EC:3.1.30.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Telomeric heterochromatin can be demonstrated in Allium cepa chromosomes when root tip squashes are subjected to a C-banding procedure (treatment with saturated barium hydroxide for 10 min, followed by 1 h in phosphate buffer at 60 degrees C). Acridine orange (A0) staining indicated that the chromosomal DNA was denatured by the alkaline treatment and that it renatured within the first 3-7 min in the hot buffer. The DNA of the telomeres reannealed somewhat faster than the rest of the chromosomal DNA, but the AO staining suggested that all chromosomal DNA was double stranded after 7 min in buffer. Digestion of the chromosomes with a single strand specific nuclease, DNase S1, followed by Feulgen staining, demonstrated that the AO staining gives a somewhat misleading picture of the extent of DNA denaturation and renaturation. The S1 nuclease results showed that the chromosomal DNA was completely denatured by the alkaline treatment, but that a fraction of the DNA reannealed during the deionized water wash that preceded the incubation in hot buffer. Neither controls nor chromosomes subjected to the complete C-banding procedure were affected by S1 nuclease digestion, demonstrating that virtually all of the chromosomal DNA was double stranded both before and after the C-banding process. These results, along with the fact that the appearance of the bands was unaffected when the buffer incubation was performed at high (80 degrees C) or low (40 degrees C) temperature, indicated that differential DNA denaturation and renaturation is unlikely to be responsible for C-banding in this species.
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PMID:Differential rates of DNA denaturation and renaturation in situ in relation to the C-banding of Allium cepa chromosomes. 75 82

Exposure of exponentially growing L1210 cells to 5 mM and higher concentrations of caffeine perturbs their progression through the cell cycle and results in increased sensitivity of DNA in situ to denaturation. The latter is detected by the increased metachromatic stainability of DNA with acridine orange (AO) and sensitivity to S1 nuclease, measured by flow cytometry. Decreased DNA stability is generally characteristic of chromatin condensation and in untreated cells is observed in mitosis or quiescence (G0). The caffeine-induced decrease in DNA stability affects the interphase cells regardless of their position in the cycle and the changes are stochastic, concentration- and time-dependent. Populations of cells responding to caffeine are very heterogenous with respect to the degree of destabilization of DNA; sensitivity of DNA to denaturation of the maximally affected cells is similar to that of untreated cells in mitosis. The present method allows one to quantitatively express effects of caffeine on nuclear chromatin in individual cells of large cell populations and may be employed in studies correlating chromatin changes induced by this agent with its effects in modulation of cell sensitivity to radiation or antitumour drugs.
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PMID:Caffeine increases sensitivity of DNA to denaturation in chromatin of L1210 cells. 168 15

A novel virus isolated from the feather follicles of cockatoos diagnosed as having psittacine beak and feather disease was characterized by electron microscopy, nucleic acid content, and polypeptide composition. Purified virions displayed an icosahedral symmetry, were nonenveloped, and had a mean diameter of 14 to 16 nm negatively stained. Three major viral proteins were identified, with approximate molecular weights of 26.3, 23.7, and 15.9 kDa. The viral nucleic acid was found to be single-stranded DNA based on acridine orange staining, resistance to alkali and ribonuclease, and sensitivity to both DNAse 1 and S1 nuclease. The size of the DNA was estimated to be between 1.7 and 2.0 kb by agarose gel electrophoresis. This size and its circular conformation were confirmed by electron microscopy. A preliminary transmission study using purified virus induced pathological lesions characteristic of those observed in the natural disease. On the basis of the extremely small size of the virions and the single-stranded circular viral DNA, we propose that the etiologic agent of psittacine beak and feather disease represents a previously undescribed viral pathogen.
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PMID:Characterization of a new virus from cockatoos with psittacine beak and feather disease. 274 50

We have used hydroxyapatite (HA) chromatography and S1 nuclease hydrolysis to study the modification in the secondary structure of DNA caused by certain intercalating and non-intercalating ligands. The principal conclusions of HA experiments were as follows: (1) when native DNA, complexed with drugs believed to bind to DNA by intercalation (ethidium bromide, acridine orange, actinomycin D and acriflavin), is chromatographed on HA a lower affinity of DNA for HA is observed; also, the DNA elutes from HA columns as a drug-DNA complex; (ii) ligands that are known to interact with DNA by surface interactions do not show these effects; (iii) it may be possible to quantitate the binding of the intercalating drug to DNA and to determine its degree of binding by HA chromatography. Possibly, intercalation causes a change in the configuration of the sugarphosphate backbone of DNA, resulting in an altered steric orientation or 'burial' of phosphate groups with reduced availability for surface interactions with HA. S1 nuclease was used to determine the thermal melting profiles of DNA complexed with ethidium bromide and acridine orange. The melting profile in both cases was found to be biphasic with considerably reduced denaturation even at 95 degrees C. This is accounted for by the property of intercalating agents of stabilizing the secondary structure of DNA and the reported preference in binding to G-C base pairs.
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PMID:Interaction of intercalating and non-intercalating agents with DNA: use of hydroxyapatite chromatography and S1 nuclease. 298 59

Fixed and unfixed human chromosomes, as well as fixed rye chromosomes were treated with S1 nuclease, which specifically cleaves single stranded DNA. Subsequent staining with either acridine orange, ethidium bromide or Giemsa revealed that, contrary to what has previously been reported, S1 digestion extensively altered chromosomal morphology and staining intensity, although the alteration was more pronounced in fixed as compared to unfixed metaphases. A number of mechanisms, which may account for our findings, have been invoked: a) the presence in metaphase chromatin of B-DNA/Z-DNA transitional junctions, b) the induction, by alcohol: acid fixation procedure, of nicks within regular B-DNA conformation and c) the induction of sites available to S1 by torsional stress due to metaphase high condensation degree.
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PMID:S1 nuclease removes DNA from eukaryotic metaphase chromosomes: cytological evidence. 299 24

