DrugBank:BIOD00001 - FACTA Search

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Query: DrugBank:BIOD00001 (DNase I)
8,324 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of thrombin stimulation on actin organization in human platelets has been analyzed by using the DNase I inhibition assay, which is selective for unpolymerized and filamentous actin. The results provide biochemical evidence for the suggestion that stimulation leads to rapid polymerization of actin. The measurements also reveal changes in the polymerization state of actin occurring after cell lysis. These changes are influenced by the concentration of free calcium in the extracts.
Proc Natl Acad Sci U S A 1979 Dec
PMID:Reorganization of actin in platelets stimulated by thrombin as measured by the DNase I inhibition assay. 11 66

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

Differential expression of the closely linked gamma, beta(A) (or beta(B)), and beta(C) globin genes in sheep results in the production of fetal hemoglobin (Hb F, alpha(2)gamma(2)) during gestation and the adult hemoglobins (Hb A, alpha(2)beta(2) (A), and Hb B, alpha(2)beta(2) (B)) after birth. Erythropoietic stress in certain animals leads to production of Hb C (alpha(2)beta(2) (C)). The molecular mechanism of differential expression of these genes in nuclei of fetal and adult erythroid cells has been investigated by analysis of their susceptibility to digestion by DNase I (genes that are in the conformation associated with active transcription are sensitive to this nuclease). The concentration of globin gene sequences in DNA from control and DNase I-digested nuclei was determined by annealing to synthetic DNAs and analogous cDNA probes derived from recombinant plasmids containing one of the sheep globin genes. In nuclei from sheep fetal liver erythroid cells, the gamma genes but not the beta genes were digested by DNase I; the gamma locus was open but the beta(A) or beta(C) loci was closed, consistent with synthesis of only Hb F by these cells. DNase I digestion of nuclei from bone marrow of anemic sheep making only Hb C or Hb B resulted in equivalent digestion of the beta and gamma gene sequences, although gamma mRNA was not detected in these cells. Digestion by DNase I did not decrease the globin gene sequence concentration in residual DNA of spleen nuclei. As a further control, DNA from digested bone marrow and spleen nuclei were shown to anneal equally well to a cDNA prepared from liver polysomal mRNA. Differential expression of the gamma and beta globin genes in sheep fetal erythroid cell appears to be based on differences in chromatin structure. The gamma globin gene remains in the active conformation in adult erythroid cells; failure of gamma mRNA to accumulate in these cells probably reflects transcriptional or post-transcriptional regulation.
Proc Natl Acad Sci U S A 1978 Dec
PMID:Hemoglobin switching in sheep: only the gamma gene is in the active conformation in fetal liver but all the beta and gamma genes are in the active conformation in bone marrow. 28 9

Leukemic AKR mouse spleen cells suppress normal AKR anti-sheep erythrocyte antibody responses in vitro. Treatment of leukemic spleen cells with DNase I prior to coculture with normal AKR cells abrogates their suppressive ability. Treatment of leukemic cells with a wide range of DNase I concentrations has no effect on the viability of these cells as measured by incorporation of [(3)H]thymidine or by eosin dye exclusion. When the activating divalent cations required for DNase I action are functionally removed in the enzyme treatment medium by chelation with EDTA, the ability of DNase I to abrogate suppression is abolished. Furthermore, the effects of DNase I in overcoming suppression are not able to be mimicked by trypsin, Pronase, or ribonuclease. These results are consistent with the existence of a population of cells in the leukemic spleen that expresses a form of membrane-associated DNA that functions in the suppression of normal antibody responses. The existence of such a population was shown by treating leukemic spleen cells with anti-single-stranded-DNA and then passing them through an anti-immunoglobulin immunoadsorption column. Approximately 15% of the leukemic cells are retained on the column and can be specifically eluted with the normal immunoglobulin. The cells of this enriched population when cocultured with normal spleen cells exhibit a 10-fold greater suppressive ability than unfractionated cells. Thus, there exists in the spleens of overtly leukemic AKR mice a population of cells expressing a form of DNA on their surfaces that in some manner is necessary for immunosuppression.
Proc Natl Acad Sci U S A 1978 Dec
PMID:Leukemia in AKR mice: a defined suppressor cell population expressing membrane-associated DNA. 36 15

