EC:3.1.31.1 - FACTA Search

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

Query: EC:3.1.31.1 (micrococcal nuclease)
2,818 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

With the use of a reconstituted poly(ADP-ribosyl)ating enzyme system and three purified nucleases, micrococcal nuclease (MN), bull seminal RNase (BS RNase) and Ca2+, Mg2+-dependent endonuclease (BS DNase), as model acceptor proteins for ADP-ribose, the effect of ionic strength on the modification reaction was examined in detail. When these three nucleases were extensively poly(ADP-ribosyl)ated in this system at a low ionic strength (5 mM Tris), they were all inhibited by about 80% and the chain length of the polymer covalently bound to the nucleases was 13 to 23 ADP-ribose units. The observed inhibition was markedly prevented by increasing the ionic strength in the reaction mixture with a concomitant decrease in the polymer size bound to the nucleases. The NaCl concentrations required for decreasing the extent of the inhibition to half of the maximum were calculated to be 20, 50, and 100 mM for MN, BS RNase, and BS DNase, respectively. These values are similar to the NaCl concentrations required for decreasing the average chain lengths of the polymer to half, suggesting that the length of polymer is closely correlated to the extent of inhibition of these nucleases. DNA-binding affinities of these nucleases, expressed in terms of the NaCl concentrations required for eluting the enzymes from DNA-cellulose, were 140, 280, and 340 mM for MN, BS RNase, and BS DNase, respectively. Considering that maintainance of a ternary complex of poly(ADP-ribose) synthetase, acceptor and DNA may be essential for the modification reaction, the relatively strong salt effect observed in the modification of MN may be explained by its low DNA-binding affinity.
...
PMID:Effect of ionic strength on chain elongation in ADP-ribosylation of various nucleases. 371 Oct 53

A new method to determine oligo- and poly(ADP-ribosyl)ated enzymes and proteins in vitro has been developed. This method is based on the facts that in Mg2+-depleted condition automodification of poly(ADP-ribose)polymerase is minimized and exogenously added acceptor protein is oligo(ADP-ribosyl)ated predominantly, and in Mg2+-fortified conditions the exogenous acceptor can be poly(ADP-ribosyl)ated. When 13 proteins, including several enzymes, were subjected to this system, dimeric bovine seminal RNase and micrococcal nuclease were found to be oligo(ADP-ribosyl)ated under Mg2+-depleted conditions but their activity was unchanged. Under Mg2+-fortified conditions however, the RNase was deactivated concomitantly with its extensive poly(ADP-ribosyl)ation. When dimeric bovine seminal RNase was monomerized in advance by treatment with dithiothreitol and urea, the enzyme lost ADP-ribose-accepting ability in spite of a significant residual enzyme activity. As used here successfully, the Mg2+-depleted and Mg2+-fortified ADP-ribosylation and subsequent chromatographic analysis of various proteins and enzymes might be an useful method for proving their oligo- and poly(ADP-ribosyl)ation.
...
PMID:A method for determining oligo- and poly(ADP-ribosyl)ated enzymes and proteins in vitro. 400 56

Changes in the volume of rat liver nuclei have been monitored as a function of modifications in ionic environment (from 0 to 20 mM), temperature (from 4 to 37 degrees C), and pH (from 1 to 8). An abrupt reduction of nuclear volume occurred with increasing ion concentration, this contraction being more pronounced with bivalent (either Ca2+ or Mg2+) than with monovalent (either Na+ or K+) cations. The lowering of pH produced a similar effect. Parallel changes in chromatin structure took place at the same time as phase-like transitions. Atomic absorption spectroscopy allowed determination of free and nuclei-bound ions, pointing to the presence of a sizeable number of free binding sites for chromatin-DNA even within intact nuclei. DNA-phosphate sites appear to be neutralized by ions strictly according to the size of the electric charge and polyelectrolyte theory. Partial digestion (by micrococcal nuclease) or simple breaks (by chemical carcinogens) of the chromatin-DNA fiber caused respectively elimination or reduction of the abrupt volume changes in the intact nuclei. The apparent role of chromatin structure versus nuclear matrix in determining the shape and volume of intact nuclei is briefly discussed.
...
PMID:Phase transitions in nuclei and chromatin. Is nuclear volume controlled by the chromatin or by the nuclear matrix? 621 Jan 46

