EC:3.1.25.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.25.1 (deoxyribonuclease)
1,471 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rat uterine and anterior pituitary microsomes each contain a population of specific estrogen-binding sites. Saturation binding of estradiol is demonstrable, with an affinity similar to that of the cytosol estrogen receptor (Ka = 1-2 X 10(10) M-1). Dissociation rate kinetic determinations, however, revealed that estrogen-microsomal complexes are 4 times as stable as cytosol estrogen-receptor complexes. Sedimentation properties in sucrose gradients were salt-dependent, yielding values of 10S in KCl-free buffer and 5.5S in the presence of 0.4 M KCl. The concentration of microsomal sites varies in proportion to the level of cytosol estrogen receptor, such that microsomal binding constitutes a consistent 20% of the total extranuclear binding capacity. Binding is sensitive to pronase, but not to ribonuclease or deoxyribonuclease; steroidal specificity differs from cytosol receptor only with respect to a greater extent of competition by progesterone. Microsomal binding sites are readily extractable with KCl-free hypotonic buffer or with 0.4 M KCl, but are resistant to extraction by 0.15 M KCl. The presence of estradiol lends stability to the microsomal binding sites, while high salt has a deleterious effect on their longevity. After exhaustive extraction of binding sites, microsomes are capable of accepting cytosol estradiol-receptor complexes to a level corresponding to the concentration of depleted binding sites; microsomes from nontarget tissue do not manifest such capability. However, the original microsomal estrogen-binding sites are not simply cytosol receptor contaminants, as evidenced by the observations that the microsomal binding site concentration is independent of the volume of tissue homogenate (indicating that a trapping phenomenon is not operative) and that nonextracted microsomes are not potential acceptor sites for cytosol estradiol-receptor complexes. In considering total cellular dynamics of estrogen and estrogen receptor turnover, it thus becomes important to explore the role of the microsomal compartment, since it functions as a repository of specific estrogen-binding sites and may have significant acceptor capability for the cytosol estrogen-receptor complex.
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PMID:Specific binding of estrogen and estrogen-receptor complex by microsomes from estrogen-responsive tissues of the rat. 402 80

Axenic Tetrahymena pyriformis, syngen 1, mating type II cells were grown in Cox's defined medium. When washed and transferred into nonnutrient dilute salt solution or resuspended in the defined medium, the intact cells secrete acid hydrolases into the medium. Cells starving in the salt solution release in 5 hr about two-thirds of their beta-glucosidase, beta-N-acetylglucosaminidase, alpha-glucosidase, and amylase activities, about one-third of their deoxyribonuclease and phosphatase activities, smaller amounts of ribonuclease, and only a negligible fraction of their proteinase activity and protein content. During this period there is practically no change in the enzyme activities (except for a sudden increase of ribonuclease activity) and protein content of cells and medium together. Cells resuspended in the nutrient medium secrete enzymes as do the starved cells, but replace this loss, so that there is a continuous increase of the activities in the total system. According to isopycnic centrifugation experiments performed in sucrose gradients, the source of the hydrolases is a special population of lysosomes which disappear from the cells during starvation. This population equilibrates in the high density region of the gradients and contains the various acid hydrolases in about the proportion in which these enzymes appear in the medium.
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PMID:Secretion of acid hydrolases and its intracellular source in Tetrahymena pyriformis. 433 53

Early chicken embryos that are either positive or negative for group-specific antigens of avian leukosis viruses contained endogenous RNA-directed DNA polymerase activity. This endogenous DNA polymerase activity was not increased after mixture of soluble DNA polymerases isolated from chicken embryos with disrupted chicken embryo cells. The endogenous activity was resistant to treatment with deoxyribonuclease, and the initial rate of DNA synthesis was partially resistant to actinomycin D. In contrast, over 90% of the endogenous polymerase activity was destroyed by ribonuclease in medium with high salt concentration. The DNA product of the endogenous DNA polymerase activity from chicken embryos did not hybridize with RNA of Rous sarcoma virus or reticuloendotheliosis virus, whereas about 40% of this DNA product hybridized with the RNA from the same chicken-cell fraction. Antibody against DNA polymerase of avian myeloblastosis virus did not neutralize the chicken endogenous DNA polymerase activity. These results demonstrate that uninfected chicken embryo cells contain endogenous RNA-directed DNA polymerase activity that is not derived from avian leukosis or reticuloendotheliosis viruses.
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PMID:Endogenous RNA-directed DNA polymerase activity in uninfected chicken embryos. 433 97