Detailed analysis of the DNA fragment patterns produced by DNase I digestion of yeast, HeLa, and chicken erythrocyte nuclei reveals surprising features of nucleosome phasing. First, the spacer regions in phased yeast chromatin must be of lengths (10m + 5) base pairs, where m = 0, 1, 2,.... This feature is not seen in parallel studies of chicken erythrocyte chromatin. The 5-base pair increment in the yeast spacer imposes interesting restraints on the higher order structure of yeast chromatin. Second, we have been able to simulate the DNase I cutting patterns and get good agreement with the observed yeast patterns. Third, three different chromatins show a long range periodicity in the DNase I digest pattern, with a period half that of the staphylococcal nuclease repeat. These results suggest that the amount of chromatin observed in discrete extended-ladder bands is a minimum estimate of phasing and in fact phasing may be a more general feature.
Proc Natl Acad Sci U S A 1979 Dec
PMID:Organization of spacer DNA in chromatin. 39 19

To analyse the relationship between DNA undermethylation at some sites in the ovalbumin and conalbumin gene regions (1) and the expression of these genes in chick oviduct, digestions with HhaI, which differentiates between methylated and unmethylated HhaI restriction sites, was performed on DNA isolated from chicken erythrocyte or oviduct chromatin treated with DNase I which degrades preferentially "active" chromatin. This was followed by analysis with ovalbumin- and conalbumin-specific hybridization probes. We conclude that the residual DNA methylation found at some sites of the ovalbumin and conalbumin gene regions is derived from the fraction of cells in which the chromatin of these genes is not in an "active" form. On the other hand, the ovalbumin and conalbumin sites which are partially unmethylated in erythrocyte DNA correspond to chromatin regions which are not DNase I-senitive. We have also detected a site about 1 kb downstream from the 3' end of the conalbumin gene that is hypersensitive to DNase I in all tissues tested.
Nucleic Acids Res 1979 Dec 20
PMID:DNA methylation: correlation with DNase I sensitivity of chicken ovalbumin and conalbumin chromatin. 52 15

Deoxyribonuclease I (DNase I) is known to preferentially digest the adult globin gene sequences in avian red blood cells. We have investigated the contribution of histones H1 and H5 in maintaining the nuclease-sensitive structure about the globin genes. When the lysine-rich histones H1 and H5 were selectively removed from avian red blood cell nuclei, the rate of digestion with DNase I increased several fold. However, the globin genes in H1-and H5-depleted nuclei were still selectively digested. Since histone H1 is necessary for the higher order folding of the nucleosomes, these data suggest that DNase I recognizes an aspect of structural heterogeneity within each core particle rather than some higher order packaging of the nucleosome cores.
Biochemistry 1978 Dec 12
PMID:Lysine-rich histones and the selective digestion of the globin gene in avian red blood cells. 72 13

Digestion of fixed metaphase chromosomes by endonucleases (micrococcal nuclease and DNase II) under optimal digestion conditions followed by Giemsa staining produces sharp banding patterns identical to G-bands. In 3H-thymidine labeled, synchronized metaphase cells of the chinese hamster (CHO line), the band induction is accompanied by the removal of DNA. The single strand specific nuclease S1 and DNase I do not produce such banding patterns.
Chromosoma 1978 Dec 06
PMID:Responses of mammalian metaphase chromosomes to endonuclease digestion. 74 3

Isolated HeLa cell nucleosomes (core particles) were labeled at the 5'-termini of their DNA with 32P using [gamma-32P]ATP and polynucleotide kne by sequential methylation, depurination, Schiff base formation, and reduction with sodium borhydride. After digestion of the noncrosslinked DNA by DNase I and venom phosphodiesterase, histones were separated by gel electrophoresis and those crosslinked to the 5'-termini were identified by 32P-autoradiography. Histones H3 and H4 occur with equeal frequency as the nearest protein neighbors to the end of the DNA in nucleosomes. Histone arrangements within the core particle compatible with these results are discussed.
Proc Natl Acad Sci U S A 1976 Dec
PMID:Histones H3 and H4 interact with the ends of nucleosome DNA. 106 92

This paper presents data about the presence of the NMN adenylyltransferase at the nuclear matrix level of human placenta nuclei. It was found that 40-45% of the activity (depending on the extraction procedure) referred to the total nuclear NMN adenylyltransferase was tightly associated with this subnuclear compartment. The matrices purified by two different procedures exhibited DNA, RNA and protein contents comparable with those described in literature. Extensive digestion of human placenta nuclei with DNase I was not able to solubilize the NMN adenylyltransferase activity. Therefore, the data we present are consistent with the conclusion that a part of the total nuclear NMN adenylyltransferase is associated with the nuclear matrix.
Biochem Biophys Res Commun 1992 Dec 30
PMID:Nuclear matrix-associated NMN adenylyltransferase activity in human placenta. 128 98

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