When U1 and U2 small nuclear ribonucleoproteins (snRNPs) purified by a procedure which preserves their immunoprecipitability by autoimmune antibodies (Hinterberger et al., J. Biol. Chem. 258:2604-2613, 1983), were submitted to extensive digestion with micrococcal nuclease, we found that their degradation pattern was sharply dependent upon magnesium concentration, indicating that they undergo a profound structural modification. At low Mg2+ (less than or equal to 5 mM), both particles only exhibit a core-resistant structure previously identified as being common to all but U6 snRNAs (Liautard et al., J. Mol. Biol. 162: 623-643, 1982). At high Mg2+ (greater than or equal to 7 mM), U1 and U2 snRNPs behave differently from one another. In U1 snRNP, most U1 snRNA sequence is protected, except for the 10 5'-terminal nucleotides presumably involved in splicing and a short sequence between nucleotides 102 and 108. Another region spanning nucleotides 60 to 79 is only weakly protected. This structural modification was demonstrated to be reversible. In U2 snRNP, the U2 snRNA sequence remains exposed in its 5' part up to nucleotide 92, and the 3'-terminal hairpin located outside the core structure becomes protected.
...
PMID:Mg2+ induces a sharp and reversible transition in U1 and U2 small nuclear ribonucleoprotein configurations. 623 32

During digestion of deoxyribonucleoproteins (DNP) of gram-negative bacteria by micrococcal nuclease and Ca2+, Mg2+-dependent endonuclease in situ regular series fragments-and large nuclease-resistent fragments of DNP were revealed by electrophoresis. The DNP length of the smallest DNP-fragment was tentatively 120-140 base pairs. In investigated bacterial species DNP contained at least two basic proteins which had electrophoretic mobility similar to that of histone H4 of eucaryot. It is suggested that bacterial DNPs have common regular structure.
...
PMID:[Probing the structure of bacterial deoxyribonucleoproteins with exogenous and endogenous nucleases]. 624 43

We have examined the effects of histone hyperacetylation upon nuclease digestion of nuclei and subsequent fractionation of chromosomal material in the presence of MgCl2. DNase I shows a maximum sensitivity towards hyperacetylated nuclei at somewhat elevated ionic strengths (150-200 mM NaCl), whereas micrococcal nuclease exhibits no specificity for acetylated nuclei over a broad range of ionic strengths. Fractionation in the presence of MgCl2 of hyperacetylated nuclei digested with micrococcal nuclease results in a substantial increase in the amount of soluble chromatin relative to that obtained with control nuclei. This increased yield of Mg2+-soluble chromatin results from the recruitment into this fraction of oligonucleosomes containing extremely hyperacetylated histones. These results suggest that contiguous nucleosomes containing highly acetylated histones may be altered in their ability to interact with themselves and with other nucleosomes.
...
PMID:The effect of histone hyperacetylation on the nuclease sensitivity and the solubility of chromatin. 625 61

Nuclei from nerve growth factor-treated PC12 cells are more resistant to digestion with micrococcal nuclease than are nuclei from control cells. The production of oligosomal fragments is decreased, as is the generation of Mg2+-soluble products. One interpretation of the data is that differentiation of these cells due to treatment with nerve growth factor involves a decrease in the total number of DNA sequences transcribed.
...
PMID:Decreased micrococcal nuclease sensitivity of nuclei from nerve growth factor-treated PC12 cells. 634 67

Spermidine-condensed calf thymus DNA structures have been studied by ion competition using a sedimentation assay and by micrococcal nuclease digestion. Competitor ions Mg2+, Ca2+ and putrescine2+ show specific ion effects; but all three appear to affect the DNA condensation-decondensation equilibrium caused by spermidine3+ in a qualitatively similar manner, suggesting the spermidine3+-DNA interaction is largely electrostatic. Our data show a hysteresis in condensation and decondensation transition directions. We interpret this in terms of a kinetic block in the condensation direction with decondensation representing the equilibrium state of the system. These results agree with results obtained from related systems using different measurement techniques. Micrococcal nuclease digestion of spermidine-condensed calf thymus DNA produces broad but discrete bands in gel electrophoresis experiments. At least two bands determined to be 760 +/- 87 bp and 1355 +/- 135 bp, possess the size ratio 1:1.8 +/- 0.4 consistent with their forming the monomer and dimer fragments of an arithmetic band series. We rationalize this result in terms of a localized micrococcal nuclease cleavage model of circumferentially-wrapped DNA toruses proposed previously by Marx, K.A. and Reynolds, T.C. (Proc. Natl. Acad. Sci. (1982) 79, 6484-6488). The arithmetic series monomer band (760 +/- 87 bp), corresponding to wrapping B DNA once circumferentially about the torus, is in agreement with the electron microscopic measurements of hydrated calf thymus DNA torus circumferences presented by Marx, K.A. and Ruben, G.C. (Nucleic Acids Res. (1983) 11, 1839-1853).
...
PMID:Ion competition and micrococcal nuclease digestion studies of spermidine-condensed calf thymus DNA. Evidence for torus organization by circumferential DNA wrapping. 665 92

