EC:3.1.30.2 - FACTA Search

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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)

Deoxyribonuclease activities were examined in isoelectric focusing fractions of non-histone, chromatin-associated and nucleoplasmic proteins of isolated normal human lymphoblastoid and mouse melanoma cell nuclei using parallel procedures. A very similar series of eight DNA endonucleases, each active on calf thymus DNA and containing no exonuclease activity, were found in the chromatin proteins of both cell lines. Several differences were observed: an activity in human cells at pI 6.6 was absent from murine cells, and there was an increased activity in mouse cells at pI 4.4 and a decreased activity at pI 7.3, as compared with corresponding human cell activities. Assay of these fractions against supercoiled, circular phage PM2 DNA showed greater activity among the fractions with acidic pI valves and slightly lower activities in the murine cells than in the human cells. Analysis of the nucleoplasmic fractions showed a series of DNA endonuclease and exonuclease activities which were again very similar between the two cell lines, although greater endonuclease activity at pI 4.4 occurred in mouse than in human nucleoplasm. These results demonstrate an entire series of deoxyribonuclease activities in both chromatin and nucleoplasm which are nearly identical in two very different mammalian cell lines, suggesting that many of these enzymes are ubiquitous in mammalian cell nuclei.
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PMID:Nuclear deoxyribonuclease activities in human lymphoblastoid and mouse melanoma cells. A comparative study. 715 90

An assay for the binding of H1 histone by DNA was developed based on extraction with phenol, which partitions free DNA into the aqueous layer and aggregates of H1 histone-DNA complexes into the phenol layer and interface. When this assay was performed on fragments of simian virus 40 (SV40) DNA, fragments containing the 21-bp repetitive element and a portion of the origin of replication were resistant to H1 binding. This result was corroborated when an endonuclease protection assay showed that the origin was poorly protected by H1 compared to other sites. DNase I protection mapping demonstrated that H1 "underprotected" sites immediately to either side of the AT element, which lies in the origin of replication. These sites were also hypersensitive to attack by hydroxyl radical in the absence of histone, probably indicative of some conformation aberration such as minor-groove distension. The same DNA sequences resistant to binding H1 histone resisted binding to H4 histone but showed much less selectivity, if any, in binding polylysine. These results clearly demonstrate that the interaction of DNA and H1 (and H4 histone) is more complicated than just charge neutralization and probably involves the conformation of the DNA.
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PMID:Selectivity in the interaction of various DNA sequences with H1 histone. 813 Feb 13

The relationship between chromatin structure and endonuclease sensitivity was investigated. The cells used in this study were a) human myelogenous leukemic cell lines (HL-60, ML-I, U-937, THP-I) (Group I), which produced internucleosomal DNA cleavage, and b) human T-cell leukemia (MOLT-4), erythroleukemia (K562), glioblastoma (T98G, U87MG) and glioma (KG-1-C) cell lines (Group II), which produced no internucleosomal DNA cleavage, upon treatment with various apoptosis-inducing agents. When the nuclei, isolated from these cells were digested with micrococcal nuclease, chromatin DNA was cleaved into oligonucleosomal units. Although sensitivity to micrococcal nuclease considerably differed from cell to cell, Group I cells were generally more sensitive to micrococcal nuclease digestion than Group II cells. Similar sensitivity to DNase I was observed in both groups of cells. Acid-urea polyacrylamide gel electrophoresis of histone fractions from control and apoptosing HL-60 cells (induced either by hydrogen peroxide or UV irradiation) revealed no significant change in the relative composition of five major histones, indicating the absence of selective degradation of histone HI, but rather the nonspecific degradation of many nuclear proteins. These data suggest a difference in a chromatin structure between Group I and II cells, which might result in the selective production of internucleosomal DNA cleavage only in Group I cells.
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PMID:Chromatin structure and endonuclease sensitivity in human leukemic cell lines. 870 41

