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26 results on '"Core histones"'

2. Insights on the nuclear shuttling of H2A-H2B histone chaperones.

Author

Kaur, Rasanpreet, Kumar, Pramod, and Kumar, Anuj

Subjects
*NUCLEAR transport (Cytology), *CARRIER proteins, *DNA denaturation, *NUCLEAR membranes, *NUCLEAR proteins, *HISTONES
Abstract

All cellular processes that involve the unwinding of DNA also lead to the systematic shuttling of histones. Histone shuttling across the nuclear membrane is facilitated by a class of proteins known as – histone chaperones. Histone chaperones are classified based on their binding to H3/H4 histones or H2A/H2B histones. During the shuttling process, two types of signals - NLS and NES are recognized by the nuclear transport proteins. However, this is the nuclear transport protein and the mechanism of signal recognition by the protein is still unknown. Thus, in this piece of work, the NLS and NES signals are predicted on important H2A/H2B binding histone chaperones. In addition, cellular localization and potential DNA binding regions of histone chaperones are predicted. Mapping of predicted regions on the histone chaperone's structure suggested that the critical binding regions mainly lie on the disordered region of the histone chaperones. NLS and NES are present in the N- and C-terminal of the histone chaperones. Most histone chaperones contain bipartiate NLS signals. This article sheds light on the crucial aspect that in addition of being directly engaged in nucleosome synthesis and disassembly in vivo, histone chaperone also performs various specific roles via histone binding activity. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Reconstitution of Chromatin by Stepwise Salt Dialysis.

Author

Cruz-Becerra, Grisel and Kadonaga, James T

Subjects
Biochemistry and Cell Biology, Biological Sciences, Genetics, Rare Diseases, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Core histones, DNA, Chromatin, Chromatin reconstitution, Salt dialysis, Micrococcal nuclease, Biological sciences, Biomedical and clinical sciences
Abstract

Chromatin, rather than plain DNA, is the natural substrate of the molecular machines that mediate DNA-directed processes in the nucleus. Chromatin can be reconstituted in vitro by using different methodologies. The salt dialysis method yields chromatin that consists of purified histones and DNA. This biochemically pure chromatin is well-suited for a wide range of applications. Here, we describe simple and straightforward protocols for the reconstitution of chromatin by stepwise salt dialysis and the analysis of the chromatin by the micrococcal nuclease (MNase) digestion assay. Chromatin that is reconstituted with this method can be used for efficient homology-directed repair (HDR)-mediated gene edited with the CRISPR-Cas9 system as well as for biochemical studies of chromatin dynamics and function.

Published
2021

5. The Role of Linker Histones in Chromatin Structural Organization. 2. Interaction with DNA and Nuclear Proteins.

Author

Chikhirzhina, E. V., Starkova, T. Yu., and Polyanichko, A. M.

Abstract

Abstract—In the first part of this review (Biophysics, 63, 858 (2018)), the structure of H1 family linker histones, their posttranslational modifications, as well as the role of H1 histone in the formation of compact transcriptionally inactive chromatin, were considered. The second part is devoted to the role of H1 family linker histones in the structural organization of chromatin at different levels: from nucleosomes to metaphase chromosomes. The mechanisms of interaction of H1 histone with other elements of chromatin, including with DNA and nuclear proteins, are discussed. [ABSTRACT FROM AUTHOR]

Published
2020
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6. Phylogenetic analysis of the core histone doublet and DNA topo II genes of Marseilleviridae: evidence of proto-eukaryotic provenance

Author

Albert J. Erives

Subjects
Chromatin, Origin of eukaryotic chromatin, Core histones, Nucleosomes, DNA topoisomerase II, Eukaryotic replisome, Genetics, QH426-470
Abstract