Chromatin in the nuclei fixed in tissue and in the nuclei isolated by low ionic strength solutions in the presence of Mg2+ is represented by globular (nucleomeric) fibrils, 20-25 nm in diameter. The staphylococcal or endogenous nuclear nuclease splits the chromatin fibrils resulting in fragments corresponding to nucleomers and their multimers. Upon removal of firmly bound Mg2+ the nucleomers unfold to form chains consisting of 4-6-8 nucleosomes. Mild hydrolysis of nuclear chromatin by staphylococcal nuclease results in a split-off of mono-, di- and trimers of nucleomers sedimenting in a sucrose density gradient in the presence of EDTA as particles with the sedimentation coefficients of 37, 47 and 55S, respectively. The sedimentation coefficient for the mononucleomer in a sucrose density gradient with MgCl2 is 45S. Determination of the length of DNA fragments of chromatin split-off by staphylococcal nuclease showed that the nucleomer consists of 8 nucleosomes, while the dimer and trimer of the nucleomer consists of 14-16 and 21-24 nucleosomes, respectively. The nucleomeric monomer undergoes structural transition from the compact (45S) to the "loose" state (37S) after removal of Mg2+. This transition is completely reversible, when the nucleomer contains histone H1. The removal of the latter or dialysis of the nucleomer against EDTA in low ionic strength solutions results in a complete unfolding of the nucleomer into a nucleosomal chain fragment. A model for the nucleomer fibril structure in which the helical organization of the nucleosomal chain in the nucleomer (2 turns with 4 nucleosomes in each) is alternated with the impaired helical bonds between the nucleomers is discussed. The functional significance of the nucleomeric organization of chromatin may be an additional restriction of the site-specific recognition of DNA in chromatin with the possibility of local (at the level of one nucleomer) changes in chromatin conformation excluding this restriction.
...
PMID:[Nucleomeric organization of chromatin]. 679 81

An estrogen-responsive mouse Leydig cell tumor line (Tumor 124958) has been shown to contain only a low-affinity binder for estradiol in the cytosol fraction. This differed from the putative estrogen receptor in terms of its hormone-binding specificity as well as affinity. In addition, the possibility that an estrogen receptor-like molecule exists in the nuclei even without hormonal stimuli was examined using purified nuclei. Scatchard plot analyses showed that these nuclei possessed a large amount of estrogen binder having a high affinity for estradiol and diethylstilbestrol. The content of this nuclear binding component was not diminished by using molybdate, a potent inhibitor for receptor activation, and in vitro incubation of collagenase-dispersed cells with estradiol did not cause significant increase in the number of nuclear binding sites when compared with the values obtained by direct incubation of isolated nuclei with estradiol. These results support the view that this nuclear estrogen binder is not due to artificial migration of the cytosol receptor into nuclei during homogenization. The characterization of this nuclear binding component under cell-free conditions revealed that its affinity for estradiol in Mg2+-containing buffer was temperature dependent (Kd 3 nM at 30 degrees and 12 nM at 0 degrees) without significant alteration in the number of maximum binding sites. Introduction of a chelating agent (ethylenediaminetetraacetate) into the buffer system abolished the temperature effect on the affinity, resulting in high affinity for estradiol at both low and high temperatures. These Mg2+ and temperature effects were reversible. In addition, when compared with putative nuclear estrogen receptors, this nuclear binding was observed to be relatively resistant to high salt or micrococcal nuclease treatments in relation to solubilization from nuclei. However, trypsin digestion was found to result in a marked decrease in the nuclear binding sites, indicating that this unique nuclear binding component contains a protein unit(s). These results suggest the possibility that this tumor line contains a unique unoccupied nuclear estrogen binder which might be able to transmit estrogen signals to tumor cell nuclei with regard to tumor growth.
...
PMID:Characterization of a unique nuclear estrogen-binding component in an estrogen-responsive mouse Leydig cell tumor. 687 50

<< Previous 1 2 3 4 5 Next >>