Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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

Bleomycin (BLM) exclusively affects thymidine-containing compounds such as DNA and polydeoxyribonucleotides by releasing free thymine and leaving aldehyde functions. Molecular morphology and base sequence of the DNA strongly influence BLM activity. High BLM concentrations, besides modifying DNA into oligothyminic or athyminic nucleic acids, cause strand scissions. Enzymatic DNA and RNA synthesis is strongly influenced by BLM. The inhibition in DNA-dependent DNA polymerase and DNA-dependent RNA polymerase assays is of the non-competitive type. Protein biosynthesis in in vitro systems is not affected by BLM even at high concentrations. BLM turns out to be a strong inhibitor of DNase I and of DNase II; the inhibition is of the competitive type. The enzymatic activities of nucleases using RNA as substrate (RNase A, RNase B, Rnase T1, venom phosphodiesterase I and spleen phosphodiesterase II) are not influenced by this antibiotic. The antibiotic reduces cell proliferation (L5178y mouse lymphoma cells) in vitro in low concentrations by cytostasis and at higher concentrations by cytotoxicity. In BLM-treated L5178y cells, DNA synthesis is strongly reduced, while RNA and protein synthesis are not affected. In vivo, using growing quail oviducts, cell proliferation and cytodifferentiation are markedly inhibited after BLM treatment. This is attributed to the observed inhibition of DNA synthesis. RNA and protein synthesis as well as gene expression are not influenced by BLM under the conditions used. The selective inhibition of DNA synthesis in vivo may be caused by the following mechanisms: (1) competition of BLM with RNA; (2) blocking of the accessibility of DNA in chromatin to BLM, and (3) dependence from the repair processes. BLM inhibits growth of sarcomas, induced by oncogenic RNA viruses in vivo; well-developed tumours show regression after BLM treatment. Transformation of chick embryo fibroblasts by oncogenic RNA viruses in vitro and growth of these viruses is blocked by BLM; the most sensitive period for BLM inhibition is the time during the first period (integration of viral genome into cellular genome?) after infection.
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PMID:Effect of bleomycin on DNA, RNA, protein, chromatin and on cell transformation by oncogenic RNA viruses. 6 69

Small oligonucleotides from DNA and RNA have been separated according to their base composition by high-performance anion-exchange liquid chromatography on Partisil-10 SAX using triethylammonium acetate buffer as the eluent. Fifteen of the 16 possible deoxydinucleoside monophosphates and all 16 dinucleoside monophosphates have been separated. All pairs of sequence isomers were all resolved. The 15 commercially available deoxydinucleotides were resolved into 13 fractions. A good resolution of deoxytrinucleoside diphosphates isolated from an alkaline phosphatase-Mg2+-activated DNase I digest of calf thymus DNA was achieved by this technique. A large number of sequence isomers could be fully separated. The base sequence of the eluted individual constituents has been determined by their hydrolysis with snake venom and spleen phosphodiesterase followed by high-performance liquid chromatographic analysis of the nucleotides released. The eight trinucleoside diphosphates isolated from an alkaline phosphatase-pancreatic RNase digest of yeast RNA have also been separated according to base composition. Their sequence was determined as above. The described technique is fast and gave very good separation. Most of the sequence isomers could be separated. Moreover, the eluent triethylammonium acetate can easily be removed from column effluents by freeze-drying in order to facilitate subsequent sequence analysis of the eluted compounds. The observed elution orders of the sequence isomers obey certain rules which are discussed in detail.
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PMID:Separation of small DNA and RNA oligonucleotides by high-performance anion-exchange liquid chromatography. 9 13