Abstract Background While the genomes of eukaryotes and Archaea both encode the histone-fold domain, only eukaryotes encode the core histone paralogs H2A, H2B, H3, and H4. With DNA, these core histones assemble into the nucleosomal octamer underlying eukaryotic chromatin. Importantly, core histones for H2A and H3 are maintained as neofunctionalized paralogs adapted for general bulk chromatin (canonical H2 and H3) or specialized chromatin (H2A.Z enriched at gene promoters and cenH3s enriched at centromeres). In this context, the identification of core histone-like “doublets” in the cytoplasmic replication factories of the Marseilleviridae (MV) is a novel finding with possible relevance to understanding the origin of eukaryotic chromatin. Here, we analyze and compare the core histone doublet genes from all known MV genomes as well as other MV genes relevant to the origin of the eukaryotic replisome. Results Using different phylogenetic approaches, we show that MV histone domains encode obligate H2B-H2A and H4-H3 dimers of possible proto-eukaryotic origin. MV core histone moieties form sister clades to each of the four eukaryotic clades of canonical and variant core histones. This suggests that MV core histone moieties diverged prior to eukaryotic neofunctionalizations associated with paired linear chromosomes and variant histone octamer assembly. We also show that MV genomes encode a proto-eukaryotic DNA topoisomerase II enzyme that forms a sister clade to eukaryotes. This is a relevant finding given that DNA topo II influences histone deposition and chromatin compaction and is the second most abundant nuclear protein after histones. Conclusions The combined domain architecture and phylogenomic analyses presented here suggest that a primitive origin for MV histone genes is a more parsimonious explanation than horizontal gene transfers + gene fusions + sufficient divergence to eliminate relatedness to eukaryotic neofunctionalizations within the H2A and H3 clades without loss of relatedness to each of the four core histone clades. We thus suggest MV histone doublet genes and their DNA topo II gene possibly were acquired from an organism with a chromatinized replisome that diverged prior to the origin of eukaryotic core histone variants for H2/H2A.Z and H3/cenH3. These results also imply that core histones were utilized ancestrally in viral DNA compaction and/or protection from host endonucleases.

Published
2017
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7. Different reaction of core histones H2A and H2B to the red laser radiation

Author

Brill G.E., Egorova A.V., Bugaeva I.O., Ushakova O.V., and Matyushkina O.L.

Subjects
core histones, laser radiation, self-organization, Medicine (General), R5-920
Abstract

Aim: to investigate the influence of red laser irradiation on the processes of self-assembly of core histones H2A and H2B. Material and Methods. Solutions of human histone proteins were used in the work. Self-assembly was studied by the method of wedge dehydration. Image facies analysis consisted in their qualitative characterization and calculation of quantitative indicators with subsequent statistical processing. Results. It was established that linearly polarized laser light of the red region of the spectrum (A=660 nm, 1 J/cm2) significantly modifies the process of self-assembly of core histone H2B, while the structure of the facies of H2A histone changing to a lesser extent. Conclusion. Red laser radiation influences on the on the processes of self-assembly of core histones H2A and H2B. There is a differential sensitivity of different classes of histones to laser action. Histone proteins used in the experiments are present in the form of aqueous salt solutions. Red light realizes the effect seems to be due to the formation of singlet oxygen by direct laser excitation of molecular oxygen.

Published
2017

8. Optimization of nucleosome assembling from histones and model DNAs and estimation of the reconstitution efficiency.

Author

Kutuzov, M. M., Kurgina, T. A., Belousova, E. A., Khodyreva, S. N., and Lavrik, O. I.

Subjects
*HISTONES, *DNA synthesis, *DNA, *NUCLEOTIDE sequence
Abstract

Nucleosome core particles (NCPs) are basic units of chromatin organization; they represent the most convenient model system for the study of key DNA-dependent processes. Therefore, a robust method of nucleosome assembly is important for research. To prepare NCPs, purified histones and DNAs with sequences providing strong positioning of DNA relative to histone octamer are commonly used, and a method to control the efficacy of NCP reconstruction is required. Aim. To optimize the procedure for NCP reconstitution from purified histone octamers and different types of synthetic model DNAs and develop a new approach for express analysis of the efficacy of NCP reconstitution. Methods. Dialysis, PAAG, fluorescence measurement using the Eva-Green dye. Results. We first developed a convenient procedure for NCP assembly in a low-salt buffer with a variable DNA-histone ratio at the first stage. Once the optimal ratio was determined, NCPs could be assembled by a slow gradient dialysis. The efficacy of NCP assembly can be estimated directly in the solution using the Eva-Green dye. Conclusions. The efficacy of dye intercalation into DNA duplex was sharply reduced in the nucleosomal context. The main benefits of the proposed approach are the rapid analysis directly in the solution and possibility to use DNAs without any special tags. [ABSTRACT FROM AUTHOR]

Published
2019
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9. Top‐down characterization of mouse core histones.

