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

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Query: EC:3.1.30.2 (endonuclease)
18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Transcription of the POL1 gene of Saccharomyces cerevisiae, which encodes DNA polymerase alpha, the DNA polymerase required for the initiation of DNA replication, has previously been shown to be cell cycle regulated. To understand how the POL1 gene senses cell cycle position, we have investigated the cis-acting elements that respond to the factors that govern cell cycle progression. In this report we demonstrate that a region of 54 nucleotides containing the repeated element ACGCGT, which conforms to an Mlu I restriction endonuclease recognition site, contains all information necessary for transcriptional activation and cell cycle responsiveness. Although oligonucleotides lacking either one or both of the repeated Mlu I sites can function as an upstream activating sequence, the presence of at least one Mlu I site stimulates expression and, moreover, is absolutely essential for cell cycle regulation. A synthetic oligonucleotide corresponding to a 19-base-pair sequence in the POL1 promoter containing one Mlu I site can function as an autonomous cell cycle-responsive upstream element (upstream activation sequence) with temporal regulation indistinguishable from that previously described for the POL1 gene. Thus, the Mlu I site is an essential part of a cis-acting element responsible for the observed periodic activation. This sequence differs from previously defined cell cycle-responsive transcriptional control elements in the yeast HO endonuclease and histone genes. We also present evidence for a negative regulatory element in the 5' flanking region of the Mlu I upstream activation sequence.
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PMID:A cell cycle-responsive transcriptional control element and a negative control element in the gene encoding DNA polymerase alpha in Saccharomyces cerevisiae. 206 85

Ammonium sulfate fractionation of a Saccharomyces cerevisiae whole-cell extract yielded a preparation which carried out correct and efficient endonucleolytic cleavage and polyadenylation of yeast precursor mRNA substrates corresponding to a variety of yeast genes. These included CYC1 (iso-1-cytochrome c), HIS4 (histidine biosynthesis), GAL7 (galactose-1-phosphate uridyltransferase), H2B2 (histone H2B2), PRT2 (a protein of unknown function), and CBP1 (cytochrome b mRNA processing). The reaction processed these pre-mRNAs with varying efficiencies, with cleavage and polyadenylation exceeding 70% in some cases. In each case, the poly(A) tail corresponded to the addition of approximately 60 adenosine residues, which agrees with the usual length of poly(A) tails formed in vivo. Addition of cordycepin triphosphate or substitution of CTP for ATP in these reactions inhibited polyadenylation but not endonucleolytic cleavage and resulted in accumulation of the cleaved RNA product. Although this system readily generated yeast mRNA 3' ends, no processing occurred on a human alpha-globin pre-mRNA containing the highly conserved AAUAAA polyadenylation signal of higher eucaryotes. This sequence and adjacent signals used in mammalian systems are thus not sufficient to direct mRNA 3' end formation in yeast. Despite the lack of a highly conserved nucleotide sequence signal, the same purified fraction processed the 3' ends of a variety of unrelated yeast pre-mRNAs, suggesting that endonuclease cleavage and polyadenylation may produce the mature 3' ends of all mRNAs in S. cerevisiae.
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PMID:RNA processing in vitro produces mature 3' ends of a variety of Saccharomyces cerevisiae mRNAs. 216 May 81

The chromatin structure and protein-DNA interactions of a cell cycle regulated human H3 histone gene have been examined at different levels of resolution. Using traditional Southern blot analysis we have investigated the accessibility of the H3 coding region and its flanking sequences to DNase I, S1 nuclease and restriction endonuclease digestion. Using the native genomic blotting method recently developed in our laboratory, two sites of protein-DNA interaction in the proximal 240 bp of the promoter region of this H3 gene were established. Further in vivo analysis of protein-DNA binding sites in intact cells by genomic sequencing revealed, with single nucleotide resolution, the guanine contacts and footprints of the proteins bound to the promoter. The relative locations of protein-DNA interactions in this H3 gene are similar to those identified in vivo and in vitro in a cell cycle dependent human H4 histone gene. The proteins complexed with the H3 histone gene promoter can be dissociated between 0.16 and 0.28 M NaCl. The protein-DNA contacts persist throughout the cell cycle and thus may have a functional relationship with the basal level of transcription of this H3 gene that occurs during and outside of S phase.
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PMID:In vivo protein binding sites and nuclease hypersensitivity in the promoter region of a cell cycle regulated human H3 histone gene. 253 85

