Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: EC:3.1.31.1 (
micrococcal nuclease
)
2,818
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Control of the rate of cardiac cell division by oxygen occurs most probably by altering the redox state of a control substance, e.g. NAD(+)right harpoon over left harpoonNADH. NAD(+) (and not NADH) forms poly(ADP-ribose), an inhibitor of DNA synthesis, in a reaction catalysed by poly(ADP-ribose) polymerase. Lower partial pressure of oxygen, which increases the rate of division, would shift NAD(+)-->NADH, decrease poly(ADP-ribose) synthesis, and increase DNA synthesis. Chick-embryo heart cells grown in culture in 20% O(2) (in which they divide more slowly than in 5% O(2)) did exhibit greater poly(ADP-ribose) polymerase activity (+83%, P<0.001) than when grown in 5% O(2). Reaction product was identified as poly(ADP-ribose) by its insensitivity to deoxyribonuclease, ribonuclease, NAD glycohydrolase,
Pronase
, trypsin and
micrococcal nuclease
, and by its complete digestion with snake-venom phosphodiesterase to phosphoribosyl-AMP and AMP. Isolation of these digestion products by Dowex 1 (formate form) column chromatography and paper chromatography allowed calculation of average poly(ADP-ribose) chain length, which was 15-26% greater in 20% than in 5% O(2). Thus in 20% O(2) the increase in poly(ADP-ribose) formation results from chain elongation. Formation of new chains also occurs, probably to an even greater degree than chain elongation. Additionally, poly(ADP-ribose) polymerase has very different K(m) and V(max.) values and pH optima in 20% and 5% O(2). These data suggest that poly(ADP-ribose) metabolism participates in the regulation of heart-cell division by O(2), probably by several different mechanisms.
...
PMID:Poly(adenosine dephosphate ribose) metabolism and regulation of myocardial cell growth by oxygen. 2 65
The distribution of proteins in the neighborhood of the globin genes of duck reticulocyte chromatin has been studied. This chromatin is first shown to be an active template for transcription in vitro of globin messenger-like RNA. The chromatin is then treated with
staphylococcal nuclease
and the DNA fragments protected from nuclease attack ("covered DNA") are isolated. Alternatively, the chromatin is titrated with poly-D-lysine, and by successive treatment with
Pronase
and nuclease, the DNA regions accessible to polylysine are isolated (open "DNA"). In order to determine the distribution of globin gene sequences in open and covered DNA, these two fractions are annealed to globin cDNA (globin probe). It is found that while all globin gene sequences are represented in covered DNA, a specific portion of the globin gene is missing from open DNA, corresponding to about 20% of the gene length. It is concluded that specific regions of the globin genes of reticulocyte chromatin are partly covered by proteins in such a way as to render them in accessible to polylysine. In contrast, no difference is observed in the annealing properties of open and covered regions to globin probe using DNA isolated from erythrocyte chromatin, which is a poor templete in vitro for production of globin message. The annealing of open and covered DNA to each other has also been studied. It is found that open and covered DNA have identical sequence populations. Thus, in contrast to the special arrangement of proteins in the neighborhood of the globin gene, there does not appear to be any sequence-specific arrangement of the bulk of the chromatin proteins on chromatin DNA.
...
PMID:The structure of the globin genes in chromatin. 109 55
Nucleolar organizer region (NOR) silver staining was applied to sections of fixed material. A positive reaction on cryo-ultrathin sections was found as well as on semithin and ultrathin Lowicryl sections. Repeatable staining that was easy to control was obtained by a one-step procedure after aldehyde-Carnoy fixation. Fixation of the material by formaldehyde and glutaraldehyde alone in cacodylate buffer also maintained reaction selectivity when ammonium chloride was used after fixation. Enzymatic digestion by pronase, RNase A, DNase I, or
micrococcal nuclease
was applied to ultrathin Lowicryl sections.
Pronase
digestion removed the silver-stained proteins, whereas digestion by the nucleases did not. A routine procedure is proposed for easy NOR silver staining of sections that preserves a good tissue ultrastructure and is also compatible with cytochemical and immunological investigations.
...
PMID:Silver staining of the nucleolar organizer regions (NORs) on Lowicryl and cryo-ultrathin sections. 258 Aug 79
A ribonuclease P-like activity was partially purified from HeLa cell mitochondria by DEAE-cellulose and octyl-Sepharose chromatography. RNase P-like activity can be quantitatively recovered from intact mitochondrial preparations treated with
micrococcal nuclease
, strongly suggesting that the enzyme is localized within the organelles. Mitochondrial RNase P (mtRNase P) cleaves the precursor to Escherichia coli suppressor tRNATyr at the same site as E. coli RNase P, producing the mature 5'-end of tRNATyr. The sensitivity of mtRNase P to pretreatment with nucleases or
Pronase
indicates that the enzyme has essential RNA and protein components. Although the ionic requirements of mtRNase P are similar to those of the RNase P activity isolated from the post-mitochondrial cytosol fraction, the chromatographic properties of mtRNase P are distinct. Mitochondrial RNase P is probably a part of the mitochondrial RNA processing machinery of mammalian mitochondria, being responsible for the endonucleolytic cleavage of the RNA transcripts at the 5'-side of the tRNA sequences.
...
PMID:Characterization of an RNase P activity from HeLa cell mitochondria. Comparison with the cytosol RNase P activity. 258 45