Author

Xue, Bingbing, Xiao, Kaijie, and Tian, Zhixin

Subjects
*POST-translational modification, *HISTONES, *MICE, *CORE & periphery (Economic theory)
Abstract

Histone post‐translational modifications (PTMs) play various roles in chromatin‐related cellular processes, and comprehensive analysis of these combinatorial PTMs at the intact protein level by top‐down proteomics is the method of choice to reveal their crosstalk and biological functions. Here, we report our top‐down characterization of the core histones from mouse fibroblasts cells NIH/3T3, which is a classic model used in many kinds of research. With nanoRPLC‐MS/MS analysis and ProteinGoggle database search, 547 protein species were identified with spectrum‐level FDR ≤ 1%, where PTMs in 51 protein species were unambiguously localized with PTM scores ≥1. High‐resolution MS/MS data also allowed the unambiguous identification of acetylation instead of trimethylation. This study presents a general picture of combinatorial PTMs of mouse core histones, which serves as a basic reference for all future related biological studies. [ABSTRACT FROM AUTHOR]

Published
2019
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10. Chromatin Immunoprecipitation of Retroviral Genomes with Antibodies Recognizing Modified Histones and Specific Viral Proteins.

Author

Geis FK and Goff SP

Subjects
Humans, Viral Proteins genetics, Viral Proteins metabolism, Viral Proteins immunology, Animals, DNA, Viral genetics, Antibodies immunology, Histones metabolism, Chromatin Immunoprecipitation methods, Retroviridae genetics, Genome, Viral
Abstract

Mammalian cells have developed and optimized defense mechanisms to prevent or hamper viral infection. The early transcriptional silencing of incoming viral DNAs is one such antiviral strategy and seems to be of fundamental importance, since most cell types silence unintegrated retroviral DNAs. In this chapter, a method for chromatin immunoprecipitation of unintegrated DNA is described. This technique allows investigators to examine histone and co-factor interactions with unintegrated viral DNAs as well as to analyze histone modifications in general or in a kinetic fashion at various time points during viral infection., (© 2024. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2024
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12. Top-down characterization of chicken core histones.

Author

Wu, Hao, Xiao, Kaijie, and Tian, Zhixin

Subjects
*ANIMAL genetics, *CHICKENS, *GENETIC transcription regulation, *BIOLOGICAL crosstalk, *PROTEOMICS, *HISTONES
Abstract

Core histones and their PTMs play important roles in regulating gene transcription and other DNA-related processes. The study of core histones PTMs, their cross-talk and functional roles is not only of broad biological significance but also of wide pathological and clinical relevance. Having the strength of comprehensive proteoform identification with 100% amino acid sequence coverage and combinatorial PTMs, top-down proteomics has become the state-of-the-art analytical tool for combinatorial PTM characterization of core histones. In this study, we report our top-down characterization of chicken (Gallus gallus domesticus) core histones, which have been widely used as models for chromosome re-construction among others because of easy availability and not-so-dense PTMs. With nanoRPLC-MS/MS analysis and ProteinGoggle database search, a total of 58 proteoforms were identified for the core histone families of H4, H2B, H2A, and H3. [ABSTRACT FROM AUTHOR]

Published
2018
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13. Anticancer drug mithramycin interacts with core histones: An additional mode of action of the DNA groove binder

Author

Amrita Banerjee, Sulagna Sanyal, Kirti K. Kulkarni, Kuladip Jana, Siddhartha Roy, Chandrima Das, and Dipak Dasgupta

Subjects
Mithramycin, Core histones, Dual binding mode, Epigenetic modulator, H3K18 acetylation, Biology (General), QH301-705.5
Abstract

