| scholarly article | Q13442814 |
| P356 | DOI | 10.1083/JCB.201207172 |
| P953 | full work available online at | http://jcb.rupress.org/content/jcb/201/3/409.full.pdf |
| https://europepmc.org/articles/PMC3639387 | ||
| https://europepmc.org/articles/PMC3639387?pdf=render | ||
| https://rupress.org/jcb/article-pdf/201/3/409/1579427/jcb_201207172.pdf | ||
| P932 | PMC publication ID | 3639387 |
| P698 | PubMed publication ID | 23629965 |
| P5875 | ResearchGate publication ID | 236581482 |
| P50 | author | Yufang Shi | Q85375494 |
| An Zeng | Q98944700 | ||
| P2093 | author name string | Chen Wang | |
| Ge Li | |||
| Gary Brewer | |||
| Qing Jing | |||
| Yong-Wen Qin | |||
| Xiao-Shuai Han | |||
| Jian-Yong Wang | |||
| Yong-Qin Li | |||
| Dang-Sheng Li | |||
| P2860 | cites work | Interaction with members of the heterochromatin protein 1 (HP1) family and histone deacetylation are differentially involved in transcriptional silencing by members of the TIF1 family | Q24529929 |
| Mutation in a heterochromatin-specific chromosomal protein is associated with suppression of position-effect variegation in Drosophila melanogaster | Q24556518 | ||
| Genome-wide maps of chromatin state in pluripotent and lineage-committed cells | Q24632506 | ||
| HP1 modulates the transcription of cell-cycle regulators in Drosophila melanogaster | Q24805861 | ||
| Genome-wide analyses reveal a role for peptide hormones in planarian germline development | Q27323116 | ||
| Methylation of histone H3 lysine 9 creates a binding site for HP1 proteins | Q27860456 | ||
| Selective recognition of methylated lysine 9 on histone H3 by the HP1 chromo domain | Q27860477 | ||
| A bivalent chromatin structure marks key developmental genes in embryonic stem cells | Q27860977 | ||
| Stem Cells | Q28111899 | ||
| Stem cells: units of development, units of regeneration, and units in evolution | Q28143314 | ||
| FACT, a Factor that Facilitates Transcript Elongation through Nucleosomes | Q28263754 | ||
| Fundamentals of planarian regeneration | Q28286957 | ||
| CAF-1 is essential for heterochromatin organization in pluripotent embryonic cells | Q28469066 | ||
| The NuRD component Mbd3 is required for pluripotency of embryonic stem cells | Q28512976 | ||
| Java Treeview--extensible visualization of microarray data | Q29547226 | ||
| Chromatin signatures of pluripotent cell lines | Q29614675 | ||
| Heterochromatin revisited | Q29614716 | ||
| Does heterochromatin protein 1 always follow code? | Q30452367 | ||
| Cell death and tissue remodeling in planarian regeneration | Q30493560 | ||
| An MCM2-related gene is expressed in proliferating cells of intact and regenerating planarians | Q30887114 | ||
| The HP1 protein family: getting a grip on chromatin | Q33885013 | ||
| Coexistence of quiescent and active adult stem cells in mammals | Q33926891 | ||
| Histone deacetylase 1 (HDAC1), but not HDAC2, controls embryonic stem cell differentiation | Q33929178 | ||
| Chromatin immunoprecipitation and microarray-based analysis of protein location | Q34003310 | ||
| Not your father's planarian: a classic model enters the era of functional genomics. | Q34125141 | ||
| A functional genomic screen in planarians identifies novel regulators of germ cell development | Q34127490 | ||
| Heterochromatin protein 1 (HP1) connects the FACT histone chaperone complex to the phosphorylated CTD of RNA polymerase II. | Q34164889 | ||
| Clonogenic Neoblasts Are Pluripotent Adult Stem Cells That Underlie Planarian Regeneration | Q34184695 | ||
| Depletion of minichromosome maintenance protein 5 in the zebrafish retina causes cell-cycle defect and apoptosis. | Q34234552 | ||
| The planarian Schmidtea mediterranea as a model for epigenetic germ cell specification: analysis of ESTs from the hermaphroditic strain | Q34234893 | ||
| Planarian regeneration: its end is its beginning | Q34564498 | ||