The histone-like protein HU isolated from Escherichia coli exhibited, after several purification steps, a Mg(2+)-dependent nuclease activity. We show here that this activity can be dissociated from HU by a denaturation-renaturation step, and is due to a small fraction of ribosomal protein S16 co-purifying with HU. S16 is an essential component of the 30S ribosomal particles. We have cloned, overproduced, and purified a histidine-tagged S16 and shown that this protein is a DNA-binding protein carrying a Mg(2+)-Mn(2+)-dependent endonuclease activity. This is an unexpected property for a ribosomal protein.
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PMID:The Escherichia coli ribosomal protein S16 is an endonuclease. 873 Aug 73

The NusG-like protein from Thermotoga maritima was expressed in Escherichia coli and purified to homogeneity. Purified T. maritima NusG exhibited a generalized, non-sequence-specific and highly cooperative DNA and RNA binding activity. The complexes formed between nucleic acid and T. maritima NusG were unable to penetrate a polyacrylamide or agarose gel. The affinity of the protein for DNA was highest in buffers containing about 50 mM salt. The DNA-protein complexes could not be stained with ethidium bromide, were resistant to digestion by TaqI endonuclease, were able to be transcribed in vitro by T. maritima RNA polymerase, and contained a minimum of about 30 to 40 monomers of NusG per kb of duplex DNA. The protein had comparable affinities for duplex DNA and RNA but a lower affinity for single-stranded DNA. Electron microscopy showed that the DNA in the complex is condensed within a large structure that resembles the complex between DNA and histone-like protein Hcl from Chlamydia trachomatis. Neither the wild-type T. maritima nusG gene nor a deletion derivative more similar to the E. coli gene was able to substitute for the essential E. coli nusG. Two variants of the NusG protein were constructed, expressed, and purified: one contains only the entire 171-amino-acid insertion that is unique to T. maritima NusG, and the other has only the sequences present in NusG homologs from E. coli and other eubacteria. Both variants exhibited similar DNA and RNA binding behavior, although their apparent affinities were 5- to 10-fold lower than that of the wild-type T. maritima NusG.
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PMID:A NusG-like protein from Thermotoga maritima binds to DNA and RNA. 876 36

Previously, we reported that histone H1 binding to nucleosome cores results in the repression of binding of the basic helix-loop-helix upstream stimulatory factor (USF) (Juan, L.-J., Utley, R. T., Adams, C. C., Vettese-Dadey, M., and Workman, J. L. (1994) EMBO J. 13, 6031-6040). We have tested whether this inhibition resulted from H1-mediated changes in nucleosome positioning (Ura, K., Hayes, J. J., and Wolffe, A. P. (1995) EMBO J. 14, 3752-3765) forcing the USF recognition sequence into less accessible locations within the nucleosome. Nucleosome boundaries were determined by assays combining micrococcal nuclease and restriction endonuclease digestion. A unique pair of boundaries were observed, indicating a single nucleosome translational position. This nucleosome position did not change on H1 or USF binding. Thus, H1 repression of USF binding was independent of nucleosome mobility, indicating an alternative mechanism of H1 repression. H1 repressed USF binding at a site 35 base pairs into the nucleosome core more effectively than at a site near the "linker" DNA, suggesting that inhibition by H1 was not simply due to steric occlusion. Instead, these data are consistent with a model by which H1 binding reduces transient dynamic exposure of the DNA from the histone octamer surface (Polach, K. L., and Widom, J. (1995) J. Mol. Biol. 254, 130-149).
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PMID:H1-mediated repression of transcription factor binding to a stably positioned nucleosome. 901 16

Sin4p is a component of a mediator complex associated with the C-terminal domain of RNA polymerase II and SIN4 is required for proper regulation of several genes in yeast, including the HO endonuclease gene, glucose repressible genes and MATa cell-specific genes. Previous studies indicated that SIN4 may influence transcription through changes in the organization of chromatin. We have examined a specific chromatin structure associated with MATa cell-specific repression in sin4 MATalpha cells to determine if SIN4 is required for nucleosome positioning. Although the loss of SIN4 has no effect on nucleosome location, we find that the sensitivity of bulk chromatin from sin4 cells to micrococcal nuclease digestion is strikingly increased relative to chromatin from isogenic wild-type cells. The nuclease hypersensitivity of chromatin from sin4 cells is not related to gross alterations in histone gene expression or to bulk increases in histone modification. Our experiments suggest that SIN4 directly or indirectly regulates a global aspect of chromatin accessibility, providing a molecular basis for phenotypic similarities between sin4 mutations and mutations in histones.
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PMID:Global alterations in chromatin accessibility associated with loss of SIN4 function. 909 35