Rapidly labeled RNA was extracted from monkey cells after infection with Simian Virus 40 (SV40) and exposure to short pulses of [5-(3)H]uridine late in infection. When this RNA was self-annealed, it became resistant to digestion with ribonuclease. The fraction of RNA that resisted the ribonuclease treatment decreased with increased labeling time, or when a short pulse of radioactivity was followed by incubation with unlabeled uridine and actinomycin D. The RNase-resistant RNA was isolated by chromatography on Sephadex G-100 and shown to be double-stranded by its susceptibility to ribonuclease as a function of salt concentration and temperature. This behavior was not due to RNA-DNA hybrid formation, since deoxyribonuclease had no effect upon the double-stranded molecules, even after their denaturation. The relation of the double-stranded RNA to SV40 was demonstrated by the hybridization of about 50% (corrected value, >90%) of the separated RNA strands with component I of SV40 DNA from plaque-purified virus. After self-annealing in formamide at low temperature, about 10% of the rapidly labeled, viral RNA sedimented at 13 S. This value corresponds in size to about 60% of the SV40 DNA.These observations indicate that late in infection of monkey cells, SV40 DNA is transcribed symmetrically over a considerable portion of its length, and that subsequently some sequences from one or both of the RNA strands are degraded.
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PMID:Extensive symmetrical transcription of Simian Virus 40 DNA in virus-yielding cells. 434 93

Two mutants with increased protease production were isolated after nitrosoguanidine treatment of Staphylococcus aureus 8325N. The wild type produces low amounts of extracellular proteolytic activity. The enzyme was inducible and could only be detected if casein or preferably skim milk powder was used as inducer. The optimal pH, salt concentration, and media for enzyme production were determined. The mutants differed from the wild type in several phenotypic characters. The pattern of extracellular deoxyribonuclease and alkaline phosphatase differed between the mutants and the wild type. Several carbohydrates such as lactose, galactose, and mannitol were not utilized by the mutants, probably owing to a block in the uptake. Glucose could, however, be utilized by the mutants. Reversion frequency to wild type with regard to carbohydrate utilization was spontaneously high, and all revertants regained the parental pattern irrespective of the carbohydrate used for selection. The results suggest that a single locus may control the excretion of extracellular enzymes and carbohydrate uptake in S. aureus.
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PMID:Isolation and characterization of two protease-producing mutants from Staphylococcus aureus. 435 82

The moderately halophilic bacterium Micrococcus varians, isolated from soy sauce mash, produced extracellular nuclease when cultivated aerobically in media containing 1 to 4 M NaCl or KCl. The enzyme, purified to an electrophoretically homogeneous state, had both ribonuclease and deoxyribonuclease activities. The nuclease had maximal activity in the presence of 2.9 M NaCl or 2.1 M KCl at 40 C. The enzymatic activity was lost by dialysis against low-salt buffer, whereas when the inactivated enzyme was dialyzed against 3.4 M NaCl buffer as much as 77% of the initial activity could be restored.
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PMID:Halophilic nuclease from a moderately halophilic Micrococcus varians. 485 18

Nuclei from confluent and mitotically arrested populations of human diploid fibroblast-like cells were subjected to digestion by micrococcal nuclease and deoxyribonuclease (DNase I) following the removal of various histone components by salt extraction. There was no age or culture state variation in the susceptibility of DNA to micrococcal nuclease digestion. There was an age related inhibition of DNA digestion by DNase I in nuclei from older confluent cells before and after the removal of H1 histone but not after the removal of core particle histones. This inhibition was not detected in older arrested populations. These results indicate that an age-related masking by nucleosome core histones may limit the accessibility of DNA to enzymatic activities in older confluent cells. Since this inhibition was absent in older arrested populations, the importance of limited DNA accessibility as a primary cause of cellular senescence is questionable.
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PMID:The effects of histones, in vitro age, and culture state on the digestion of DNA by micrococcal nuclease and deoxyribonuclease I. 622 86

