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Enzyme
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Query: EC:3.1.31.1 (
micrococcal nuclease
)
2,818
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The phosphorylation of the proteins of heterogeneous nuclear ribonucleoprotein particles has been investigated in HeLa cells. 32Pi labeling of intact cells indicated that, of the six major particle proteins, the most heavily phosphorylated was the C1-protein (Mr = 42,000). This protein, together with C2 (Mr = 44,000), is also phosphorylated by [gamma-32P]
ATP
in particle extracts and in particles that are purified by sedimentation or exclusion chromatography. The C-proteins, together with their particle-associated kinase, were partially purified from isolated particles following dissociation with
micrococcal nuclease
. Proteins C1 and C2 co-purify on phosphocellulose chromatography, and their peak overlaps with that of a casein kinase activity. Evidence suggesting that this kinase activity is responsible for C-protein phosphorylation includes 1) the phosphorylation of C-proteins in the fractions where they overlap with the kinase, 2) the phosphorylation of added C-protein by fractions of the casein kinase which lack detectable C-protein, and 3) the similarities in catalytic properties of the casein kinase- and C-protein-phosphorylating activities. The purified kinase activity is cyclic nucleotide and Ca2+ independent. It is stimulated by polyamines, inhibited by heparin, and utilizes either GTP or
ATP
with high affinity. Serine residues are the major phosphate acceptors. These properties indicate that the kinase is casein kinase II or a closely related enzyme. Moreover, purified casein kinase II from rabbit liver effectively phosphorylates C-protein. These results suggest that C-proteins may be natural substrates for nuclear casein kinase II.
...
PMID:Phosphorylation of the C-proteins of HeLa cell hnRNP particles. Involvement of a casein kinase II-type enzyme. 642 27
The gene A protein cleaves phi X174 single-stranded DNA (ssDNA). The cleavage appears to be stoichiometric, whereby a gene A protein molecule breaks a phosphodiester bond and binds to the 5' end. The enzyme introduces mostly a single break in a circular ssDNA molecule. However, at high enzyme-to-DNA ratios, more than one break in the DNA could be observed. The cleavage of the ssDNA by gene A protein renders the DNA sensitive to the action of terminal transferase to incorporate [alpha -32P]
ATP
. Thus, the 3'OH end is free. All attempts to label the 5' end by T4-induced polynucleotide kinase and [gamma-32P]
ATP
failed. The formation of a gene A-ssDNA complex was demonstrated directly by using 3H-labeled gene A protein and 32P-labeled ssDNA in the reaction. Such a complex is resistant to treatments with 0.2 M NaOH, banding in CsCl, and boiling in 2.5% sodium dodecyl sulfate. Only treatment with a nuclease released the bound protein. Also, after cleaving [32P]ssDNA by gene A protein, followed by either DNase I or
micrococcal nuclease
digestion, a fraction of the 32P label remained resistant to nuclease treatment and comigrated with gene A protein on polyacrylamide gels.
...
PMID:Cleavage of phi X174 single-stranded DNA by gene A protein and formation of a tight protein-DNA complex. 644 6
A (2'-5')An synthetase activity was isolated from human placental extracts by affinity chromatography on poly(rI) . poly(rC)-agarose. The oligonucleotide (2'-5')An was identified by (1) chromatography on PEI-cellulose and DEAE-cellulose, (2) inhibition of polypeptide synthesis in lysed rabbit reticulocytes (3) competition of the binding of pppA(pA)3,3'-[32P]pCp to rabbit reticulocyte lysates, and (4) alkaline phosphatase digestion. The synthetase activity in most placental preparations is activated by natural or synthetic dsRNA. However, in a few placental synthetase preparations, dsRNA is only marginally stimulatory and only becomes effective by prior treatment of the enzyme preparations with the calcium-dependent
micrococcal nuclease
. This suggests that there is an endogenous placental dsRNA contaminant in the enzyme preparations. In some synthetase preparations, a second dsRNA-stimulated product, tentatively identified as the nucleotide 5'-IMP, is also observed. Because the specific AMP deaminase inhibitor coformycin (10 microM) blocks the formation of IMP from
ATP
and causes a quantitative accumulation of AMP, and because the formation of IMp becomes independent of dsRNA when ADP or AMP is used in place of
ATP
, the presence of a dsRNA-stimulated ATP phosphohydrolase (ATPase) activity in human placenta is suggested.
...
