EC:3.1.31.1 - FACTA Search

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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)

A new histone-specific acetyltransferase, which is closely associated with nucleosomes prepared from lymphocyte nuclei by treatment with micrococcal nuclease, is described. The acetylating enzyme transfers [3H]acetyl groups from [3H]acetyl-coenzyme A to the endogenous histones H2A, H2B, H3 and H4 in nucleosomes as well as to free histones added to the reaction mixture. Histone H1 is not acetylated by this enzyme. The acetyltransferase was partially purified by DEAE-Sephadex and DNA-cellulose chromatography. The nucleosome-associated enzyme binds to DNA cellulose at low salt concentrations (DNA-binding acetyltransferase), while the previously described histone-specific acetyltransferases have no affinity to DNA under these conditions. This high affinity for DNA may explain the association of DNA-binding acetyltransferase with nucleosomes.
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PMID:Acetylation of nucleosomal histones in vitro. 746 Sep 27

The uni linkage group (ULG) of Chlamydomonas reinhardtii contains many genes involved in the basal body-flagellar system. Recent evidence suggests that the corresponding uni chromosome is located in close proximity to the basal body complex. In the course of studies into its molecular organization, we have found a cluster of four histone genes on the ULG. The genes are arranged as divergently-transcribed pairs: H3-H4 and H2B-H2A. Genomic sequencing reveals that these genes lack introns and contain characteristic 3' palindromes similar to those of animals. The predicted amino acid sequences are highly conserved across species, with greatest similarities to the histone genes of Volvox. Southern analysis shows that each histone gene is present in 15-20 copies in Chlamydomonas and suggests a dispersed genomic organization. Northern analysis of mitotically-synchronized cells shows that, like the replication-dependent histones of higher eukaryotes, Chlamydomonas histone genes are expressed during S-phase. Using a gene-specific probe on Northern blots, we provide evidence that the ULG H4 gene is regulated in the same manner as other Chlamydomonas histone genes. Finally, micrococcal nuclease protection experiments show that the uni chromosome itself associates with histone proteins and displays a conventional nucleosomal banding pattern.
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PMID:The uni chromosome of Chlamydomonas: histone genes and nucleosome structure. 747 7

The Saccharomyces cerevisiae SIS2 gene was identified by its ability, when present on a high copy number plasmid, to increase dramatically the growth rate of sit4 mutants. SIT4 encodes a type 2A-related protein phosphatase that is required in late G1 for normal G1 cyclin expression and for bud initiation. Overexpression of SIS2, which contains an extremely acidic carboxyl terminal region, stimulated the rate of CLN1, CLN2, SWI4 and CLB5 expression in sit4 mutants. Also, overexpression of SIS2 in a CLN1 cln2 cln3 strain stimulated the growth rate and the rate of CLN1 and CLB5 RNA accumulation during late G1. The SIS2 protein fractionated with nuclei and was released from the nuclear fraction by treatment with either DNase I or micrococcal nuclease, but not by RNase A. This result, combined with the finding that overexpression of SIS2 is extremely to a strain containing lower than normal levels of histones H2A and H2B, suggests that SIS2 might function to stimulate transcription via an interaction with chromatin.
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PMID:Overexpression of SIS2, which contains an extremely acidic region, increases the expression of SWI4, CLN1 and CLN2 in sit4 mutants. 770 54

Histone-DNA templates for bacteriophage T7 RNA polymerase were assembled from a plasmid containing a promoter and a terminator for T7 RNA polymerase, intact (H3.H4)2 tetramers, and either untreated or chemically acetylated H2A.H2B dimers. The nucleosomal particles containing acetylated H2A.H2B dimers protect 145 base pairs of DNA against micrococcal nuclease digestion and prevent the reaction with psoralen of 80 to 145 DNA base pairs. The inhibition of transcriptional initiation caused by the association of DNA with intact core histone octamers decreases significantly when the histone octamers contain acetylated H2A.H2B dimers. These results suggest a role for H2A.H2B dimers in the control of transcription, which might be mediated through acetylation and deacetylation of their lysine residues.
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PMID:Acetylation of histone H2A.H2B dimers facilitates transcription. 775 16