Endonuclease V from E. coli infected with phage T4 was used to evaluate the frequency and the removal of pyrimidine dimers from DNA in cultured mammalian cells. Cellular membranes were made permeable to the enzyme by two cycles of rapid freezing and thawing. The number of endonuclease-sensitive sites in DNA was assayed by sedimentation in alkaline sucrose gradients upon which the cells were lysed directly. Comparison of the frequency of endonuclease-sensitive sites with the frequency of pyrimidine dimers determined by chromatographic analysis of hydrolysed DNA indicated that about 50% of the dimers in the permeabilized cells were substrates for T4 endonuclease V. This was confirmed by observation that when DNA treated with the enzyme in situ was purified, it contained the expected additional number of endonuclease-sensitive sites if again treated with the enzyme. The percentage of pyrimidine dimers recognized by T4 endonuclease V was enhanced to nearly 100% by exposing the permeabilized cells to 2 M NaCl before the enzyme was introduced. This method allowed the measurement of frequencies of endonuclease-sensitive sites after doses of UV irradiation at low as 0.5 J/m2. Loss of endonuclease sites from cellular DNA was observed during post-irradiation incubation of V79 Chinese hamster cells and several human cell strains. A comparison of the results obtained in human cells with or without the high-salt exposure before endonuclease treatment suggested that the dimers recognized under low-salt conditions may be removed slightly faster than those recognized only after high-salt exposure.
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PMID:Sensitive determination of pyrimidine dimers in DNA of UV-irradiated mammalian cells. Introduction of T4 endonuclease V into frozen and thawed cells. 626 56

We have used DNA-cellulose chromatography to isolate single-strand binding proteins from Tetrahymena thermophila. Three major proteins which bind to denatured DNA-cellulose were obtained. The predominant protein has a molecular weight of 20 000 in sodium dodecyl sulfate - polyacrylamide gel electrophoresis and possesses many of the properties of the helix destabilizing proteins isolated from prokaryotic and eukaryotic sources. The protein facilitates denaturation of the synthetic copolymer poly[d(A-T).d(A-T)], depressing the melting temperature by nearly 40 degrees C. It also permits the renaturation of poly[d(A-T)].d(A-T)] in high salt concentration. Two other binding proteins have molecular weight of 25 000 and 23 000 in sodium dodecyl sulfate - polyacrylamide gel electrophoresis. The protein with a molecular weight of 25 000 is probably the "M protein" previously isolated from Tetrahymena thermophila which has been shown to stimulate Tetrahymena DNA polymerase. These two proteins failed to show helix destabilizing, DNA dependent ATPase, or deoxyribonuclease activities. These three proteins are abundant in the cell with approximately 1.0 x 10(6) to 10.0 x 10(6) molecules of each protein monomer per cell. One molecule of each protein monomer binds to 7 to 10 nucleotides as detected by a nitrocellulose filter binding assay. Peptide mapping of the three proteins suggests that they are all distinct. We have also found that the binding proteins can interact with Tetrahymena DNA polymerase and some other proteins to form an enzyme complex, a putative replication complex.
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PMID:DNA binding proteins from Tetrahymena thermophila. 628 24

Transition of bovine ribonuclease A from its monomeric to a dimeric form changes the pattern of enzymic activity response to ionic strength [Sorrentino, S., Carsana, A., Furia, A., Doskocil, J., and Libonati, M. (1980) Biochim. Biophys. Acta. 609, 40-52]. To see whether this phenomenon could be common to other enzyme-substrate systems, the action of various dimeric and monomeric enzymes (ox pancreas deoxyribonuclease, hog spleen acid deoxyribonuclease, bovine seminal ribonuclease, egg-white lysozyme, and papain) on polyelectrolytic substrates has been studied under different conditions of ionic strength. Dimerization of ox pancreas deoxyribonuclease, lysozyme and papain was obtained by cross-linkage with dimethyl suberimidate. The main results of the investigation, similar to those obtained with ribonuclease A, are the following. 1. Enzyme monomers and dimers show markedly different patterns of activity response to ionic strength at given pH values: the reactions catalyzed by monomeric enzymes are highly modulated by salt, whereas those catalyzed by dimeric enzymes are not. In particular, at the reaction optimum the monomeric form of an enzyme is significantly more active than the dimeric one. 2. The optimum of the reaction catalyzed by a dimeric enzyme is shifted to higher ionic strengths in comparison with that of the reaction catalyzed by a monomeric enzyme. A model is proposed that could explain these results on the basis of the influence of ionic strength on the intramolecular dynamics of the enzyme molecule and its non-specific interactions with polyelectrolytic substrates.
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PMID:Dimerization of deoxyribonuclease I, lysozyme and papain. Effects of ionic strength on enzymic activity. 628 87

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