PMID:Double-stranded RNA-stimulated enzyme activities isolated from human placental extracts. 662 76
T4 RNA ligase joins a 3'-hydroxyl-terminated acceptor oligoribonucleotide to a 5'-phosphate-terminated donor oligoribonucleotide. An analogous reaction with single-strand DNA oligonucleotides would be useful for the synthesis of defined sequences of DNA because it would eliminate the need to synthesize complementary sequences to form the duplex substrates required by DNA ligase. We have studied the model reaction dA(pdA)5 + [5'-32P] (pdT)4pdCp leads to dA(pdA)5 [3' leads to 5'-32P]pdT(pdT)3pdCp and have obtained 40-60% yields at equimolar concentrations (100 microM to 1 mM) of the two substrates. Higher yields have been obtained when acceptor concentrations in excess of those of the donor are used. The use of a 5'-hydroxyl, 3'-hydroxyl terminated acceptor and a 5'-phosphate, 3'-phosphate terminated donor limits the reaction to a unique product. The 3'-phosphate-terminated donor was prepared by using RNA ligase to add a single deoxyribonucleoside 3',5'-bisphosphate donor to an oligo(deoxyribonucleotide) acceptor [Hinton, D.M., Baez, J.A., & Gumport, R.I. (1978) Biochemistry 17, 5091]. The DNA oligomer joining reaction requires low concentrations of
ATP
and an
ATP
regenerating system, Mn2+, high levels of nuclease-free RNA ligase (30 microM), and incubation for several days at 17 degrees C. The product of the reaction was characterized by its resistance to alkaline phosphatase, degradation by
micrococcal nuclease
to the expected product [3'-32P]dAMP, and mobility during high-pressure liquid chromatography on RPC-5. The joining of several other deoxyoligomers was also demonstrated. We anticipate that this reaction of RNA ligase will contribute to its usefulness as a reagent for the synthesis of DNA of defined sequence.
...
PMID:T4 ribonucleic acid ligase joins single-strand oligo(deoxyribonucleotides). 698 3
A histone-like protein (H) from Escherichia coli has been purified to more than 98% homogeneity by using its capacity to inhibit DNA functions. H protein behaves as a dimer of 28,000-dalton subunits. The histone H2A-like properties of H protein are: (i) binding to DNA at a stoichiometry of 1 H protein dimer per 75 bases; (ii) abundance of about 30,000 molecules per cell, sufficient to bind about 20% of the chromosome; (iii) limiting digestion of double-stranded DNA by
micrococcal nuclease
; (iv) reannealing of complementary single-stranded DNA; (v) amino acid composition resembling that of eukaryotic histone H2A; (vi) neutralization of H protein by antibody specific for H2A; (vii) heat stability; and (viii) acid solubility. The capacity of H protein to bind DNA prevents its template or substrate functions n several reactions in vitro: DNA synthesis by several polymerases; transcription by RNA polymerase; DNA topoisomerase activity; and DNA-dependent
ATP
hydrolysis by rep protein, dnaB protein, or protein n'. Together with other histone-like proteins of E. coli, H protein may organize the E. coli chromosome into nucleosomes, such as in eukaryotic chromatin.
...
PMID:Novel histone H2A-like protein of escherichia coli. 700 71
Covalent adducts formed by the reaction of DNA with chemical carcinogens and mutagens may be detected by a 32P-labeling test. DNA preparations exposed to chemicals known to bind covalently to DNA [N-methyl-N-nitrosourea, dimethyl sulfate, formaldehyde, beta-propiolactone, propylene oxide, streptozotocin, nitrogen mustard, and 1,3-bis(2-chloroethyl)-1-nitrosourea] were digested to a mixture of deoxynucleoside 3'-monophosphates by incubation with
micrococcal endonuclease
(
EC 3.1.31.1
) and spleen exonuclease (EC 3.1.16.1). The digests were treated with [gamma-32P]
ATP
and T4 polynucleotide kinase (ATP:5'-dephosphopolynucleotide 5'-phosphotransferase, EC 2.7.1.78) to convert the monophosphates to 5'-32P-labeled deoxynucleoside 3',5'-bis-phosphates. These compounds were then separated on polyethyleneimine-cellulose thin layers in ammonium formate and ammonium sulfate solutions. Autoradiograms of the chromatograms obtained by this high-resolution procedure showed the presence of nucleotides derived from chemically altered, as well as normal, DNA constituents. Maps from DNA exposed to any of the chemicals used exhibited a spot pattern typical for the particular chemical. This method detected a single adduct in 10(5) DNA nucleotides without requiring that the compound under investigation be radioactive and thus provides a useful test to screen chemicals for their capacity to damage DNA by covalent binding.
...
PMID:32P-labeling test for DNA damage. 703 43
We have extended our permeable cell system for measuring DNA excision repair [Roberts, J. D., & Lieberman, M. W. (1979) Biochemistry 18, 4499-4505] so that steps of the repair process, beginning with incision and extending at least through the "rearrangement" of repaired nucleosomes which follows repair synthesis, all take place in permeable cells. In the revised protocol, human fibroblasts are made permeable, damaged with UV or chemicals in suspension, and incubated with a reaction mix containing
ATP
and the four deoxyribonucleoside triphosphates, one of which is labeled with 32P. By reducing the exogenous dNTP concentration to 3 microM and including 15 mM KCl in the reaction mixture, we have greatly reduced background incorporation in undamaged cells without significantly reducing repair synthesis. This permits us to measure repair synthesis without separating it from replicative synthesis by isopycnic centrifugation. Repair synthesis in this system is very similar to that occurring in intact cells: in response to DNA damage, nucleotides are incorporated into DNA of parental density (when analyzed by the BrdUrd density shift technique), incorporation increases with increasing DNA damage, synthesis is dependent on the presence of all four dNTPs, and the system accurately reflects the genetic UV repair deficiency of xeroderma pigmentosum (XP) cells. Furthermore, as has been observed in intact cells, repair-incorporated nucleotides in these permeable cells are initially overrepresented in
staphylococcal nuclease
sensitive regions of chromatin and are subsequently redistributed to give a nearly uniform distribution between nuclease-sensitive and -resistant regions. The UV dose curve of permeable cells differs somewhat from that of intact cells; however, the dose differs somewhat from that of intact cells; however, the dose curve for permeable cells treated with N-methyl-N-nitrosourea is very similar to that of intact cells. Repair synthesis in UV-damaged, permeable normal and XP cells is stimulated by addition of Micrococcus luteus UV endonuclease, indicating that the damaged DNA is accessible to exogenous repair enzymes and suggesting that incision, or an obligatory preincision step, is rate limiting for excision repair in these permeable cells. Repair synthesis in this system is inhibited by aphidicolin, but not by high levels of dideoxy-TTP, suggesting involvement of DNA polymerase alpha in excision repair. Novobiocin is also inhibitory alpha and the HeLa cell type II DNA topoisomerase.
