| scholarly article | Q13442814 |
| P50 | author | Jörg Galle | Q112288668 |
| P2093 | author name string | Lydia Steiner | |
| Hans Binder | |||
| Sonja Prohaska | |||
| Thimo Rohlf | |||
| Jens Przybilla | |||
| P2860 | cites work | Crystal structure of the nucleosome core particle at 2.8 A resolution | Q22122355 |
| Epigenetic differences arise during the lifetime of monozygotic twins | Q24531005 | ||
| Genome-wide maps of chromatin state in pluripotent and lineage-committed cells | Q24632506 | ||
| DNMT3L connects unmethylated lysine 4 of histone H3 to de novo methylation of DNA | Q24645346 | ||
| Combinatorial patterns of histone acetylations and methylations in the human genome | Q24647290 | ||
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| Histone function in transcription | Q27931853 | ||
| Tetrahymena histone acetyltransferase A: a homolog to yeast Gcn5p linking histone acetylation to gene activation | Q27937778 | ||
| Defining an epigenetic code | Q28281451 | ||
| Histone acetylation and transcriptional regulatory mechanisms | Q29547707 | ||
| ChIP-seq: advantages and challenges of a maturing technology | Q29615336 | ||
| The mammalian epigenome | Q29615763 | ||
| Stability and flexibility of epigenetic gene regulation in mammalian development | Q29615922 | ||
| Agent-based modeling of multicell morphogenic processes during development | Q30445501 | ||
| Progressive methylation of ageing histones by Dot1 functions as a timer. | Q38296266 | ||
| From single cells to tissue architecture-a bottom-up approach to modelling the spatio-temporal organisation of complex multi-cellular systems | Q39995404 | ||
| Long-range chromosomal interactions regulate the timing of the transition between poised and active gene expression | Q40155274 | ||
| A three-dimensional model of the yeast genome | Q40674029 | ||
| Inheritance of epigenetic chromatin silencing | Q41981789 | ||
| Locus dependence in epigenetic chromatin silencing | Q42068901 | ||
| Implications of a life-long dynamic epigenome | Q42723365 | ||
| Theoretical framework for the histone modification network: modifications in the unstructured histone tails form a robust scale-free network | Q44131897 | ||
| Innovation in gene regulation: the case of chromatin computation | Q47401136 | ||
| Dynamics, stability and inheritance of somatic DNA methylation imprints. | Q51938790 | ||
| DNA looping and physical constraints on transcription regulation. | Q52010688 | ||
| Theory for the stability and regulation of epigenetic landscapes. | Q53320217 | ||
| Dynamics of Replication-Independent Histone Turnover in Budding Yeast | Q57233862 | ||
| Cell Specificity of Histones | Q59048150 | ||
| Human aging-associated DNA hypermethylation occurs preferentially at bivalent chromatin domains | Q33762426 | ||
| Age-dependent DNA methylation of genes that are suppressed in stem cells is a hallmark of cancer. | Q33762434 | ||
| Computational micromodel for epigenetic mechanisms | Q33770252 | ||
| Ordered nucleation and spreading of silenced chromatin in Saccharomyces cerevisiae. | Q33893339 | ||
| Age-related changes in Arc transcription and DNA methylation within the hippocampus. | Q33925933 | ||
| A population-epigenetic model to infer site-specific methylation rates from double-stranded DNA methylation patterns | Q33936951 | ||
| A structural perspective on the where, how, why, and what of nucleosome positioning | Q34104251 | ||
| Controlling the double helix | Q34172152 | ||
| A Polycomb-based switch underlying quantitative epigenetic memory | Q34203201 | ||
| Split decision: what happens to nucleosomes during DNA replication? | Q34387073 | ||
| Theoretical analysis of epigenetic cell memory by nucleosome modification. | Q34629739 | ||
| Structural Modifications of Histones and their Possible Role in the Regulation of RNA Synthesis | Q34684282 | ||
| Epigenetic chromatin silencing: bistability and front propagation | Q34712052 | ||
| Computational epigenetics | Q34715061 | ||
| Epigenetics and cardiovascular disease | Q34788746 | ||
| Manifestations and mechanisms of stem cell aging. | Q34825281 | ||
| Epigenetic inheritance during the cell cycle | Q34950028 | ||
| Role of histone tails in chromatin folding revealed by a mesoscopic oligonucleosome model | Q35133750 | ||
| Transcription factories in the context of the nuclear and genome organization | Q35620914 | ||
| Does looping and clustering in the nucleus regulate gene expression? | Q35774176 | ||
| Epigenetic silencing mechanisms in budding yeast and fruit fly: different paths, same destinations | Q36127534 | ||
| Individual cell-based models of the spatial-temporal organization of multicellular systems--achievements and limitations. | Q36523050 | ||
| Beyond the sequence: cellular organization of genome function | Q36744492 | ||
| Cross-regulation of histone modifications | Q36994157 | ||
| CpG islands influence chromatin structure via the CpG-binding protein Cfp1. | Q37061200 | ||
| Modelling and analysis of gene regulatory networks | Q37271452 | ||
| Chromatin insulators: regulatory mechanisms and epigenetic inheritance | Q37292727 | ||
| Chromatin domains in higher eukaryotes: insights from genome-wide mapping studies | Q37293276 | ||
| Chromatin signatures in multipotent human hematopoietic stem cells indicate the fate of bivalent genes during differentiation | Q37449132 | ||
| What controls nucleosome positions? | Q37549548 | ||
| Do chromatin loops provide epigenetic gene expression states? | Q37769635 | ||
| Molecular coupling of DNA methylation and histone methylation | Q37845655 | ||
| Cancer epigenetics reaches mainstream oncology | Q37851012 | ||
| Epigenetic regulation of aging stem cells | Q37858414 | ||
| Timescales of human adaptation: the role of epigenetic processes | Q37961862 | ||
| P433 | issue | 2 | |
| P921 | main subject | self-organization | Q609408 |
| P304 | page(s) | 205-219 | |
| P577 | publication date | 2012-04-01 | |
| P1433 | published in | Epigenomics | Q20737165 |
| P1476 | title | Modeling the dynamic epigenome: from histone modifications towards self-organizing chromatin | |
| P478 | volume | 4 |
| Q34450425 | A global genome segmentation method for exploration of epigenetic patterns |
| Q35533119 | Breaking an epigenetic chromatin switch: curious features of hysteresis in Saccharomyces cerevisiae telomeric silencing |
| Q34976950 | Chromatin sampling--an emerging perspective on targeting polycomb repressor proteins |
| Q92712220 | Epigenetic Ratchet: Spontaneous Adaptation via Stochastic Gene Expression |
| Q38667118 | Epigenetic Regulation |
| Q34716935 | Epigenetic feedback regulation accelerates adaptation and evolution |
| Q38985933 | Epigenetic regulation of hepatic stellate cell activation and liver fibrosis |
| Q38036575 | Epigenetics meets mathematics: towards a quantitative understanding of chromatin biology |
| Q90132281 | Monitoring of switches in heterochromatin-induced silencing shows incomplete establishment and developmental instabilities |
| Q33565167 | Transcriptional Gene Silencing (TGS) via the RNAi Machinery in HIV-1 Infections |
| Q29300664 | Two ways to fold the genome during the cell cycle: insights obtained with chromosome conformation capture |
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