Mithramycin (MTR) is a clinically approved DNA-binding antitumor antibiotic currently in Phase 2 clinical trials at National Institutes of Health for treatment of osteosarcoma. In view of the resurgence in the studies of this generic antibiotic as a human medicine, we have examined the binding properties of MTR with the integral component of chromatin – histone proteins – as a part of our broad objective to classify DNA-binding molecules in terms of their ability to bind chromosomal DNA alone (single binding mode) or both histones and chromosomal DNA (dual binding mode). The present report shows that besides DNA, MTR also binds to core histones present in chromatin and thus possesses the property of dual binding in the chromatin context. In contrast to the MTR–DNA interaction, association of MTR with histones does not require obligatory presence of bivalent metal ion like Mg2+. As a consequence of its ability to interact with core histones, MTR inhibits histone H3 acetylation at lysine 18, an important signature of active chromatin, in vitro and ex vivo. Reanalysis of microarray data of Ewing sarcoma cell lines shows that upon MTR treatment there is a significant down regulation of genes, possibly implicating a repression of H3K18Ac-enriched genes apart from DNA-binding transcription factors. Association of MTR with core histones and its ability to alter post-translational modification of histone H3 clearly indicates an additional mode of action of this anticancer drug that could be implicated in novel therapeutic strategies.

Published
2014
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14. Phylogenetic analysis of the core histone doublet and DNA topo II genes of Marseilleviridae: evidence of proto-eukaryotic provenance.

Author

Erives, Albert J.

Subjects
MICROORGANISM phylogeny, DNA topoisomerase II, ARCHAEBACTERIA, EUKARYOTES, HISTONES
Abstract

Background: While the genomes of eukaryotes and Archaea both encode the histone-fold domain, only eukaryotes encode the core histone paralogs H2A, H2B, H3, and H4. With DNA, these core histones assemble into the nucleosomal octamer underlying eukaryotic chromatin. Importantly, core histones for H2A and H3 are maintained as neofunctionalized paralogs adapted for general bulk chromatin (canonical H2 and H3) or specialized chromatin (H2A.Z enriched at gene promoters and cenH3s enriched at centromeres). In this context, the identification of core histonelike "doublets" in the cytoplasmic replication factories of the Marseilleviridae (MV) is a novel finding with possible relevance to understanding the origin of eukaryotic chromatin. Here, we analyze and compare the core histone doublet genes from all known MV genomes as well as other MV genes relevant to the origin of the eukaryotic replisome. Results: Using different phylogenetic approaches, we show that MV histone domains encode obligate H2B-H2A and H4-H3 dimers of possible proto-eukaryotic origin. MV core histone moieties form sister clades to each of the four eukaryotic clades of canonical and variant core histones. This suggests that MV core histone moieties diverged prior to eukaryotic neofunctionalizations associated with paired linear chromosomes and variant histone octamer assembly. We also show that MV genomes encode a proto-eukaryotic DNA topoisomerase II enzyme that forms a sister clade to eukaryotes. This is a relevant finding given that DNA topo II influences histone deposition and chromatin compaction and is the second most abundant nuclear protein after histones. Conclusions: The combined domain architecture and phylogenomic analyses presented here suggest that a primitive origin for MV histone genes is a more parsimonious explanation than horizontal gene transfers + gene fusions + sufficient divergence to eliminate relatedness to eukaryotic neofunctionalizations within the H2A and H3 clades without loss of relatedness to each of the four core histone clades. We thus suggest MV histone doublet genes and their DNA topo II gene possibly were acquired from an organism with a chromatinized replisome that diverged prior to the origin of eukaryotic core histone variants for H2/H2A.Z and H3/cenH3. These results also imply that core histones were utilized ancestrally in viral DNA compaction and/or protection from host endonucleases. [ABSTRACT FROM AUTHOR]

Published
2017
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15. Tryptase-catalyzed core histone truncation: A novel epigenetic regulatory mechanism in mast cells.

Author

Melo, Fabio R., Wallerman, Ola, Paivandy, Aida, Calounova, Gabriela, Gustafson, Ann-Marie, Sabari, Benjamin R., Zabucchi, Giuliano, Allis, C. David, and Pejler, Gunnar