Repetitive sequences with oligo A tails were observed in Dra1 fragments of Bombyx mori genomic DNA. The full sequence of the element, an abundant non-LTR retrotransposon of B. mori, was determined by assembling inner restriction fragments. This element, designated L1Bm, contained two ORFs encoding a gag-like protein and reverse transcriptase (RT), respectively. An endonuclease domain was identified at the N-terminus of the RT sequence. The homology search of the amino acid sequences revealed that L1Bm belongs evolutionally to the same family as various other non-LTR retrotransposons of Drosophila and Mosquito. On the other hand, L1Bm resembles the L1 element of human genome in its high copy number and its frequent truncation at the 5'-side. Some units of the histone gene repeat in B. mori possess complete L1Bm elements in a 3'-flanking region of H2b.
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PMID:A major non-LTR retrotransposon of Bombyx mori, L1Bm. 930 19

Histone acetylation is thought to have a role in transcription. To gain insight into the role of histone acetylation in retinoid-dependent transcription, we studied the effects of trichostatin A (TSA), a specific inhibitor of histone deacetylase, on P19 embryonal carcinoma cells. We show that coaddition of TSA and retinoic acid (RA) markedly enhances neuronal differentiation in these cells, although TSA alone does not induce differentiation but causes extensive apoptosis. Consistent with the cooperative effect of TSA and RA, coaddition of the two agents synergistically enhanced transcription from stably integrated RA-responsive promoters. The transcriptional synergy by TSA and RA required the RA-responsive element and a functional retinoid X receptor (RXR)/retinoic acid receptor (RAR) heterodimer, both obligatory for RA-dependent transcription. Furthermore, TSA led to promoter activation by an RXR-selective ligand that was otherwise inactive in transcription. In addition, TSA enhanced transcription from a minimum basal promoter, independently of the RA-responsive element. Finally, we show that TSA alone or in combination with RA increases in vivo endonuclease sensitivity within the RA-responsive promoter, suggesting that TSA treatment might alter a local chromatin environment to enhance RXR/RAR heterodimer action. Thus, these results indicate that histone acetylation influences activity of the heterodimer, which is in line with the observed interaction between the RXR/RAR heterodimer and a histone acetylase presented elsewhere.
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PMID:A histone deacetylase inhibitor potentiates retinoid receptor action in embryonal carcinoma cells. 932 3

A novel, quantitative nucleosome array assay has been developed that couples the activity of a nucleosome 'remodeling' activity to restriction endonuclease activity. This assay has been used to determine the kinetic parameters of ATP-dependent nucleosome disruption by the yeast SWI/SNF complex. Our results support a catalytic mode of action for SWI/SNF in the absence of nucleosome targeting. In this quantitative assay SWI/SNF and ATP lead to a 100-fold increase in nucleosomal DNA accessibility, and initial rate measurements indicate that the complex can remodel one nucleosome every 4.5 min on an 11mer nucleosome array. In contrast to SWI/SNF action on mononucleosomes, we find that the SWI/SNF remodeling reaction on a nucleosome array is a highly reversible process. This result suggests that recovery from SWI/SNF action involves interactions among nucleosomes. The biophysical properties of model nucleosome arrays, coupled with the ease with which homogeneous arrays can be reconstituted and the DNA accessibility analyzed, makes the described array system generally applicable for functional analysis of other nucleosome remodeling enzymes, including histone acetyltransferases.
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PMID:Catalytic activity of the yeast SWI/SNF complex on reconstituted nucleosome arrays. 936 91

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