Recently, using a well defined nucleosomal assembly system, we demonstrated that high mobility group proteins (HMGs) 14 and 17 can organize nucleosomes into a regular array with a nucleosomal repeat length of 160-165 base pairs in vitro. Interestingly, such a short repeat length has been described for lower eukaryotes and for active chromatin. To begin to investigate how these proteins may prevent the close packing of nucleosomes, assembly reactions were carried out in which the relative amounts of HMGs 14 and 17, histones H2A and H2B, and the N1/N2.(H3, H4) complex were varied in assembly reactions. Under conditions in which histones H2A and H2B were limiting and in the absence of HMGs 14 and 17, micrococcal nuclease digestion of the assembled product produced a ladder of DNA fragments that was much less well defined and which included DNA that was associated with subnucleosomal structures. The apparent repeat length for this chromatin template was around 125 base pairs. Most interestingly, when HMGs 14 and 17 were added to this assembly reaction, "nucleosome-like" structures were reassembled as shown by the restoration of a regular, well defined ladder of DNA fragments upon micrococcal nuclease digestion. The apparent repeat length increased from 125 to approximately 145 base pairs. Analysis of the protein composition of chromatin formed in the presence or absence of HMGs 14 and 17 reveals that HMGs 14 and 17 might be able to substitute for a histone H2A-H2B dimer in a H2A/H2B-deficient nucleosome. The ability to form a regularly spaced nucleosomal template is also lost when excess HMGs 14 and 17 are used in assembly reactions. Spacing can be restored by the addition of poly(glutamate, alanine), a chemical polymer of negative charge, which may indicate that carrier proteins (specific or nonspecific) may be required for the proper incorporation of all chromatin assembly components into chromatin in vivo. Finally, although the mechanism of action is not known, HMGs 14 and 17 can partially overcome inhibition of initiation of transcription caused by the formation of nucleosomal particles deficient in histones H2A and H2B.
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PMID:High mobility group proteins 14 and 17 can space nucleosomal particles deficient in histones H2A and H2B creating a template that is transcriptionally active. 796 85

We have investigated protein-DNA interactions in the proximal promoter of the human amyloid precursor protein (APP) gene in temporal lobe neocortical nuclei isolated from control and Alzheimer disease (AD) affected brains. We report that the human APP 5' promoter sequence from -203 to +55 bp, which has been previously reported to contain essential regulatory elements for APP gene transcription, lies in a deoxyribonuclease I, micrococcal nuclease- and restriction endonuclease-sensitive, G+C-rich nucleosome-free gap flanked both 5' and 3' by typical nucleosome structures. As analyzed by electrophoretic mobility shift assay, this extended internucleosomal linker DNA is heavily occupied by nuclear protein factors, and interacts differentially with nuclear protein extracts obtained from HeLa and human brain neocortical nuclei. This suggests that the chromatin conformation of the APP gene promoter may vary in different cell types, and may correlate with differences in APP gene expression. Human recombinant transcription factors AP1, SP1 and TFIID (but not AP2 or brain histones H1, H2B and H4) interact with the -203 to +55 bp of the human APP promoter sequence. Only minor differences were observed in the chromatin structure of the immediate APP promoter between non-AD and AD affected neocortical nuclei, suggesting either that post-transcriptional processes, or that regulatory elements lying elsewhere in the APP gene may be important in the aberrant accumulation of the APP gene product.
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PMID:Protein-DNA interactions in the promoter region of the amyloid precursor protein (APP) gene in human neocortex. 801 72

The fate of parental nucleosomes during chromatin replication was studied in vitro using in vitro assembled chromatin containing the whole SV40 genome as well as salt-treated and native SV40 minichromosomes. In vitro assembled minichromosomes were able to replicate efficiently in vitro, when the DNA was preincubated with T-antigen, a cytosolic S100 extract and three deoxynucleoside triphosphates prior to chromatin assembly, indicating that the origin has to be free of nucleosomes for replication initiation. The chromatin structure of the newly synthesized daughter strands in replicating molecules was analysed by psoralen cross-linking of the DNA and by micrococcal nuclease digestion. A 5- and 10-fold excess of protein-free competitor DNA present during minichromosome replication traps the segregating histones. In opposition to published data this suggests that the parental histones remain only loosely or not attached to the DNA in the region of the replication fork. Replication in the putative absence of free histones shows that a subnucleosomal particle is randomly assembled on the daughter strands. The data are compatible with the formation of a H3/H4 tetramer complex under these conditions, supporting the notion that under physiological conditions nucleosome core assembly on the newly synthesized daughter strands occurs by the binding of H2A/H2B dimers to a H3/H4 tetramer complex.
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PMID:Disruption of the nucleosomes at the replication fork. 822 63

