Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.21.1 (DNase)
 7,655 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bacteriocins produced by six strains of Rhizobium trifolii were found to be of the relatively low molecular weight, non-phage type. The molecular weights ranged from approximately 1-8 X 105 to 2-0 X 105. All were of protein composition, as indicated by buoyant density (1-32 to 1-34 g/cm3) in CsC1 and by sensitivity to proteolytic enzymes. They were resistant to RNAase but sensitive to DNAase. The six bacteriocins could further be separated into two subgroups on the basis of sensitivity to extremes of pH, binding to filter membranes, activity spectrum on sensitive strains of R. trifolii, and possibly mode of action on sensitive bacteria. Bacteriocin production occurred spontaneously during the early-to mid-exponential phase of bacterial growth in broth culture.
J Gen Microbiol 1975 Dec
PMID:Properties of some bacteriocins produced by Rhizobium trifolii. 0 63

Strains of Escherichia coli can inhibit the in vitro growth of Neisseria gonorrhoeae. One E. coli strain released a potent agar-diffusible gonococcal growth inhibitor which was extracted and assayed in an agar well assay system. The culture conditions necessary to produce the inhibitor were determined. The inhibitor was bacteriostatic, in most cases, for N. gonorrhoeae. Based on ultrafiltration and column chromatography, the inhibitor appeared to have a molecular weight in the range of 1200 to 2000. Evidence that the molecule contained charged sites was obtained by membrane binding and column chromatography. The inhibitor was stable to extremes of heat, cold and pH. It was not volatile or susceptible to proteolytic enzymes, lysozyme, lipase, DNAase, RNAase or certain chelating agents. Its activity was completely blocked by ferric ammonium citrate. This inhibitor is dissimilar to previously reported gonococcal inhibitors of bacterial origin.
J Gen Microbiol 1979 Dec
PMID:Properties of a gonococcal inhibitor produced by Escherichia coli. 4 57

Nuclease halo (nuh) mutants of the ascomycete Neurospora crassa have been isolated which are characterized reduced release of deoxyribonuclease (DNase) activities from colonies grown on sorbose-containing agar media. To identify nuh mutants, mutagenized isolates were transferred to commercial DNase test agar, or grown on minimal medium and then overlayed with agar that contained heat-denatured DNA. DNase activity was visualized by acid precipitation which produced clear rings of digestion (haloes) around the colonies. To identify the number of genes in which mutations lead to reduced release of nuclease activity, eleven nuh mutants were checked for close linkage and linked pairs were tested for complementation. These mutants were assigned to eight genes, and all except one were mapped in six small regions of the Neurospora linkage maps. In addition, among a large number of existing mutants which were tested for nuclease haloes, two mutants were found that showed the Nuh phenotype, namely uvs-3 and uvs-6. One of the isolated nuh mutants was also found to be sensitive to UV and was mapped close to uvs-3; it may represent a new allele of this gene. As a first step towards identification of genuine nuclease mutants, extensively backcrossed strains of mutants from different genes have been assayed for nuclease activity with denatured DNA in extracts. A pronounced reduction, compared to wild type at the same stage of growth, was found in uvs-3 and also in nuh-3, a mutant that is not UV-sensitive.
Mol Gen Genet 1979 Jan 31
PMID:Isolation and genetic analysis of nuclease halo (nuh) mutants of Neurospora crassa. 15 73

Evidence for genetic transformation in Neurospora crassa is based on the observations that allo-DNA has a specific effect in producing transformants which is abolished by DNAase treatment and that iso-DNA is not effective in transformation. Here, unambiguous evidence for genetic transformation is provided by transfer of a temperature-sensitive inositol requirement from a donor to a recipient strain. Data provided also suggest the role of growth conditions and the involvement of a nuclease gene in the DNA uptake and transformation of N. crassa.
J Gen Microbiol 1979 Aug
PMID:DNA-mediated genetic changes in Neurospora crassa. 15 41