Abstract

Background Mast cells are key effector cells in allergic reactions. When activated to degranulate, they release a plethora of bioactive compounds from their secretory granules, including mast cell-restricted proteases such as tryptase. In a previous study, we showed that tryptase, in addition to its intragranular location, can be found within the nuclei of mast cells where it truncates core histones at their N-terminal ends. Objective Considering that the N-terminal portions of the core histones constitute sites for posttranslational modifications of major epigenetic impact, we evaluated whether histone truncation by tryptase could have an impact on epigenetic events in mast cells. Methods Mast cells were cultured from wild-type and tryptase null mice, followed by an assessment of their profile of epigenetic histone modifications and their phenotypic characteristics. Results We show that tryptase truncates nucleosomal histone 3 and histone 2B (H2B) and that its absence results in accumulation of the epigenetic mark, lysine 5-acetylated H2B. Intriguingly, the accumulation of lysine 5-acetylated H2B was cell age–dependent and was associated with a profound upregulation of markers of non–mast cell lineages, loss of proliferative control, chromatin remodeling as well as extensive morphological alterations. Conclusions These findings introduce tryptase-catalyzed histone clipping as a novel epigenetic regulatory mechanism, which in the mast cell context may be crucial for maintaining cellular identity. [ABSTRACT FROM AUTHOR]

Published
2017
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16. Reconstitution of Chromatin by Stepwise Salt Dialysis

Author

Grisel Cruz-Becerra and James T. Kadonaga

Subjects
Strategy and Management, 1.1 Normal biological development and functioning, Chromatin reconstitution, Industrial and Manufacturing Engineering, chemistry.chemical_compound, Rare Diseases, Micrococcal nuclease, Methods Article, Genetics, Salt dialysis, Gene, biology, Mechanical Engineering, Metals and Alloys, food and beverages, DNA, Core histones, In vitro, Chromatin, Histone, Biochemistry, chemistry, biology.protein, Generic health relevance, Dialysis (biochemistry), Function (biology)
Abstract

Chromatin, rather than plain DNA, is the natural substrate of the molecular machines that mediate DNA-directed processes in the nucleus. Chromatin can be reconstituted in vitro by using different methodologies. The salt dialysis method yields chromatin that consists of purified histones and DNA. This biochemically pure chromatin is well-suited for a wide range of applications. Here, we describe simple and straightforward protocols for the reconstitution of chromatin by stepwise salt dialysis and the analysis of the chromatin by the micrococcal nuclease (MNase) digestion assay. Chromatin that is reconstituted with this method can be used for efficient homology-directed repair (HDR)-mediated gene edited with the CRISPR-Cas9 system as well as for biochemical studies of chromatin dynamics and function.

Published
2021

17. Anticancer drug mithramycin interacts with core histones: An additional mode of action of the DNA groove binder.

Author

Banerjee, Amrita, Sanyal, Sulagna, Kulkarni, Kirti K., Jana, Kuladip, Roy, Siddhartha, Das, Chandrima, and Dasgupta, Dipak

Subjects
ANTINEOPLASTIC agents, HISTONES, DNA-binding proteins, CLINICAL trials, OSTEOSARCOMA, TRANSCRIPTION factors
Abstract

Mithramycin (MTR) is a clinically approved DNA-binding antitumor antibiotic currently in Phase 2 clinical trials at National Institutes of Health for treatment of osteosarcoma. In view of the resurgence in the studies of this generic antibiotic as a human medicine, we have examined the binding properties of MTR with the integral component of chromatin – histone proteins – as a part of our broad objective to classify DNA-binding molecules in terms of their ability to bind chromosomal DNA alone (single binding mode) or both histones and chromosomal DNA (dual binding mode). The present report shows that besides DNA, MTR also binds to core histones present in chromatin and thus possesses the property of dual binding in the chromatin context. In contrast to the MTR–DNA interaction, association of MTR with histones does not require obligatory presence of bivalent metal ion like Mg 2+ . As a consequence of its ability to interact with core histones, MTR inhibits histone H3 acetylation at lysine 18, an important signature of active chromatin, in vitro and ex vivo . Reanalysis of microarray data of Ewing sarcoma cell lines shows that upon MTR treatment there is a significant down regulation of genes, possibly implicating a repression of H3K18Ac-enriched genes apart from DNA-binding transcription factors. Association of MTR with core histones and its ability to alter post-translational modification of histone H3 clearly indicates an additional mode of action of this anticancer drug that could be implicated in novel therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published
2014
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18. A Comparison of In Vitro Nucleosome Positioning Mapped with Chicken, Frog and a Variety of Yeast Core Histones.

