| scholarly article | Q13442814 |
| P2093 | author name string | Keman Zhang | |
| Jingfeng Sha | |||
| Marian L Harter | |||
| P2860 | cites work | Cloning of human acetyl-CoA carboxylase beta promoter and its regulation by muscle regulatory factors | Q24290509 |
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| MyoD induces myogenic differentiation through cooperation of its NH2- and COOH-terminal regions. | Q36320492 | ||
| The p38alpha/beta MAPK functions as a molecular switch to activate the quiescent satellite cell | Q36321654 | ||
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| The transition from proliferation to differentiation is delayed in satellite cells from mice lacking MyoD. | Q37263556 | ||
| The myostatin gene is a downstream target gene of basic helix-loop-helix transcription factor MyoD. | Q39695601 | ||
| Human replication protein Cdc6 prevents mitosis through a checkpoint mechanism that implicates Chk1. | Q39698930 | ||
| Single-fiber isolation and maintenance of satellite cell quiescence | Q42485503 | ||
| A viral mechanism for remodeling chromatin structure in G0 cells | Q42798794 | ||
| Pbx marks genes for activation by MyoD indicating a role for a homeodomain protein in establishing myogenic potential | Q42828894 | ||
| p130/p107/p105Rb-dependent transcriptional repression during DNA-damage-induced cell-cycle exit at G2. | Q46435160 | ||
| Muscle satellite cell and atypical myogenic progenitor response following exercise. | Q50799072 | ||
| Culturing satellite cells from living single muscle fiber explants | Q70906074 | ||
| Cultured myf5 null and myoD null muscle precursor cells display distinct growth defects | Q73930524 | ||
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P1104 | number of pages | 10 | |
| P304 | page(s) | 39-48 | |
| P577 | publication date | 2010-01-04 | |
| P1433 | published in | Journal of Cell Biology | Q1524550 |
| P1476 | title | Activation of Cdc6 by MyoD is associated with the expansion of quiescent myogenic satellite cells | |
| P478 | volume | 188 |
| Q34465548 | A KAP1 phosphorylation switch controls MyoD function during skeletal muscle differentiation |
| Q36585420 | A role for RNA post-transcriptional regulation in satellite cell activation |
| Q34148763 | A transcriptional mechanism integrating inputs from extracellular signals to activate hippocampal stem cells |
| Q90538157 | Aging induces aberrant state transition kinetics in murine muscle stem cells |
| Q90255264 | An Overview about the Biology of Skeletal Muscle Satellite Cells |
| Q37612532 | Apoptosis in differentiating C2C12 muscle cells selectively targets Bcl-2-deficient myotubes |
| Q41844228 | CDC6 expression is regulated by lineage-specific transcription factor GATA1. |
| Q36697632 | Cell Differentiation and Checkpoint |
| Q57026394 | Cellular localization of the cell cycle inhibitor Cdkn1c controls growth arrest of adult skeletal muscle stem cells |
| Q29347275 | Comparative expression profiling identifies differential roles for Myogenin and p38α MAPK signaling in myogenesis |
| Q36804118 | Control of myogenesis by rodent SINE-containing lncRNAs |
| Q30582181 | Coordination of satellite cell activation and self-renewal by Par-complex-dependent asymmetric activation of p38α/β MAPK |
| Q37658416 | Cyclin D3 critically regulates the balance between self-renewal and differentiation in skeletal muscle stem cells |
| Q38818042 | DNA damage signaling mediates the functional antagonism between replicative senescence and terminal muscle differentiation |
| Q37299454 | DNA damage-activated ABL-MyoD signaling contributes to DNA repair in skeletal myoblasts. |
| Q27022808 | Differential modulation of cell cycle progression distinguishes members of the myogenic regulatory factor family of transcription factors |
| Q38182751 | Distinct contextual roles for Notch signalling in skeletal muscle stem cells |
| Q36216311 | GATA-binding protein 4 (GATA-4) and T-cell acute leukemia 1 (TAL1) regulate myogenic differentiation and erythropoietin response via cross-talk with Sirtuin1 (Sirt1) |
| Q35693118 | Hesr1 and Hesr3 are essential to generate undifferentiated quiescent satellite cells and to maintain satellite cell numbers. |
| Q37734542 | HuR and miR-1192 regulate myogenesis by modulating the translation of HMGB1 mRNA |
| Q38610734 | Invited Review: Polycomb group genes in the regeneration of the healthy and pathological skeletal muscle |
| Q30356420 | Lipin1 Regulates Skeletal Muscle Differentiation through Extracellular Signal-regulated Kinase (ERK) Activation and Cyclin D Complex-regulated Cell Cycle Withdrawal. |
| Q30301152 | Long non-coding RNAs as emerging regulators of differentiation, development, and disease |
| Q30426550 | MicroRNA-378 targets the myogenic repressor MyoR during myoblast differentiation |
| Q36810964 | Mitophagy is required for mitochondrial biogenesis and myogenic differentiation of C2C12 myoblasts. |
| Q37033031 | Molecular circuitry of stem cell fate in skeletal muscle regeneration, ageing and disease |
| Q34081450 | Nup50 is required for cell differentiation and exhibits transcription-dependent dynamics |
| Q83227772 | Selective clearance of the inner nuclear membrane protein emerin by vesicular transport during ER stress |
| Q37351564 | Stage-specific effects of Notch activation during skeletal myogenesis. |
| Q35547307 | Stem cell activation in skeletal muscle regeneration. |
| Q39016676 | Thymosin beta-4 knockdown in IEC-6 normal intestinal epithelial cells induces DNA re-replication via downregulating Emi1. |
| Q47446603 | Tumor-derived cytokines impair myogenesis and alter the skeletal muscle immune microenvironment |
| Q90522240 | Visualization of long-lived proteins reveals age mosaicism within nuclei of postmitotic cells |
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