High mobility group (HMG) proteins 14 and 17 are abundant chromatin-associated proteins found in all higher eukaryotic nuclei. This observation demonstrates that HMGs 14 and 17 must have an important and universal function with regard to the structure and function of chromatin. What this function is, including how they interact with a nucleosomal array in vivo, is not known. Recently, we have demonstrated that HMGs 14 and 17 can organize nucleosomes into a regular array and increase the repeat length from 145 to about 160-165 base pairs in vitro. In addition, they can increase the apparent repeat length of chromatin deficient in histones H2A/H2B from 125 to approximately 145 base pairs. Importantly, this template was transcriptionally active. In this study, we report five new observations that begin to address the mechanism by which HMGs 14 and 17 space nucleosomal particles. First, we demonstrate that both human placenta HMG 14 and HMG 17 can space nucleosomes to produce a chromatin template with a repeat length around 160 base pairs. This result further highlights the similarity between these proteins in terms of protein structure and perhaps function. Second, we show that digestion of HMG containing chromatin with micrococcal nuclease produces DNA fragments that were approximately 10 and 20 base pairs longer than nucleosome core-particle DNA. This suggests that HMG 14 or HMG 17 can protect, directly or indirectly, at least an additional 10 base pairs of linker DNA from micrococcal digestion. However, this HMG-containing particle does not produce a strong kinetic block, and further digestion results in the eventual accumulation of DNA fragments 145 base pairs in length. Third, by comparing the full-length protein with different domains, we demonstrate that the acidic carboxyl-terminal domain is absolutely required for nucleosome spacing, neither the nucleosome binding domain of HMG 14 or HMG 17 nor the amino-terminal domain plus the nucleosome binding domain of HMG 14 could space nucleosomes. Fourth, we demonstrate that extensive micrococcal nuclease digestion of chromatin deficient in histones H2A/H2B led to the accumulation of DNA fragments about 110 base pairs in length, which is presumably the length of DNA associated with a nucleosomal particle deficient in one H2A/H2B dimer. Incorporation of either HMG 14 or HMG 17 into this chromatin results in the disappearance of this band and increase in the accumulation of fragments around 140-150 base pairs in length. Finally, in contrast to spacing of complete nucleosomes, we find that the nucleosome binding domain of HMG 17 (but not the nucleosome binding of HMG 14) is the only domain required for spacing of H2A/H2B-deficient chromatin.
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PMID:High mobility group protein 14 and 17 can prevent the close packing of nucleosomes by increasing the strength of protein contacts in the linker DNA. 866 14

We investigated the mechanism by which polyanions gelatinized nuclei of some mouse lymphocytes and ruptured these cells. The gel produced by the addition of dextran sulfate (DS) to mouse lymphocyte nuclei was composed of histones (H1, H2A, H2B, H3, and H4), DS, and DNA. Adding DS to the chromatin obtained from nuclei by micrococcal nuclease (MNase) digestion also produced a gel containing a complex of DS-histones-DNA. When this mixture was further digested by MNase, DNA debris of random sizes was observed instead of the 150-bp repeating units of DNA usually observed when normal nucleosomes are digested with MNase. Removal of DS from the chromatin-DS gel resulted in the regeneration of nucleosomes. These results suggest the following: After entering the cells with damaged cellular membrane, DS extracts histones from nucleosomes to form DS-histone complexes, which then aggregate with the liberated DNA to form a macromolecular gel. Finally, the swelling pressure of the gel destroys the cells.
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PMID:Interaction between polyanions and cell nuclei: mechanism of gelatination of nuclei. 894 64

The spermatozoa of a dasyurid marsupial, Sminthopsis crassicaudata, have two distinct nuclear regions: uniformly electron-dense chromatin (C1) in the interior and fissured chromatin (C2) at the periphery. To investigate whether the differences in morphology are due to incorporation of different packaging proteins, spermatozoa nuclear proteins were characterised by acetic acid-urea polyacrylamide gel electrophoresis (PAGE) and fractionated by reverse-phase high-pressure liquid chromatography (HPLC). The main protein component was protamine I, but a complete histone complement (H1, H2A, H2B, H3, and H4) was also detected. Immunocytochemistry showed localisation of H4, H2B, and H2A histones to the periphery of the nuclei, a region that corresponded to the C2 chromatin. The fissures in the chromatin of this region disappeared following incubation with fish protamines, indicating that the nucleohistone C2 region may be incompletely condensed relative to nucleoprotamines. This observation is consistent with the view that 60% of phosphodiester charges remain negative in nucleohistone DNA, whereas all DNA charges are neutralised in highly compact nucleoprotamines. Treatment of spermatozoa with micrococcal nuclease showed that the C1 chromatin was resistant to digestion, whereas the C2 region was cleaved into 30- to 38-nm agglomerates and 11-nm nucleosomal-size structures. Thus, this study demonstrates that spermatozoa nuclei of this marsupial species contain peripherally localised histones, and the nucleohistone chromatin accounts for the different morphology of the C2 region compared with the rest of the nucleus.
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PMID:Isolation of histones and related chromatin structures from spermatozoa nuclei of a dasyurid marsupial, Sminthopsis crassicaudata. 921 75

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