Nuclei isolated from Djungarian hamster fibroblasts transformed by SV40 were treated with restriction endonuclease Bsp RI, fixed on Celite columns and underwent successive gradients of dissociating agents, such as NaCl, LiCl-urea, and temperature. This procedure leads to fractionation of DNA fragments in accordance with the tightness of DNA-protein bonds in situ. The fractions obtained were analysed by agarose gel electrophoresis and dot-hybridization technique with the use of various DNA probes. The results received are as follows: a) a DNA fragment size is not a factor determining the chromatographic position, the latter is probably stipulated by DNA-protein interactions; b) an analysis of cells synchronized at the G1/S border shows that the distribution of specific DNA sequences, such as actin, histone, hsp 70, and c-Ha-ras genes as well as reiterated DNA sequences, does not coincide with that of total genomic DNA; the nuclear matrix-attached fragments of those sequences are enriched to various extents. By nick-translation labeling in situ, DNase I-sensitive and hypersensitive regions were tentatively identified among subdomain chromatin fragments.
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PMID:[Comparative analysis of subdomain fragments of chromatin]. 277 Jul 45

The mechanism of glucocorticoid-induced internucleosomal DNA cleavage and cytolysis of lymphatic cells is not known. Recent data (Compton, M.M., and Cidlowski, J.A. (1987) J. Biol. Chem. 262, 8288-8292) suggested that in vivo treatment of rat thymocytes with glucocorticoids induces a nucleolytic "lysis gene" product(s) responsible for lymphocytolysis. In this paper, the possibility that lymphocytolysis may result from glucocorticoid-induced nuclease(s) was examined. Using the rat thymocytes as a model system, we have shown by electrophoretic, enzymatic, and amino acid sequence analysis that the putative glucocorticoid-induced nucleases identified recently by Compton and Cidlowski are in fact H1, H1(0), and core histones, and their gross appearance is not the result of new histone protein synthesis, but a result of the release of histone-containing nucleosomes during chromatin breakdown. Evidence presented here shows that the putative induced nuclease activity is an artifact of the assay system employed. Because our data do not support induction of a glucocorticoid-induced nuclease(s), we examined the possibility that DNA cleavage might be induced by activation of a constitutive endogenous endonuclease. We have shown that it is possible to produce characteristic internucleosomal DNA cleavage of rat thymocytes, merely by incubating intact nuclei from untreated adrenalectomized rat thymocytes with Ca2+ and Mg2+ for a short period of time. However, in glucocorticoid-sensitive human CEM-C7 lymphocytes activation of internucleosomal DNA cleavage was independent of calcium uptake. We conclude that glucocorticoid induction of internucleosomal DNA fragmentation does not necessarily require expression of a new nuclease(s), but is the result of the activation of a constitutive endogenous endonuclease(s). Also, our data suggest that the mechanism which controls activation of internucleosomal DNA cleavage in rat thymocytes differs from that which operates in CEM-C7 lymphocytes.
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PMID:Glucocorticoid-induced lymphocytolysis is not mediated by an induced endonuclease. 291 90

We have studied the relative abilities of different simian virus 40 (SV40) DNA segments to reconstitute into nucleosomes in vitro. The SV40 genome was separated into 15 discrete fragments by restriction endonuclease digestion and reconstituted with calf thymus core histones under conditions of varying histone-to-DNA ratios. Three fragments show very different abilities to form nucleosomes when low histone-to-DNA ratios require all fragments to compete for available histones. Two of these fragments, both from within protein-coding regions, are significantly underreconstituted. The third fragment, covering the SV40 termination region, competes much more effectively for histones than the other 14 fragments. The fragment containing the SV40 origin region formed nucleosomes with about average probability. Overall, the SV40 fragments differed by approximately an order of magnitude in their abilities to support nucleosome formation in vitro. The stability of the nucleosomes was measured by challenge with high concentrations of the destabilizing reagent heparin. The fragment that reconstituted most effectively also formed nucleosomes that were unusually stable to heparin challenge. These observations are intriguing since this fragment contains the sequences where replication of SV40 DNA commonly terminates and where early messenger RNA synthesis may terminate as well. The existence of unique hyperstable nucleosomes in this region suggests the interesting possibility that such nucleosomes may assist in termination events by assisting in the pausing of replication or transcription complexes.
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PMID:Competition for formation of nucleosomes on fragmented SV40 DNA: a hyperstable nucleosome forms on the termination region. 303 Apr 1