| Ingestion of bacterially expressed double-stranded RNA inhibits gene expression in planarians. | Q34582287 | ||
| Histone tails regulate DNA methylation by allosterically activating de novo methyltransferase. | Q35348766 | ||
| Regeneration and gene regulation in planarians. | Q35555977 | ||
| Expression of FACT in mammalian tissues suggests its role in maintaining of undifferentiated state of cells | Q35640168 | ||
| HP1 and the dynamics of heterochromatin maintenance | Q35741016 | ||
| nanos function is essential for development and regeneration of planarian germ cells. | Q35749561 | ||
| Deciphering the molecular machinery of stem cells: a look at the neoblast gene expression profile | Q35850349 | ||
| A molecular wound response program associated with regeneration initiation in planarians | Q35945087 | ||
| Heterochromatin--many flavours, common themes | Q35990467 | ||
| TORC1 is required to balance cell proliferation and cell death in planarians | Q36007365 | ||
| Gene expression of pluripotency determinants is conserved between mammalian and planarian stem cells. | Q36049563 | ||
| Heterochromatin protein 1 (HP1) is associated with induced gene expression in Drosophila euchromatin. | Q36381425 | ||
| SmedGD: the Schmidtea mediterranea genome database | Q36454142 | ||
| Chromatin connections to pluripotency and cellular reprogramming | Q36874359 | ||
| HP1: a functionally multifaceted protein | Q37105908 | ||
| An embryonic stem cell chromatin remodeling complex, esBAF, is essential for embryonic stem cell self-renewal and pluripotency | Q37125184 | ||
| Chromatin signatures in multipotent human hematopoietic stem cells indicate the fate of bivalent genes during differentiation | Q37449132 | ||
| Open chromatin in pluripotency and reprogramming | Q37477736 | ||
| Association of the transcriptional corepressor TIF1beta with heterochromatin protein 1 (HP1): an essential role for progression through differentiation | Q37495466 | ||
| Multiple roles for heterochromatin protein 1 genes in Drosophila. | Q37634103 | ||
| Regenerating the epigenome | Q37839710 | ||
| DjPum, a homologue of Drosophila Pumilio, is essential to planarian stem cell maintenance | Q38329325 | ||
| Transcription regulation through promoter-proximal pausing of RNA polymerase II. | Q39442921 | ||
| The Mi-2-like Smed-CHD4 gene is required for stem cell differentiation in the planarian Schmidtea mediterranea | Q39849555 | ||
| HP1alpha guides neuronal fate by timing E2F-targeted genes silencing during terminal differentiation | Q41788768 | ||
| A comparative transcriptomic analysis reveals conserved features of stem cell pluripotency in planarians and mammals | Q41829171 | ||
| Identification of genes needed for regeneration, stem cell function, and tissue homeostasis by systematic gene perturbation in planaria | Q41868332 | ||
| Genetic Regulators of a Pluripotent Adult Stem Cell System in Planarians Identified by RNAi and Clonal Analysis | Q41896125 | ||
| Molecular analysis of stem cells and their descendants during cell turnover and regeneration in the planarian Schmidtea mediterranea | Q41922401 | ||
| Formaldehyde-based whole-mount in situ hybridization method for planarians | Q41947311 | ||
| Defining the molecular profile of planarian pluripotent stem cells using a combinatorial RNAseq, RNA interference and irradiation approach. | Q42113314 | ||
| An RNAi screen of chromatin proteins identifies Tip60-p400 as a regulator of embryonic stem cell identity. | Q42151370 | ||
| Planarian regeneration involves distinct stem cell responses to wounds and tissue absence | Q42413468 | ||
| Argonaute-2 regulates the proliferation of adult stem cells in planarian | Q43180281 | ||
| TOR Signaling Regulates Planarian Stem Cells and Controls Localized and Organismal Growth | Q43984732 | ||
| A Bruno-like gene is required for stem cell maintenance in planarians | Q48085602 | ||
| SMEDWI-2 is a PIWI-like protein that regulates planarian stem cells | Q48111456 | ||