We report two new findings bearing on the "supranucleo-somal" level of the structure of the Simian Virus 40 minichromosome. I) Isolated SV40 minichromosome which contains all five histones including HI/I/ exists in solution under approximately physiological ionic conditions as a compact roughly spherical particle approximately 300 A in diameter which is capable of fitting within the virus capsid. In spite of such a compact conformation of the minichromosome individual nucleosomes can be readily visualized within the particle. Compact state of SV40 minichromosome depends on both the presence of histone HI and maintenance of approximately physiological ionic strength of solution (micron approximately 0.15). Removal of HI results in a conversion of the compact minichromosomes into an extended (circular beaded) structure. 2) The compact form of the SV40 minichromosome in contract to its circular beaded form is virtually completely resistant to staphylococcal nuclease, strongly suggesting that in particular nuclease-sensitive parts of the internucleosomal DNA regions are not exposed on the outside of the compact SV40 minichromosome. On the other hand, DNase I which is known to attack both inter-and intranucleosomal DNA in the chronatin /2,3/ readily digests the compact form of the SV40 minichromosome. Possible models of the compact minichromosome and implications for higher order structures of the cellular chromatin are discussed.
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PMID:Compact form of SV40 viral minichromosome is resistant to nuclease: possible implications for chromatin structure. 20 Aug 92

We digested polyoma virus nucleoprotein complex, isolated from disrupted virions, with micrococcal nuclease and DNase I. The results were compared with digestions of chromatin from mouse nuclei. The nucleosome "core" structures were similar, but the spacing of the nucleosomes in the isolated polymoma nucleoprotein complexes was irregular, whereas in mouse chromatin it was regular. The average nucleosome repeat length in each case was 190 to 200 base pairs. This figure suggests that, unless there are substantial stretches of free DNA, the polyoma nucleoprotein complex contains about 26 nucleosomes. The commonly used method of preparing the nucleoprotein complex by disruption of virions at pH 10.2 may lead to significant damage to the structure. Such damage may be more clearly revealed by the susceptibility of the DNA to nuclease digestion than by the usual criteria of sedimentation velocity and buoyant density.
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PMID:Comparison of nuclease digestion of polyoma virus nucleoprotein complex and mouse chromatin. 20 34

The action of micrococcal nuclease, DNase I and DNase II on mouse TLT hepatoma chromatin revealing the periodicity of its structure as visualized by denaturing and non-denaturing gel electrophoresis, was consistent with the action of these enzymes on other chromatins. Micrococcal nuclease showed a complex subnucleosome fragment pattern based on multiples of 10 base pairs with a prominant couplet at 140/160 base pairs and the absence of the 80 base pair fragment. This couplet of the core and minimal nucleosome fragments was conspicuously present in the mononucleosomes found in the 11S fractions of a glycerol gradient centrifugation. DNase I and II produced a fairly even distribution of a 10 base pair increasing series of fragments to about 180 base pairs, a pattern also repeated in the DNA of nucleosome glycerol-gradient fractions. In limited digestions by these nucleases multinucleosomic DNA fragments are pronounced. These fragment lengths are multiples of an estimated average repeat length of nucleosome DNA of 180 base pairs. The action of the endogenous Mg/Ca-stimulated endonuclease produced only limited cuts in the hepatoma chromatin resulting primarily in multi-nucleosomic DNA fragment lengths and only upon lengthy digestion limited subnucleosomic, 10-base-pair multiple fragments are produced. The putative euchromatin-enriched fractions (50-75S) of the glycerol gradient centrifugation of autodigested chromatin, similarly, contained primarily the multinucleosomic DNA fragment lengths. These results are consistent with our previous electron microscopic demonstration that autodigested chromatin as well as the putative euchromatin-enriched fractions were composed of multi-nucleosomic chromatin segments containing a full complement of histones.
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PMID:Periodicity and fragment size of DNA from mouse TLT hepatoma chromatin and chromatin fractions using endogenous and exogenous nucleases. 20 20

Aqueous solutions of DNA were gamma-irradiated in the presence and absence of oxygen and enzymatically hydrolysed by the combined action of pancreatic deoxyribonuclease (DNase I), snake-venom phosphodiesterase (PDE I), spleen phosphodiesterase (PDE II) and alkaline phosphatase. In contrast to unirradiated DNA, which is fully hydrolysed to nucleosides by these enzymes, gamma-irradiated DNA yields a series of oligonucleotides. Their isolation might enalbe the future identification of the chemical nature of DNA lesions.
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PMID:Enzymatic digestion of DNA gamma-irradiated in aqueous solution separation of the digests by ion-exchange chromatography. 21 Jan 33

