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)

Donor deoxyribonucleic acid strands in the eclipse phase of genetic transformation of pnuemococcus (Streptococcus pneumoniae) are purified as a complex with a cf the deoxyribonucleic acid strand in this complex to digestion by nucleases was shown to be 50- to 1,000-fold less than that of uncomplexed single strands of deoxyribonucleic acid. Deoxyribonuclease I, micrococcal nuclease, Neurospora endonuclease, nuclease P1, and the major endogenous nuclease of cell-free extracts were studied. Sensitivity to nuclease attack was not uniform along the deoxyribonucleic acid strand; sequences of strongly protected bases were separated by more sensitive regions. The minimum size of protected fragments was about 70 bases. A complex of protein with the protected deoxyribonucleic acid segments was obtained after partial digestion. The sizes of these complexes, of the protected deoxyribonucleic acid segments, and of the protein subunit released by complete nuclease digestion, are all approximately identical, as determined by gel exclusion chromatography. Deoxyribonucleic acid strands of eclipse complex were also shown to be particularly well protected from attack by the major pneumococcal endonuclease in cell extracts.
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PMID:Transformation in pneumococcus: nuclease resistance of deoxyribonucleic acid in the eclipse complex. 4 Sep 62

Deoxyribonuclease I causes depolymerization of filamentous muscle actin to form a stable complex of 1 mole DNAase I:1 mole actin. The regulatory proteins tropomyosin and troponin bind to filamentous actin and slow down but do not prevent the depolymerization. In the absense of ATP, heavy meromyosin binds tightly to actin filaments and blocks completely the DNAase I: actin filament interaction. Addition of ATP releases heavy meromyosin; DNAase I is then rapidly inhibited and the actin filaments are depolymerized.
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PMID:Depolymerization of F-actin by deoxyribonuclease I. 13 61

Deoxyribonuclease I penetrates herpesvirus-infected L cells and degrades host DNA without interfering with viral multiplication. The DNA of uninfected control monolayers of L cells, disrupted by scraping, is similarly attacked. In contrast, undisturbed L cells are not affected. This suggests that altered cell membrane permeability allows the nuclease to enter the cell, thereby permitting access of exogenous deoxyribonuclease to cellular DNA.
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PMID:Herpesvirus-induced availability of host DNA to exogenous endonuclease. 24 Dec 44

Deoxyribonuclease I has been purified from bovine parotid gland. The purification procedure utilizes an acid extraction of minced parotid gland, salt fractionation, gel filtration, and ion-exchange chromatography. The last step, chromatography on Sulfopropyl-Sephadex, resolves the enzymatic activity into several fractions. The major fraction, designated DNase A, was subjected to further investigation. This enzyme has, as expected, an alkaline pH optimum and an obligate requirement for divalent cations. The presence of calcium chloride protects DNase A from inactivation by proteolytic enzymes. Despite the previously described immunologic dissimilarity, there appears to be a large amount of homology between the parotid and pancreatic DNase's.
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PMID:Purification and partial characterization of deoxyribonuclease I from bovine parotid gland. 26 62

Metaphase chromosomes prepared from colcemid-treated mouse L929 cells by non-ionic detergent lysis exhibit distinct heterochromatic centromere regions and associated kinetochores when viewed by whole mount electron microscopy. Deoxyribonuclease I treatment of these chromosomes results in the preferential digestion of the chromosomal arms leaving the centromeric heterochromatin and kinetochores apparently intact. Enrichment in centromere material after DNase I digestion was quantitated by examining the increase in 10,000 X g pellets of the 1.691 g/cc satellite DNA relative to main band DNA. This satellite species has been localized at the centromeres of mouse chromosomes by in situ hybridization. From our analysis it was determined that DNase I digestion results in a five to six-fold increase in centromeric material. In contrast to the effect of DNase I, micrococcal nuclease was found to be less selective in its action. Digestion with this enzyme solubilized both chromosome arms and centromeres leaving only a small amount of chromatin and intact kinetochores.
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PMID:Selective digestion of mouse metaphase chromosomes. 64 80

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.
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PMID:Lysine-rich histones and the selective digestion of the globin gene in avian red blood cells. 72 13

We have determined the fraction of polyadenylated cytoplasmic RNA from trout testis complementary to unique and repetitive DNA. Some 21% of the cDNA probe representative of this RNA population renatures with rapid kinetics, characteristics of repetitive sequences. The major proportion of the cDNA renatures with unique sequence DNA. Experiments with fractionated cDNA probes allow us to conclude that, in trout testis, the most abundant polyadenylated mRNAs are not preferentially transcribed from repetitive DNA, as it has shown to be the case in two eukaryotic cell lines. Treatment of trout testis nuclei with DNase I, under conditions in which 10% of the total DNA is digested, preferentially depletes the DNA of sequences being transcribed into polyadenylated mRNA. These data confirm the results of H. Weintraub and M. Groundine [(1976) Science 193, 848-856] and those of A. Garel and R. Axel [(1976) Proc. Natl. Acad. Sci. U.S.A. 73, 3966-3970] and suggest that the conformation of DNA in the active genes of chromatin is such that it is more susceptible to digestion by DNaseI.
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PMID:Renaturation kinetics of cDNA complementary to cytoplamic polyadenylated RNA from rainbow trout testis. Accessibility of transcribed genes to pancreatic DNase. 86 96