| Gene nomenclature guidelines for the planarian Schmidtea mediterranea | Q48681924 | ||
| Different requirements for conserved post-transcriptional regulators in planarian regeneration and stem cell maintenance | Q51912877 | ||
| Planarian homologs of netrin and netrin receptor are required for proper regeneration of the central nervous system and the maintenance of nervous system architecture | Q52043748 | ||
| An RbAp48-like gene regulates adult stem cells in planarians | Q54443583 | ||
| Bromodeoxyuridine Specifically Labels the Regenerative Stem Cells of Planarians | Q58632945 | ||
| Isolation of planarian X-ray-sensitive stem cells by fluorescence-activated cell sorting | Q61447956 | ||
| Regeneration and pattern formation in planarians. I. The pattern of mitosis in anterior and posterior regeneration in Dugesia (G) tigrina, and a new proposal for blastema formation | Q70677689 | ||
| Variant-specific patterns and humoral regulation of HP1 proteins in human cells and tissues | Q81250388 | ||
| P4510 | describes a project that uses | ImageJ | Q1659584 |
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P1104 | number of pages | 17 | |
| P304 | page(s) | 409-425 | |
| P577 | publication date | 2013-04-01 | |
| 2013-04-29 | |||
| P1433 | published in | Journal of Cell Biology | Q1524550 |
| P1476 | title | Heterochromatin protein 1 promotes self-renewal and triggers regenerative proliferation in adult stem cells | |
| P478 | volume | 201 |
| Q28273583 | A DNA binding winged helix domain in CAF-1 functions with PCNA to stabilize CAF-1 at replication forks |
| Q35960998 | De Novo Transcriptome Analysis Provides Insights into Immune Related Genes and the RIG-I-Like Receptor Signaling Pathway in the Freshwater Planarian (Dugesia japonica) |
| Q39425906 | Emerging roles of the histone chaperone CAF-1 in cellular plasticity |
| Q26774948 | Epigenetics and Shared Molecular Processes in the Regeneration of Complex Structures |
| Q37144523 | Forkhead containing transcription factor Albino controls tetrapyrrole-based body pigmentation in planarian |
| Q37347972 | Genome-Wide Analysis of Polyadenylation Events in Schmidtea mediterranea |
| Q30666181 | Heterochromatin Protein 1β (HP1β) has distinct functions and distinct nuclear distribution in pluripotent versus differentiated cells |
| Q36340201 | Heterochromatin components in germline stem cell maintenance |
| Q64100245 | Heterochromatin protein 1 (HP1) is intrinsically required for post-transcriptional regulation of Drosophila Germline Stem Cell (GSC) maintenance |
| Q34442272 | Histone chaperone CAF-1: essential roles in multi-cellular organism development |
| Q38870951 | In silico lineage tracing through single cell transcriptomics identifies a neural stem cell population in planarians |
| Q88107247 | Neoblast-enriched zinc finger protein FIR1 triggers local proliferation during planarian regeneration |
| Q26823327 | Piwi and potency: PIWI proteins in animal stem cells and regeneration |
| Q42132465 | Planarian MBD2/3 is required for adult stem cell pluripotency independently of DNA methylation |
| Q90182275 | Planarians recruit piRNAs for mRNA turnover in adult stem cells |
| Q35151921 | Rat hepatocytes weighted gene co-expression network analysis identifies specific modules and hub genes related to liver regeneration after partial hepatectomy |
| Q37700551 | Selective amputation of the pharynx identifies a FoxA-dependent regeneration program in planaria. |
| Q47156169 | Small RNAome sequencing delineates the small RNA landscape of pluripotent adult stem cells in the planarian Schmidtea mediterranea. |
| Q36139657 | SmedOB1 is Required for Planarian Homeostasis and Regeneration |
| Q37232308 | The NuRD complex component p66 suppresses photoreceptor neuron regeneration in planarians |
| Q34864525 | The expanding epigenetic landscape of non-model organisms |
Search more.