethane sulfonate, topoisomerase II inhibitors, or gamma rays. In vivo induction of single-strand breaks and abasic sites by methylmethane sulfonate was also measured in several mouse tissues. The genomic distribution of these lesions was investigated by DNA cleavage with the single-strand-specific
S1 nuclease
. Strikingly similar cleavage patterns were obtained with all DNA-damaging agents tested, indicating that the majority of S1-hypersensitive sites detected were not randomly distributed over the genome but apparently were clustered in damage-sensitive regions. The parallel disappearance of 3' ends and loss of S1-hypersensitive sites during post-gamma-irradiation repair periods indicates that these sites were rapidly repaired single-strand breaks or gaps (2- to 3-min half-life). Comparison of S1 cleavage patterns obtained with gamma-irradiated DNA and gamma-irradiated cells shows that chromatin structure was the primary determinant of the distribution of the DNA damage detected.
...
PMID:Clusters of S1 nuclease-hypersensitive sites induced in vivo by DNA damage. 927 20
The dna genes, essential for protein priming DNA replication of bacteriophage phi 29, are transcribed as a long polycistronic mRNA. In the previous study, gene 1 product (gp1) was shown to repress the expression of the upstream dna genes for
DNA polymerase
and primer protein. To investigate the details of the repression by gp1, we have examined the amount and integrity of polycistronic mRNA encoding
DNA polymerase
and primer protein by agarose gel electrophoresis and
nuclease S1
protection assay. As a result, the amount, size, and integrity of the polycistronic mRNA were not influenced by the presence of gene 1. Furthermore, the RNA binding ability of gp1 was demonstrated by in vitro system using histidine-tagged gp1. These results strongly suggested that translation of the dna genes was affected by gp1 through binding to mRNA. Other possible mechanisms of gene regulation by gp1 were discussed.
...
PMID:Gene 1, one of the dna genes of bacteriophage phi 29, represses other dna genes through binding to mRNA. 948 Aug 49
Three yeast genes, MIP (mitochondrial
DNA polymerase
) and two genes, YCF1 (yeast cadmium factor 1) and PDR5 (pleiotropic drug resistance 5), conferring multidrug resistance, were provided with the cauliflower mosaic virus 35S transcription promoter and introduced into tobacco using an Agrobacterium tumefaciens T-DNA-derived vector. Transcripts of each gene much shorter than those expected were found in the transgenic plants. RT-PCR and
S1 nuclease
mapping of the PDR5 and MIP transcripts demonstrated the presence of one (PDR5), or several close (MIP), cryptic polyadenylation site(s) within the coding sequence of these yeast genes. Possible sequences involved in polyadenylation are discussed.
...
PMID:Cryptic polyadenylation sites within the coding sequence of three yeast genes expressed in tobacco. 1072
The use of avian myeloblastosis virus reverse transcriptase (AMV RTase) to produce DNA copies of mRNA templates is a common and well-documented method (1-3). Briefly, the method involves synthesis of a complementary DNA strand to the mRNA from a short double-stranded region, usually provided by using an oligo(dT) primer on poly(A)(+)RNA. The enzyme does not always produce full length transcripts, but all the complementary strands are finished off with a short hairpin loop. This provides a ready-made primer for second strand synthesis, useful whether this is to be performed by more reverse transcriptase or by E. coli
DNA polymerase
1 (pol 1). An idealized picture is shown in Fig. 1. Before the double-stranded cDNA (ds cDNA) copy can be cloned it is necessary to remove this hairpin loop using the single-strand specific
nuclease S1
. Fig. 1. Stages in the production of double-stranded cDNA from poly(A)(+)mRNA. The original RNA is represented by a solid line, while the cDNA is represented by a dashed line. Note that this diagram is not intended as an accurate representation of the enzymatic processes involved, but as a general guide to the principles of cDNA synthesis.
...
PMID:Synthesis of Double-Stranded Complementary DNA from Poly(A)(+)mRNA. 2137 88
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