The self complementary DNA dodecamers d(CGCGAATTCGCG), d(CGCGTTAACGCG), d(CGCGTATACGCG), d(CGCGATATCGCG), d(CGCAAATTTGCG), d(CGCTTTAAAGCG), d(CGCGGATCCGCG) and d(CGCGGTACCGCG) have been cloned into the Smal site of plasmid pUC19. Radiolabelled polylinker fragments containing these inserts have been digested with nucleases and chemical agents, probing the structure of the central AT base pairs. The sequences AATT and AAATTT are relatively resistant to digestion by DNase I, micrococcal nuclease and hydroxyl radicals, consistent with the suggestion that they possess a narrow minor groove. Nuclease digestion of TTAA is much more even, and comparable to that at mixed sequence DNA. TpA steps in ATAT, TATA and GTAC are cut less well by DNAse I than in TTAA. DNasel cleavage of surrounding bases, especially CpG is strongly influenced by the nature of the central sequence.
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PMID:Probing the conformations of eight cloned DNA dodecamers; CGCGAATTCGCG, CGCGTTAACGCG, CGCGTATACGCG, CGCGATATCGCG, CGCAAATTTGCG, CGCTTTAAAGCG, CGCGGATCCGCG and CGCGGTACCGCG. 133 76

Insulin-like growth factor I (IGF-I) is a potent regulator of postnatal growth in mammals, yet little is known about the developmental control of IGF-I synthesis. We have investigated the regulation of IGF-I expression in the rat in order to gain insight into the mechanisms of growth factor induction during early postnatal life. Steady-state levels of liver IGF-I mRNA increased by more than 15-fold during the period from fetal day 18 to postnatal day 7 and reached 50% of adult values by day 14. Transcription run-on experiments using isolated hepatic nuclei and direct analysis of nuclear RNA each demonstrated a comparable rise in nascent IGF-I mRNA over the same time period. Over 90% of transcripts were directed by promoter 1, the more 5' of the two IGF-I gene promoters. By contrast IGF-II gene transcription rates and mRNA levels fell during the first 3 weeks after birth, and albumin expression rose slightly. Analysis of chromatin structure around the IGF-I gene revealed 15 DNase I-hypersensitive sites in adult rat liver in the 120 kilobases (kb) comprising the 6 exon gene and its flanking regions (8 sites within 10 kb at the 5'-end including exons 1-3, 5 sites in the 50-kb third intron, and 2 sites in the 15-kb fifth intron). During development there was a progressive appearance of DNase I-hypersensitive sites that coincided with activation of IGF-I gene expression. One site that became fully hypersensitive by postnatal day 7 was mapped by in vivo DNAse I footprinting to the proximal 200 nucleotides of promoter 1. Since serum IGF-I values rose from 10 to 120 micrograms/liter during the initial postnatal week, these results indicate that transcriptional mechanisms are principally responsible for the stimulation of IGF-I synthesis that occurs shortly after birth. Because discrete changes in chromatin organization coincided with induction of IGF-I gene transcription, it is likely that a series of developmentally modulated transcription factors are involved the activation process.
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PMID:Chromatin changes accompany the developmental activation of insulin-like growth factor I gene transcription. 140 Apr 62

Five human clones containing genomic regions of polydA have been isolated by their ability to form intermolecular triple helices with agarose cross-linked polyU. All of these clones contain Alu repetitive DNA sequences. End-labelled DNA fragments containing these sequences have been successfully reconstituted onto nucleosome core particles by salt exchange. The structure of these has been examined by digesting with DNase I, hydroxyl radicals or diethylpyrocarbonate. DNase I cleavage of the polydA tracts is poor in the free DNA but is markedly enhanced at certain positions when complexed with nucleosome cores. Phased digestion patterns are observed which continue through the (A)n blocks and reveal an average helical periodicity of about 10 base pairs. The distance between adjacent maxima varies between 8-12 base pairs, suggesting that the exact helical repeat is not necessarily constant. One fragment containing the sequence (TA)11T34 reveals a 12 base pair repeat within the (AT)n region. A pUC19 polylinker fragment containing a block of A69.T69 cloned into the Smal site could also be reconstituted onto nucleosome cores and reveals the same phased DNaseI digestion pattern. The DNase I cleavage pattern is not identical at each of the maxima, suggesting that the structural distortions imposed by the core particles are not constant along the DNA.
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PMID:Wrapping of genomic polydA.polydT tracts around nucleosome core particles. 156 Oct 79

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