Current evidence suggests that the complex nature of mammalian chromatin can result in the concealment of DNA damage from repair enzymes and their co-factors. Recently it has been proposed that the acetylation of histone proteins in chromatin may provide a surveillance system whereby damaged regions of DNA become exposed due to changes in chromatin accessibility. This hypothesis has been tested by: (i) using n-butyrate to induce hyperacetylation in human adenocarcinoma (HT29) cells; (ii) monitoring the enzymatic accessibility of chromatin in permeabilised cells; (iii) measuring u.v. repair-associated nicking of DNA in intact cells and (iv) determining the effects of n-butyrate on cellular sensitivity to DNA damaging agents. The results indicate that the accessibility of chromatin to Micrococcus luteus u.v. endonuclease is enhanced by greater than 2-fold in n-butyrate-treated cells and that there is a corresponding increase in u.v. repair incision rates in intact cells exposed to the drug. Non-toxic levels of n-butyrate induce a block to G1 phase transit and there is a significant growth delay on removal of the drug. Resistance of HT29 cells to u.v.-radiation and adriamycin is enhanced in n-butyrate-treated cells whereas X-ray sensitivity is increased. Although changes in the responses of cells to DNA damaging agents must be considered in relation to the effects of n-butyrate on growth rate and cell-cycle distribution, the results are not inconsistent with the proposal that increased enzymatic-accessibility/repair is biologically favourable for the resistance of cells to u.v.-radiation damage. Overall the results support the suggested operation of a histone acetylation-based chromatin surveillance system in human cells.
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PMID:n-Butyrate alters chromatin accessibility to DNA repair enzymes. 375 5

We have inserted the 509-bp-long fragment of sea urchin P. miliaris histone gene spacer region into plasmid pUC19. The fragment contains the 60-bp-long homopurine-homopyrimidine tract that is known to be hypersensitive to the S1 endonuclease. Using two-dimensional gel electrophoresis we have observed a sharp structural transition in the insert with increasing DNA superhelicity. As in the cases of cruciform and Z form formation, the observed transition partly relaxes the superhelical stress. In contrast with the other two well documented transitions, the observed transition strongly depends on pH. At pH7 and above the transition occurs at negative superhelicities exceeding the physiological range (- sigma greater than 0.08). For pH6 the transition occurs at -sigma = 0.055, whereas for pH4.3 it takes place at -sigma = 0.001. A comprehensive analysis of the obtained data has made it possible to define the nature of the observed transition. We conclude that under superhelical stress or/and at low pH homopurinehomopyrimidine tracts adopt a novel spatial structure called the H form.
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PMID:A pH-dependent structural transition in the homopurine-homopyrimidine tract in superhelical DNA. 391 24

We have isolated and characterized a third nonallelic tandemly arrayed histone cluster (LpE) from the sea urchin Lytechinus pictus. Although this tandem array is not intermingled with the other two early histone gene families also found in the L. pictus genome, the order and polarity of the five histone coding sequences in this family are the same as every other well characterized sea urchin early histone gene family. Heteroduplex analysis and restriction endonuclease mapping experiments indicate that the LpE family is more closely related to the B-C than the A-D family of early histone genes. Examination of several individual sperm DNA samples has revealed considerable polymorphism in each of the three tandem repeat families. Within an individual, however, each family is remarkably homogeneous. Thus, our results indicate that rapid fixation of variants acts to homogenize the members of a single tandem array at a considerably faster rate within a family than between families. However, at least some exchange of sequences between families is evident based on the conservation of many restriction endonuclease recognition sites and from analysis of a a cosmid clone in which the A-D and E tandem repeats are found adjacent to one another. These differences in the rate of fixation of variants within and between these families are likely to be responsible for the maintenance of diversity between the different families.
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PMID:A new family of tandem repetitive early histone genes in the sea urchin Lytechinus pictus: evidence for concerted evolution within tandem arrays. 608 15

We have investigated the effect of the polyamines spermine, spermidine, and putrescine and the prokaryotic histone-like proteins NS1 and NS2 on the restriction endonuclease EcoRI catalyzed cleavage of plasmid and bacteriophage DNAs. At low concentrations of spermine and spermidine, the rate of DNA cleavage by EcoRI is increased, while high concentrations of spermine as well as of spermidine are inhibitory. These phenomena are also observed with other restriction endonucleases. They are, therefore, probably due to the interaction of the polyamines with the DNA. Putrescine does not have such an effect within the concentration range investigated. Remarkably, low concentrations of spermine and spermidine very efficiently suppress EcoRI activity. An inhibition of the EcoRI-catalyzed cleavage of DNA is also observed with NS1 and NS2, an effect that can be mimicked with other basic proteins that interact with DNA. The results are discussed in terms of the mechanism of restriction in vivo.
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PMID:Effect of polyamines and basic proteins on cleavage of DNA by restriction endonucleases. 609 96


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