Author

Allan, James, Fraser, Ross M., Owen-Hughes, Tom, Docherty, Kevin, and Singh, Vijender

Subjects
*CHROMATIN, *NUCLEOTIDE sequence, *GENE mapping, *HISTONES, *PLASMIDS, *NUCLEOPROTEINS
Abstract

Abstract: Using high-throughput sequencing, we have mapped sequence-directed nucleosome positioning in vitro on four plasmid DNAs containing DNA fragments derived from the genomes of sheep, drosophila, human and yeast. Chromatins were prepared by reconstitution using chicken, frog and yeast core histones. We also assembled yeast chromatin in which histone H3 was replaced by the centromere-specific histone variant, Cse4. The positions occupied by recombinant frog and native chicken histones were found to be very similar. In contrast, nucleosomes containing the canonical yeast octamer or, in particular, the Cse4 octamer were assembled at distinct populations of locations, a property that was more apparent on particular genomic DNA fragments. The factors that may contribute to this variation in nucleosome positioning and the implications of the behavior are discussed. [Copyright &y& Elsevier]

Published
2013
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19. Epigenetics of eu- and heterochromatin in inverted and conventional nuclei from mouse retina.

Author

Eberhart, Anja, Feodorova, Yana, Song, Congdi, Wanner, Gerhard, Kiseleva, Elena, Furukawa, Takahisa, Kimura, Hiroshi, Schotta, Gunnar, Leonhardt, Heinrich, Joffe, Boris, and Solovei, Irina

Abstract

To improve light propagation through the retina, the rod nuclei of nocturnal mammals are uniquely changed compared to the nuclei of other cells. In particular, the main classes of chromatin are segregated in them and form regular concentric shells in order; inverted in comparison to conventional nuclei. A broad study of the epigenetic landscape of the inverted and conventional mouse retinal nuclei indicated several differences between them and several features of general interest for the organization of the mammalian nuclei. In difference to nuclei with conventional architecture, the packing density of pericentromeric satellites and LINE-rich chromatin is similar in inverted rod nuclei; euchromatin has a lower packing density in both cases. A high global chromatin condensation in rod nuclei minimizes the structural difference between active and inactive X chromosome homologues. DNA methylation is observed primarily in the chromocenter, Dnmt1 is primarily associated with the euchromatic shell. Heterochromatin proteins HP1-alpha and HP1-beta localize in heterochromatic shells, whereas HP1-gamma is associated with euchromatin. For most of the 25 studied histone modifications, we observed predominant colocalization with a certain main chromatin class. Both inversions in rod nuclei and maintenance of peripheral heterochromatin in conventional nuclei are not affected by a loss or depletion of the major silencing core histone modifications in respective knock-out mice, but for different reasons. Maintenance of peripheral heterochromatin appears to be ensured by redundancy both at the level of enzymes setting the epigenetic code (writers) and the code itself, whereas inversion in rods rely on the absence of the peripheral heterochromatin tethers (absence of code readers). [ABSTRACT FROM AUTHOR]

Published
2013
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20. Modulation of action of wheat seedling endonucleases WEN1 and WEN2 by histones.

Author

Fedoreyeva, L., Smirnova, T., Kolomijtseva, G., and Vanyushin, B.

Subjects
*WHEAT, *SEEDLINGS, *ENDONUCLEASES, *HISTONES, *METHYLATION, *HYDROLYSIS, *ENZYME kinetics, *OLIGONUCLEOTIDES
Abstract

Wheat core histones and various subfractions of histone H1 modulate differently the action of endonucleases WEN1 and WEN2 from wheat seedlings. The character of this modulation depends on the nature of the histone and the methylation status of the substrate DNA. The modulation of enzyme action occurs at different stages of processive DNA hydrolysis and is accompanied by changes in the site specificity of the enzyme action. It seems that endonuclease WEN1 prefers to bind with protein-free DNA stretches in histone H1-DNA complex. The endonuclease WEN1 does not compete with histone H1/6 for DNA binding sites, but it does compete with histone H1/1, probably for binding with methylated sites of DNA. Unlike histone H1, the core histone H2b binds with endonuclease WEN1 and significantly increases its action. This is associated with changes in the site specificity of the enzyme action that is manifested by a significant increase in the amount of low molecular weight oligonucleotides and mononucleotides produced as a result of hydrolysis of DNA fragments with 120-140-bp length. The WEN2 endonuclease binds with histone-DNA complexes only through histones. The action of WEN2 is increased or decreased depending on the nature of the histone. Histone H1/1 stimulated the exonuclease activity of WEN2. It is supposed that endonucleases WEN1 and WEN2, in addition to the catalytic domain, should have a regulatory domain that is involved in binding of histones. As histone H1 is mainly located in the linker chromatin areas, it is suggested that WEN2 should attack DNA just in the chromatin linker zones. As differentiated from WEN2, DNA hydrolysis with endonuclease WEN1 is increased in the presence of core histones and, in particular, of H2b. Endonuclease WEN1 initially attacks different DNA sites in chromatin than WEN2. Endonuclease WEN2 activity can be increased or diminished depending on presence of histone H1 subfractions. It seems that just different fractions of the histone H1 are responsible for regulation of the stepwise DNA degradation by endonuclease WEN2 during apoptosis. Modulation of the action of the endonucleases by histones can play a significant role in the epigenetic regulation of various genetic processes and functional activity of genes. [ABSTRACT FROM AUTHOR]

