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- Similarities of Retinoblastoma Function Between Plants and Animals, from Developmental Processes to Epigenetic Regulation
- Circadian Regulation of Hepatic Metabolism by Nuclear Receptors Rev-Erb and Ror
- Retinoic Acid Receptors and Muscle B-HLH Proteins: Partners in Retinoid-Induced Myogenesis
- 1 During Myogenic Differentiation C2C12 Myoblasts in Mouse
- REVIEW Androgen Regulation of Satellite Cell Function
- Opposing Functions of ATF2 and Fos-Like Transcription Factors in C-Jun-Mediated Myogenin Expression and Terminal DiErentiation of Avian Myoblasts
- A Specific and Unusual Nuclear Localization Signal in the DNA
- Characterization of Myod and Myf5 Double-Knockout Muscle Stem Cells During Muscle Development" (2017)
- Myod Transcription Factor Induces Myogenesis by Inhibiting Twist-1 Through Mir-206 Demetris Koutalianos1, Andrie Koutsoulidou1, Nikilaos P
- Helix–Loop–Helix Proteins and the Advent of Cellular Diversity: 30 Years of Discovery
- Retinoblastoma Tumor Suppressor Protein Roles in Epigenetic Regulation
- Hypoxia and Hypoxia-Inducible Factor Signaling in Muscular Dystrophies: Cause and Consequences
- P53 Family Members in Myogenic Differentiation and Rhabdomyosarcoma Development
- The RB-Related Gene Rb2/P130 in Neuroblastoma Dierentiation and In
- Myod Is Required for Myogenic Stem Cell Function in Adult Skeletal Muscle
- MYOD1 Functions As a Clock Amplifier As Well As a Critical Co-Factor For
- P53 Protein Is Activated During Muscle Di€Erentiation and Participates With
- Muscle Bmal1 Is Dispensable for the Progress of Neurogenic Muscle Atrophy in Mice Reiko Nakao*, Shigeki Shimba† and Katsutaka Oishi*,‡,§
- Deltex2 Represses Myod Expression and Inhibits Myogenic
- Dissecting Dual Roles of Myod During Lineage Conversion to Mature Myocytes and Myogenic Stem Cells
- Myf6/MRF4 Is a Myogenic Niche Regulator Required for the Maintenance of the Muscle Stem Cell Pool
- Two Domains of Myod Mediate Transcriptional Activation of Genes in Repressive Chromatin: a Mechanism for Lineage Determination in Myogenesis
- Suppression of Testosterone Does Not Blunt Mrna Expression of Myod, Myogenin, IGF, Myostatin Or Androgen Receptor Post Strength Training in Humans
- Fos and Jun Repress Transcriptional Activation by Myoeenin and Myod: the Amino Terminus of Jun Can Mediate Repression
- The Retinoblastoma-Like Protein P130 Is Involved in the Determination Of
- Tristetraprolin Regulation of Myod Mrna Stability Commits Quiescent
- Role of the Retinoblastoma Protein Family, Prb, P107 and P130 in the Negative Control of Cell Growth
- P53 Represses and Protects
- Retinoblastoma Protein Positively Regulates Terminal Adipocyte Differentiation Through Direct Interaction with C/Ebps
- Androgen Receptor in Satellite Cells Is Not Essential for Muscle Regenerations
- Overexpression of Wild-Type Androgen Receptor in Muscle Recapitulates Polyglutamine Disease
- Androgen Receptor Expression During C2C12 Skeletal Muscle Cell Line
- The Role of P53 Family Members in Myogenic Differentiation and Rhabdomyosarcoma Development
- Dissection of Transcriptional Programs in Embryonic And
- Rev-Erbα Heterozygosity Produces a Dose-Dependent Phenotypic
- Tristetraprolin Regulation of Myod Mrna Stability Commits Quiescent Adult Muscle Stem Cells to Myogenesis
- HIF Modulation of Wnt Signaling Regulates Skeletal Myogenesis in Vivo Amar J
- Effect of Androgen Receptor Activation on Adipogenic and Myogenic Transcription Factor Expression in Mesenchymal Stem Cells
- Klf5 Regulates Muscle Differentiation by Directly Targeting Muscle-Specific
- Myoblasts Rely on Tap63 to Control Basal Mitochondria Respiration
- Hypoxic Repression of STAT1 and Its Downstream Genes by a Pvhl/HIF-1 Target DEC1/STRA13