Infectious bovine rhinotracheitis (IBR) virus was grown in the presence of 5-3H-uridine in a continuous line of bovine kidney cells. 5-3H-uridine was found to be associated with viral nucleocapsids. Furthermore, purification of the viral nucleic acid present in nucleocapsids illustrated that 5-3H-uridine was part of the viral nucleic acid. Purification of viral DNA from infected cells also indicated that 5-3H-uridine was associated with viral nucleic acid possibly as ribonucleotides. The label was identified as RNA by measuring its susceptibility to RNase and analysis of the bases. Short pulses with 5-3H-uridine, resulted in labelled nucleic acid which was extremely sensitive to RNase and alkali but resistant to DNase. Nucleotide analysis indicated that after short pulses all the radioactivity was associated with the base uracil whereas upon longer labelling periods a large percentage of the label was associated with cytosine. However even if viral DNA was isolated from nucleocapsids there was still some radioactivity associated with uracil. Sedimentation of heat denatured 5-3H-uridine label viral nucleic acid in CS2SO4 indicated that the label sedimented at a density of single stranded DNA suggesting that the ribonucleotides are covalently linked to the viral DNA.
J Gen Virol 1976 May
PMID:Ribonucleotides in infectious bovine rhinotracheitis virus DNA. 18 Feb 41

Primary human amnion cell monolayers which had been treated with DEAE-dextran, washed, and then inoculated with sonicated cells of the EB3 line of Burkitt's lymphoma cells developed foci of transformed amnion cells 7 to 14 days later. When either the DEAE-dextran or the sonicate was omitted, no significant transformation was found. The foci consisted of enlarging mounds of rapidly dividing cells, which upon subculturing continued their high miotic activity; and strains or lines of the transformed amnion cells were thus readily established. The modal number of chromosomes in such lines was 65 instead of the normal 46. Not all human amnions yielded cells transformable by EB3 cell sonicate, as determined by direct comparisions using the same cultural conditions and testing with the same fresh sonicate preparation in the same experiment. Overall, it appeared that only about 40 to 50% of the amnions yielded transformable cell monolayers; the rest gave monolayers apprently completely refractory to the transformation. The transformed amnion cells contained nuclear and cytoplasmic Epstein-Barr virus (EBV) antigen(s), as revealed by indirect immunofluorescence tests. EB3 cell sonicate also caused the appearance of rapidly growing transformed cell foci on secondary rat embryo cell monolayers which had been sensitized with DEAE-dextran. Calcium in the cell maintenance medium decreased the number of transformed foci found, both on the human and on the rat cell monlayers. Sonicates of cultured normal human leucocytes had no such transforming activity for either the human or the rat cells. The transforming agent in EB3 cell sonicate was completely destructible by either deoxyribonuclease or trypsin, but not by ribonuclease, and was not neutralizable by anti-EBV serum. The simplest interpretation of these results is that the transforming agent is part of all of the EBV DNA plus some necessary protein, with both the DNA and the protein accessible to hydrolytic enzyme action.
J Gen Virol 1976 Jun
PMID:Use of a transfection method to demonstrate a monolayer cell transforming agent from the EB3 line of Burkitt's lymphoma cells. 18 Feb 48

In cells infected with herpes simplex virus, HSV-I, newly synthesized polypeptides accumulated in the nucleus at different rates, which did not change during the first 6 h after infection. Canavanine, an arginine analogue, prevented the nuclear accumulation of ICP (infected cell polypeptides) 5 and 8 and azetidine, a proline analogue, prevented that of ICP 5 and 7. The transfer of polypeptides to the nucleus was inhibited at 4 degrees C but not by dinitrophenol. Some of the nuclear polypeptides could be released by washing isolated nuclei with hypertonic salt solutions. ICP 17 was particularly sensitive to high salt treatment while ICP 5 and II were resistent. ICP 4b, a modified form of the alpha polypeptide ICP 4, was released by EDTA, and the detergent NP40 removed ICP II. Treatment of nuclei with DNase selectively reduced the amount of bound alpha polypeptides ICP 4c (the second modified form of ICP 4), 0 and 27 as well as ICP 8 and 25. Nuclei isolated from infected or uninfected cells and incubated in labelled cytoplasmic extracts took up primarily ICP 8 and 32. Alpha polypeptides were taken up to a lesser extent and ICP 6 and 10 were excluded. It is concluded that affinities for various constituents of host cell nuclei are likely to determine the nuclear accumulation of specific virus polypeptides.
J Gen Virol 1978 Jun
PMID:On the association of virus proteins with the nuclei of cells infected with herpes simplex virus. 20 19