...
PMID:Characterization of deoxyribonucleic acid repair synthesis in permeable human fibroblasts. 709 2
An important role in the control of gene expression has been attributed to phosphoproteins present among chromatin non-histone proteins. In a previous work we have shown that at least part of these phosphoproteins are associated with nucleosomes. In this work we wanted to establish whether this association occurs with all nucleosomes or with the nucleosomes present in fragments preferentially released by a mild
micrococcal nuclease
digestion, which originated essentially from active parts of chromatin. Phosphoproteins were labelled in vivo by incubating hepatoma tissue-cultured cells with [32P]phosphate and chromatin was submitted to a limited
micrococcal nuclease
digestion. The released fragments were fractionated by preparative gel electrophoresis. [32P]Phosphoproteins were essentialy found in the smallest released fragments: monomers and dimers of nucleosomes. The same result was obtained when the phosphoproteins were labelled in vitro by incubating each fragment obtained by the preparative electrophoresis in the presence of [gamma-32P]
ATP
. It indicates that part of the protein kinase activity was strongly bound to the particles. The bound phosphoproteins were analysed by sodium dodecylsulfate/polyacrylamide gel electrophoresis. Two main polypeptides were characterized: phosphopeptide a, Mr 41000, present in all small fragments; phosphopeptide b, Mr 31000, present in all small fragments, except in the fastest moving nucleosomes. Phosvitin kinase was found associated with the small released fragments, its specific activity was by far the highest in the fraction which includes the dimers of nucleosomes. It is concluded that phosphoproteins and protein kinases are associated with the nucleosomes of the active parts of chromatin, which suggests a role of these proteins in the control of gene expression.
...
PMID:Localization of phosphoproteins and of protein kinases in chromatin from hepatoma tissue-cultured cells. 743 87
A 32P-postlabelling method is reported for the detection of 7-alkylguanines, the major adducts formed by the reaction of 1,2-alkylepoxides with DNA. Calf thymus DNA was reacted in vitro with different epoxides (ethylene oxide through octylene oxide) and digested with
micrococcal nuclease
and
spleen phosphodiesterase
to 3'-nucleotides. The adduct enrichment was carried out by an ion-exchange method and adducts were labelled with [gamma-32]
ATP
in a T4-polynucleotide kinase-mediated reaction. The labelled adducts, prior to resolution by two-dimensional TLC, were treated with nuclease P1. The recoveries of adducts formed by different epoxides ranged from 3 to 10%, tending to increase with the increase in the chain length of the substitutions. The 32P-postlabelled adducts were also analysed by HPLC coupled with a radioisotope detector. This method has been applied for the detection of 7-alkylguanine adducts in rats exposed to different alkenes. The method has potential for use in measuring human exposure to alkenes or their corresponding epoxides as well as the endogenously formed 7-alkylguanine adducts.
...
PMID:32P-postlabelling method for the detection of 7-alkylguanine adducts formed by the reaction of different 1,2-alkyl epoxides with DNA. 769 2
Splicing of precursors to messenger RNAs occurs via a two-step mechanism. In the first step, the 5'-exon is released concomitant with the production of a lariat intermediate, and in the second step, the exons are joined, releasing the intron in the form of a lariat product. Several gene products of the yeast Saccharomyces cerevisiae have been shown to be required exclusively for the second step. Although mammalian proteins have been implicated in the second step of splicing, none have been shown to act only at this step. We identify here the first mammalian activity shown to be exclusively required for the second step. The activity was shown to increase by 5-fold the rate for this splicing step, whereas it had no effect on the rate of the first step. The activity was not affected by treatment with
micrococcal nuclease
, whereas it is sensitive to heating to 55 degrees C, suggesting that it is not dependent on an RNA, but more likely is a protein. The second step activity was separated from other factors required for the first step and from PSF, a splicing factor thought to have a second step activity. The activity does not require
ATP
hydrolysis, suggesting that it acts at a late stage of the second step of splicing.
...
PMID:A mammalian activity required for the second step of pre-messenger RNA splicing. 776 43
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