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2. Regulation of connexin gene expression during skeletal muscle regeneration in the adult rat

3. Deficiency in mTORC1-controlled C/EBPβ-mRNA translation improves metabolic health in mice

5. Phosphorylation and Alternative Splicing of MEF2C, a Dual Switch Function in Muscle Regeneration

7. Classical and alternative NF-?B signaling cooperate in regulating adipocyte differentiation and function

8. Regulation of connexin gene expression during skeletal muscle regeneration in the adult rat

9. Longevity biotechnology: bridging AI, biomarkers, geroscience and clinical applications for healthy longevity.

10. We need to talk-how muscle stem cells communicate.

11. Denervation alters the secretome of myofibers and thereby affects muscle stem cell lineage progression and functionality.

12. Consequences of GMPPB deficiency for neuromuscular development and maintenance.

13. A dysfunctional miR-1-TRPS1-MYOG axis drives ERMS by suppressing terminal myogenic differentiation.

14. The hairpin region of WNT7A is sufficient for binding to the Frizzled7 receptor and to elicit signaling in myogenic cells.

15. Stimulation of Non-canonical NF-κB Through Lymphotoxin-β-Receptor Impairs Myogenic Differentiation and Regeneration of Skeletal Muscle.

16. Extensive remodeling of the extracellular matrix during aging contributes to age-dependent impairments of muscle stem cell functionality.

17. GMPPA defects cause a neuromuscular disorder with α-dystroglycan hyperglycosylation.

18. Single Myofiber Culture Assay for the Assessment of Adult Muscle Stem Cell Functionality Ex Vivo.

19. Nicotinamide for the treatment of heart failure with preserved ejection fraction.

20. Regulation of muscle stem cell function.

21. Isolation and ex vivo cultivation of single myofibers from porcine muscle.

22. S1P lyase inhibition protects against sepsis by promoting disease tolerance via the S1P/S1PR3 axis.

23. DNA Methyltransferase 1 (DNMT1) Function Is Implicated in the Age-Related Loss of Cortical Interneurons.

24. Skeletal muscle aging - Stem cells in the spotlight.

25. Wnt7a Counteracts Cancer Cachexia.

26. Analyzing Satellite Cell Function During Skeletal Muscle Regeneration by Cardiotoxin Injury and Injection of Self-delivering siRNA In Vivo.

28. Adult stem cells at work: regenerating skeletal muscle.

29. Isolation and Culture of Individual Myofibers and Their Adjacent Muscle Stem Cells from Aged and Adult Skeletal Muscle.

30. Klotho expression is a prerequisite for proper muscle stem cell function and regeneration of skeletal muscle.

31. Thyroid Hormone Transporters MCT8 and OATP1C1 Control Skeletal Muscle Regeneration.

32. Reduced expression of C/EBPβ-LIP extends health and lifespan in mice.

33. Epigenetic stress responses induce muscle stem-cell ageing by Hoxa9 developmental signals.

34. Wnt/β-catenin signaling via Axin2 is required for myogenesis and, together with YAP/Taz and Tead1, active in IIa/IIx muscle fibers.

35. Loss of fibronectin from the aged stem cell niche affects the regenerative capacity of skeletal muscle in mice.

36. Neuron-Specific Deletion of the Nf2 Tumor Suppressor Impairs Functional Nerve Regeneration.

37. Dystrophin expression in muscle stem cells regulates their polarity and asymmetric division.

39. Inhibition of JAK-STAT signaling stimulates adult satellite cell function.

40. Wnt7a stimulates myogenic stem cell motility and engraftment resulting in improved muscle strength.

41. Pax7 is critical for the normal function of satellite cells in adult skeletal muscle.

43. The emerging biology of muscle stem cells: implications for cell-based therapies.

44. Fibronectin regulates Wnt7a signaling and satellite cell expansion.

45. A truncated Wnt7a retains full biological activity in skeletal muscle.

46. Wnt7a treatment ameliorates muscular dystrophy.

47. Wnt signaling in myogenesis.

48. MyoD-dependent regulation of NF-κB activity couples cell-cycle withdrawal to myogenic differentiation.

49. Connexin45 is expressed in vascular smooth muscle but its function remains elusive.

50. Wnt7a-Fzd7 signalling directly activates the Akt/mTOR anabolic growth pathway in skeletal muscle.

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