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1. The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

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5. Additional file 5 of The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

6. Additional file 15 of The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

7. Additional file 3 of The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

8. Additional file 7 of The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

9. Additional file 2 of The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

10. Additional file 8 of The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

11. Additional file 9 of The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

12. Additional file 6 of The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

13. Additional file 4 of The double homeodomain protein DUX4c is associated with regenerating muscle fibers and RNA-binding proteins

16. The Krüppel-like Factor 15 as a Molecular Link between Myogenic Factors and a Chromosome 4q Transcriptional Enhancer Implicated in Facioscapulohumeral Dystrophy

18. The DUX4 gene at the FSHD1A locus encodes a pro-apoptotic protein

20. Additional file 8: Figure S8. of Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

21. Additional file 9: Table S1. of Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

22. Additional file 4: Figure S4. of Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

23. Additional file 11: Figure S10. of Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

24. Additional file 5: Figure S5. of Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

25. Additional file 6: Figure S6. of Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

26. Additional file 3: Figure S3. of Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

27. Additional file 7: Figure S7. of Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

28. Additional file 2: Figure S2. of Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

29. Bioactive Aliphatic Polycarbonates Carrying Guanidinium Functions: An Innovative Approach for Myotonic Dystrophy Type 1 Therapy

31. Overexpression of the double homeodomain protein DUX4c interferes with myofibrillogenesis and induces clustering of myonuclei

33. Homologous transcription factors DUX4 and DUX4c associate with cytoplasmic proteins during muscle differentiation

34. Homologous Transcription Factors DUX4 and DUX4c Associate with Cytoplasmic Proteins during Muscle Differentiation

35. The Role of D4Z4-Encoded Proteins in the Osteogenic Differentiation of Mesenchymal Stromal Cells Isolated from Bone Marrow.

36. Affinity capillary electrophoresis for identification of active drug candidates in myotonic dystrophy type 1.

37. The Role of D4Z4-Encoded Proteins in the Osteogenic Differentiation of Mesenchymal Stromal Cells Isolated from Bone Marrow

38. Aberrant Splicing in Transgenes Containing Introns, Exons, and V5 Epitopes: Lessons from Developing an FSHD Mouse Model Expressing a D4Z4 Repeat with Flanking Genomic Sequences

40. DUX4c is up-regulated in FSHD. It induces the MYF5 protein and human myoblast proliferation.

43. DUX4c Is Up-Regulated in FSHD. It Induces the MYF5 Protein and Human Myoblast Proliferation