Published
2013
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21. Affinity of anticancer drug, daunomycin, to core histones in solution: comparison of free and cross—linked proteins.

Author

Rabbani, Azra, Abdosamadi, Sayeh, and Sari-Saraf, Naghmeh

Subjects
ANTHRACYCLINES, ANTINEOPLASTIC antibiotics, CHROMATIN, DAUNOMYCIN, HISTONES, ULTRAVIOLET spectrometry, FLUORESCENCE
Abstract

Aim: The interaction of anthracycline anticancer drugs with chromatin, nucleosomes and histone H1 has been extensively studied. In the present study, for the first time, we have investigated the binding of anthracycline antibiotic, daunomycin, to free and cross-linked thymus core histones (CL-core) in solution and in the absence of DNA. Methods: Fluorescence, UV/Vis spectroscopy and equilibrium dialysis techniques were used. Results: The UV spectroscopy results show that daunomycin induces hypochromicity in the absorption spectra of the core histones. Fluorescence emission intensity is decreased upon daunomycin binding and the process is concentration dependent. The equilibrium dialysis shows that the binding is positive cooperative with the binding sites as Scatchard plot and Hill Coefficient confirm it. Conclusion: The results suggest that daunomycin shows much higher affinity to core histones free in solution than to CL-core, implying that the binding is most likely due to the accessibility of these proteins to the environment. It is suggested that daunomycin binds strongly to open state of histones, such as in tumor cells, rather than to their compact structure seen in normal chromatin. [ABSTRACT FROM AUTHOR]

Published
2007
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22. Physical methods used to study core histone tail structures and interactions in solution.

Author

Xiaodong Wang and Hayes, Jeffrey J.

Subjects
*HISTONES, *CHROMATIN, *GENETIC translation, *DNA, *ULTRASTRUCTURE (Biology), *CROSSLINKING (Polymerization)
Abstract

The core histone tail domains are key regulatory elements in chromatin. The tails are essential for folding oligonucleosomal arrays into both secondary and tertiary structures, and post-translational modifications within these domains can directly alter DNA accessibility. Unfortunately, there is little understanding of the structures and interactions of the core histone tail domains or how post-translational modifications within the tails may alter these interactions. Here we review NMR, thermal denaturation, cross-linking, and other selected solution methods used to define the general structures and binding behavior of the tail domains in various chromatin environments. All of these methods indicate that the tail domains bind primarily electrostatically to sites within chromatin. The data also indicate that the tails adopt specific structures when bound to DNA and that tail structures and interactions are plastic, depending on the specific chromatin environment. In addition, post-translational modifications, such as acetylation, can directly alter histone tail structures and interactions. [ABSTRACT FROM AUTHOR]

Published
2006
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23. Conserved organization of an avian histone gene cluster with inverted duplications of H3 and H4 genes.

Author

Tönjes, R., Munk, K., and Doenecke, D.