Poly(adenosine diphosphate ribose) polymerase, a chromatin-bound enzyme, was stimulated 150 to 200% after treatment of HeLa cells with methylnitrosourea (MNU). In contrast, a slight inhibitory effect on enzyme activity was observed after treatment of cells with various concentrations of chloroethylnitrosoureas. To define precisely the differential effects of nitrosoureas on the enzyme activity, their interactions with chromatin substructure were studied. A nonrandom, in vivo alkylation of chromatin DNA by equimolar concentrations of MNU and 1-(2-chloroethyl)-3-cyclohexyl-1-nitrosourea (CCNU) was revealed by digestion of nuclei from drug-treated cells with micrococcal nuclease and DNase I. [methyl-14C]MNU interacted preferentially with the more accessible regions of chromatin, the internucleosome linkers, whereas, the [chloroethyl-14C]CCNU alkylated the nucleosomal core DNA to a greater extent. These two drugs also differed in their extent of covalent modification of histone and nonhistone chromosomal protein. The binding of MNU to histones was greater than of CCNU. CCNU mainly affected nonhistone proteins. This difference in the reactivity of methyl and chloroethyl nitrosoureas with chromatin may relate to their differential effect on poly(adenosine diphosphate ribose) polymerase activity, as well as to their carcinogenic and antitumor properties.
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PMID:Nitrosourea interaction with chromatin and effect on poly(adenosine diphosphate ribose) polymerase activity. 21 35

Nuclei and chromatin from trout testis cells were digested with three different nucleases (DNase I, DNase II, and micrococcal nuclease), and the acid-soluble proteins that were solubilized and those remaining bound to the nuclease-resistant DNA were compared electrophoretically. With the conditions described by H. Weintraub and M Groudine [(1976) science, 193, 848-856], which we previously found to be selective in digesting actively transcribed regions in trout testis chromatin, a single chromosomal protein, H6, was solubilized. The nucleosomal histones and H1 remained insoluble, bound to the resistant DNA. In contrast, digestion with micrococcal nuclease led to a preferential solubilization of a second protein, HMG-T, together with the release of some nucleosomal histones and H1 into the soluble fraction. DNase II also discriminated between "active" and "inactive" chromatins; when a DNase II-solubilized "active" chromatin fraction was prepared, it too was enriched in H6 and HMG-T. Thus, both H6 and HMG-T, the two major low-salt extractable chromosomal nonhistone the two major low-salt extractable chromosomal nonhistone proteins from trout testis, are associated with chromatin regions selectively sensitive to nucleases. The preferential solubilization of HMG-T by micrococcal nuclease action suggests that it might be located at the internucleosomal "spacer" region.
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PMID:Selective association of the trout-specific H6 protein with chromatin regions susceptible to DNase I and DNase II: possible location of HMG-T in the spacer region between core nucleosomes. 26 31

In vitro DNA synthesis was studied in HeLa cell nuclei, with emphasis on the question of whether newly replicated DNA is associated with nucleosomes. The newly replicated DNA was twice as sensitive to digestion by micrococcal nuclease as mature chromatin DNA, reaching a limit digest at 20-25% acid-insoluble product. Examination of the intermediates of digestion by micrococcal nuclease showed the nuclease-resistant, new DNA to be complexed in nucleosomes. However, structural differences were evident at both the polynucleosomal and the core particle level. The nucleosomes on newly replicated DNA were arranged with a repeat size of 165-170 base pairs-i.e., smaller than the 185-base-pair repeat of mature chromatin. The heterogeneity of polynucleosomal multimers, evident in digests of whole chromatin, was reduced in newly replicated chromatin such that the multimers resolved as sharply defined bands. Nucleosomal core particles associated with newly replicated DNA had a different conformation from particles in mature chromatin based on the following lines of evidence: (i) during micrococcal nuclease digestion, the monomer nucleosomes did not accumulate but were rapidly degraded under certain conditions; (ii) micrococcal nuclease limit digest patterns and DNase I digestion patterns, both of which reflect internal nucleosomal protein DNA associations, differed significantly from control patterns. These findings bear directly on models postulated for nucleosome-DNA interactions during chromation replication. A possible mechanism to account for the conformational change and its role in replication are discussed.
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PMID:Nucleosomes associated with newly replicated DNA have an altered conformation. 27 40


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