The disposition of chromosome proteins about the endogenous proviral DNA of BALB-c mouse has been studied. The sensitivity of the endogenous proviral DNA sequences to deoxyribonuclease I (DNaseI) was analysed in BALB-c mouse tissues (liver and spleen) and in the cell line JLS-V9 which does not produce virus. On all of these preparations the endogenous proviral DNA was as sensitive to DNase I digestion as total chromatin. Since the proviral genes in JLS-V9 cells were silent, it was of interest to study possible changes in the chromatin structure following virus induction by iododeoxyuridine. We could not detect any increase in the sensitivity of the endogenous proviral DNA to DNase I digestion following induction. The induction was very efficient, however, since 60% of the cells responded to produce intracellular virus antigens.
J Gen Virol 1979 Dec
PMID:Activation of the endogenous proviral genes in mouse cells is not followed by increased sensitivity to deoxyribonuclease I digestion. 23 39

We had previously shown that a temperature-sensitive (ts) mutant of herpes simplex virus type 2 strain HG52, ts13, induced a heat-labile DNase activity in infected cells (B. Francke, H. Moss, M. C. Timbury, and J. Hay, J. Virol. 26:209-213, 1978). Earlier work indicated that the mutant also possessed temperature-sensitive infectivity (I. W. Halliburton and M. C. Timbury, J. Gen. Virol. 30:207-221, 1976). In this study temperature-stable revertants of ts13 have been isolated; examination of them revealed that ts13 is a double mutant, with genetically distinct temperature-sensitive lesions affecting nuclease activity and particle stability. The lethal mutation, in the cell system studied, is the latter. Revertants, which all maintain the nuclease lesion, grew well at a high temperature. Physical mapping of the nuclease lesion placed it between 0.12 and 0.21 (fractional length) on the virus genome, quite distant from the lethal mutation at 0.64 to 0.70.
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PMID:Mutant of herpes simplex virus type 2 with temperature-sensitive lesions affecting virion thermostability and DNase activity: identification of the lethal mutation and physical mapping of the nuc-lesion. 23 66

The production of enterotoxins, lipase and total extracellular protein by four strains of Staphylococcus aureus grown in batch culture at a controlled pH of 6.5 in a completely defined medium was markedly reduced by glucose or glycerol constantly maintained at 0.I M. A concomitant increase in the production of deoxyribonuclease, up to 13-fold, showed however that not all extracellular proteins are under the same control mechanism. The presence of glucose and glycerol in the medium also resulted in a rapid increase in the specific growth rate. However, growth of S. aureus s6 in Mgilimited continuous culture showed that glucose repression of enterotoxin B when the growth rate was held constant was more than twice that in batch culture. Therefore glucose repression can occur independently of an increase in growth rate. The specific rate of production of enterotoxin B, lipase, deoxyribonuclease, beta-haemolysin and total extracellular protein by S. aureus s6 increased as the growth rate increased from 0.07 to 0.24 h-1. Non-replicating cells grown in the absence of glucose produced considerable amounts of enterotoxin, and production was not repressed by the presence of glucose in the resuspension medium. In contrast, no enterotoxin B or C was obtained from nonreplicating cells grown in the presence of glucose. Chloramphenicol completely inhibited enterotoxin production by non-replicating cells, indicating that synthesis of new protein was required.
J Gen Microbiol 1975 Jan
PMID:Glucose repression of enterotoxins A, B and C and other extracellular proteins in staphlyococci in batch and continuous culture. 23 6


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