Abstract

The organization of histone gene clusters of the duck Cairina moschata was studied in the DNA inserts of two recombinant phage that overlap and feature identical histone gene arrangements but differ in sequence details and in the extent of repetition of an AT-rich motif in one of the nontranscribed spacer regions. These few but substantial differences between otherwise nearly identical histone gene groups suggest that we have independently isolated alleles of the same site of the duck genome or that this gene arrangement occurs (with slight variations) more than once per haploid genome. Within the histone gene cluster described, H3 and H4 genes are duplicated (with inverted orientation), whereas one H1 gene is flanked by single H2A and H2B genes. The arrangement of duck histone genes described here is identical to a subsection of the chicken genome but differs from any other published histone gene cluster. [ABSTRACT FROM AUTHOR]

Published
1989
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24. Developmental regulation of N-terminal H2B methylation in Drosophila melanogaster

Author

Elisabeth Kremmer, Ignasi Forné, Ana Villar-Garea, Axel Imhof, Andreas W. Thomae, and Irene Vetter

Subjects
Histone-modifying enzymes, Protein-Arginine N-Methyltransferases, Proline, EZH2, DOWN MASS-SPECTROMETRY, HISTONE MODIFICATIONS, POSTTRANSLATIONAL MODIFICATIONS, HEAT-SHOCK, H3K4 TRIMETHYLATION, ARGININE RESIDUES, DYNAMIC CHANGES, CORE HISTONES, HUMAN GENOME, CHROMATIN, Methylation, Biology, Gene Regulation, Chromatin and Epigenetics, Histones, Drosophila melanogaster, Biochemistry, Histone methyltransferase, DNA methylation, Histone methylation, Genetics, Histone code, Animals, Drosophila Proteins, Protein Methyltransferases, Protein Processing, Post-Translational, Cells, Cultured, Epigenomics
Abstract

Histone post-translational modifications play an important role in regulating chromatin structure and gene expression in vivo. Extensive studies investigated the post-translational modifications of the core histones H3 and H4 or the linker histone H1. Much less is known on the regulation of H2A and H2B modifications. Here, we show that a major modification of H2B in Drosophila melanogaster is the methylation of the N-terminal proline, which increases during fly development. Experiments performed in cultured cells revealed higher levels of H2B methylation when cells are dense, regardless of their cell cycle distribution. We identified dNTMT (CG1675) as the enzyme responsible for H2B methylation. We also found that the level of N-terminal methylation is regulated by dART8, an arginine methyltransferase that physically interacts with dNTMT and asymmetrically methylates H3R2. Our results demonstrate the existence of a complex containing two methyltransferases enzymes, which negatively influence each other's activity.

Published
2011

25. Epigenetics in C. elegans: Facts and challenges

Author

Monika Jedrusik-Bode, Francesca Palladino, Dirk Wenzel, Ganivet, Agnès, Electron Microscopy Group, Max-Planck-Institut, Laboratoire de Biologie Moléculaire de la Cellule (LBMC), École normale supérieure de Lyon (ENS de Lyon)-Université Claude Bernard Lyon 1 (UCBL), and Université de Lyon-Université de Lyon-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)

Subjects
Epigenomics, Epigenetic regulation of neurogenesis, Epigenetic code, Computational biology, Methylation, Models, Biological, PcG, Histones, Endocrinology, Epigenetics of physical exercise, post-translational modifications, [SDV.BBM] Life Sciences [q-bio]/Biochemistry, Molecular Biology, Genetics, Animals, Histone code, [SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology, trithorax, Epigenetics, Caenorhabditis elegans, Caenorhabditis elegans Proteins, biology, Oxidoreductases, N-Demethylating, Cell Biology, core histones, Hox, Chromatin, Histone, biology.protein, chromatin
Abstract

Epigenetics is defined as the study of heritable changes in gene expression that are not accompanied by changes in the DNA sequence. Epigenetic mechanisms include histone post-translational modifications, histone variant incorporation, non-coding RNAs, and nucleosome remodeling and exchange. In addition, the functional compartmentalization of the nucleus also contributes to epigenetic regulation of gene expression. Studies on the molecular mechanisms underlying epigenetic phenomena and their biological function have relied on various model systems, including yeast, plants, flies, and cultured mammalian cells. Here we will expose the reader to the current understanding of epigenetic regulation in the roundworm C. elegans. We will review recent models of nuclear organization and its impact on gene expression, the biological role of enzymes modifying core histones, and the function of chromatin-associated factors, with special emphasis on Polycomb (PcG) and Trithorax (Trx-G) group proteins. We will discuss how the C. elegans model has provided novel insight into mechanisms of epigenetic regulation as well as suggest directions for future research.

Published
2011

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