The interaction of ethidium bromide (EtBr) with double-stranded (ds), and acridine orange (AO) with single-stranded (ss) fragments of 16S rRNA Escherichia coli in a wide range of ionic strength, at various pH, Zn2+ ion concentrations and partial hydrolysis by nuclease S1 was investigated. It was shown that about 90% of the RNA molecule is accessible to both dyes, when the ionic strength is near of 0.01 (pH 7). Approximately half of the RNA becomes inaccessible to dyes, when the ionic strength was increased up to 0.08-0.24 (pH 4.7-7), independent on the presence of Zn2+ ions (10(-3) M). About a half of the ds-, and a quarter of the ss-segments of the RNA, deduced from the secondary structure model were protected from the interaction with EtBr and AO. The hydrolysis of about a half of ss-segments upon addition of the Zn2+ (10(-3) M) ions did not affect the RNA tertiary structure. The experimental data obtained confirm the idea of the existence of some "nucleus" (or "nuclei") within the 16S rRNA molecule. The "nucleus" seems to be inaccessible to the dyes and is very stable to heat denaturation. It was supposed that this structure is organized by means of interaction of some of the parallelly oriented ds-segments, as it was suggested earlier for the phage MS2 RNA structure.
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PMID:[Comparison of the conformation of RNA from phage MS2 and 16S rRNA. Interaction with dyes specific for the secondary structure of native RNA and RNA subjected to hydrolysis by nuclease S1]. 329 45

The bacteriophage MAC-1, which specifically infects Bdellovibrio bacteriovorus, was plaque purified and raised to high titre. The phage was purified by NaCl/polyethylene glycol precipitation, followed by two cycles of isopycnic density gradient centrifugation in CsCl. The purified phage exhibited a density of 1.363 g cm-3 and a sedimentation coefficient of 94S. Nucleic acid isolated from purified phage was resistant to hydrolysis under alkaline conditions and to digestion with RNAase, but it was hydrolysed by DNAase, providing evidence that the phage genome is made up of DNA. The lack of hyperchromic effect upon denaturation, hydrolysis of phage DNA by S1 nuclease, characteristic fluorescent staining with acridine orange, and resistance to digestion with a variety of restriction endonucleases are consistent with the DNA being single-stranded. A buoyant density of 1.722 g cm-3 and a sedimentation coefficient of 17.9S were obtained for the phage DNA. The molecular mass of phage DNA was determined as 1.58 MDa by agarose gel electrophoresis with single-stranded DNA as standards. Electron microscopy of the DNA showed that the genome is circular in nature. In addition, using Southern blots, the two replicative forms, RF1 (supercoiled) and RF2 (circular) have been identified and isolated from infected cell extracts.
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PMID:Characterization of Bdellovibrio bacteriovorus bacteriophage MAC-1. 344 45

The effects of the mutagenic agent ethylnitrosourea (ENU) on spermatogenic function and sperm chromatin structure were studied by flow cytometry and the results compared with sperm head morphology measurements. Groups of mice received daily exposures ranging from 0 to 75 mg/kg body weight X 5 days and were sacrificed 28 days later. Fresh testicular cell suspensions and epididymal sperm were stained with acridine orange (AO) and measured by flow cytometry. Sperm nuclei were isolated, fixed, rehydrated, and then either subjected to thermal stress or not prior to staining with AO. Body weights were unaffected by the chemical exposure while the testicular weights were reduced by about 50%. Two-parameter (DNA, RNA) flow cytometry measurements showed a dose-response relationship in the loss of certain cell types, particularly the elongated spermatids, from the testes of treated animals. Flow cytometric analysis of both heat-stressed and non-heat-stressed nuclei showed a relationship between dosage and the coefficient of variation of alpha t [red/(red + green fluorescence)] measurements of AO stained nuclei, thereby demonstrating that alterations of chromatin structure occurred in response to ENU. Enzymatic digestions with RNAse, DNAse, and nuclease S1 suggest that the increase in red fluorescence is due to an increase of single-stranded DNA induced by heat or acid treatment of chemically altered chromatin structure. The lowest daily dosage used (5 mg/kg) caused no significant changes in ratios of testicular cell types, a questionable increase in abnormal sperm head morphology and a detectable change in chromatin structure expressed as alpha t. This report shows that our technique for assaying sperm nuclear chromatin structure appears to have the same level of sensitivity to ENU induced nuclear alterations as the sperm head morphology test.
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PMID:Flow cytometric analysis of mouse spermatogenic function following exposure to ethylnitrosourea. 399 39

Recently we reported a precise and straightforward method for genotyping of single nucleotide polymorphisms (SNPs) in double-stranded DNA substrates. The substrates were consecutively treated by two enzymes (exonuclease III and nuclease S1) in the presence of peptide nucleic acid (PNA) probes, and the resultant DNA fragments were analyzed by mass spectroscopy. Here, the selectivity of DNA scission by nuclease S1 has been greatly improved by attaching an acridine to the PNA probes. Modification at the C-terminus was especially effective. The number of DNA fragments formed has been greatly decreased so that double-stranded DNA substrates can be genotyped by using the two enzymes still more easily and precisely.
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PMID:High-throughput SNP genotyping by combining exonuclease III, nuclease S1, and acridine-bearing PNA. 1715 May 39