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1. The rRNA epitranscriptome and myonuclear SNORD landscape in skeletal muscle fibers contributes to ribosome heterogeneity and is altered by a hypertrophic stimulus.

2. Skeletal muscle hypertrophy: cell growth is cell growth.

3. Inhibition of p53-MDM2 binding reduces senescent cell abundance and improves the adaptive responses of skeletal muscle from aged mice.

5. Division-Independent Differentiation of Muscle Stem Cells During a Growth Stimulus.

6. Neuromuscular Dysfunction Precedes Cognitive Impairment in a Mouse Model of Alzheimer's Disease.

7. Coordinated Regulation of Myonuclear DNA Methylation, mRNA, and miRNA Levels Associates With the Metabolic Response to Rapid Synergist Ablation-Induced Skeletal Muscle Hypertrophy in Female Mice.

8. A muscle exercise research revolution powered by -omics at single cell and nucleus resolution.

9. Biological sex divergence in transcriptomic profiles during the onset of hindlimb unloading-induced atrophy.

10. The life and times of cellular senescence in skeletal muscle: friend or foe for homeostasis and adaptation?

11. MicroRNA control of the myogenic cell transcriptome and proteome: the role of miR-16.

12. Going nuclear: Molecular adaptations to exercise mediated by myonuclei.

13. The myonuclear domain in adult skeletal muscle fibres: past, present and future.

14. A molecular signature defining exercise adaptation with ageing and in vivo partial reprogramming in skeletal muscle.

15. Depressed Protein Synthesis and Anabolic Signaling Potentiate ACL Tear–Resultant Quadriceps Atrophy.

16. A glitch in the matrix: the pivotal role for extracellular matrix remodeling during muscle hypertrophy.

17. Senolytic treatment rescues blunted muscle hypertrophy in old mice.

18. Muscle-Specific Cellular and Molecular Adaptations to Late-Life Voluntary Concurrent Exercise.

19. Exercise Counteracts the Deleterious Effects of Cancer Cachexia.

21. Epigenetic evidence for distinct contributions of resident and acquired myonuclei during long-term exercise adaptation using timed in vivo myonuclear labeling.

22. Deletion of SA β‐Gal+ cells using senolytics improves muscle regeneration in old mice.

23. Late‐life exercise mitigates skeletal muscle epigenetic aging.

24. Nucleus Type-Specific DNA Methylomics Reveals Epigenetic "Memory" of Prior Adaptation in Skeletal Muscle.

25. Reduced mitochondrial DNA and OXPHOS protein content in skeletal muscle of children with cerebral palsy.

26. Genetic and epigenetic regulation of skeletal muscle ribosome biogenesis with exercise.

27. Muscle memory: myonuclear accretion, maintenance, morphology, and miRNA levels with training and detraining in adult mice.

28. The myonuclear DNA methylome in response to an acute hypertrophic stimulus.

29. Making Mice Mighty: recent advances in translational models of load-induced muscle hypertrophy.

30. Depletion of resident muscle stem cells negatively impacts running volume, physical function, and muscle fiber hypertrophy in response to lifelong physical activity.

31. Fusion-Independent Satellite Cell Communication to Muscle Fibers During Load-Induced Hypertrophy.

32. Fiber typing human skeletal muscle with fluorescent immunohistochemistry.

33. MicroRNAs, heart failure, and aging: potential interactions with skeletal muscle.

34. Resident muscle stem cells are not required for testosterone-induced skeletal muscle hypertrophy.

35. Elevated myonuclear density during skeletal muscle hypertrophy in response to training is reversed during detraining.

37. "Muscle memory" not mediated by myonuclear number? Secondary analysis of human detraining data.

39. Myonuclear Domain Flexibility Challenges Rigid Assumptions on Satellite Cell Contribution to Skeletal Muscle Fiber Hypertrophy.

40. Commentaries on Viewpoint: Resistance training and exercise tolerance during high-intensity exercise: moving beyond just running economy and muscle strength.

41. MyoVision: software for automated high-content analysis of skeletal muscle immunohistochemistry.

42. Starring or Supporting Role? Satellite Cells and Skeletal Muscle Fiber Size Regulation.

43. Depletion of Pax7+ satellite cells does not affect diaphragm adaptations to running in young or aged mice.

44. Differential requirement for satellite cells during overload-induced muscle hypertrophy in growing versus mature mice.

45. Improved single muscle fiber quality in the oldest-old.

46. Cycle training modulates satellite cell and transcriptional responses to a bout of resistance exercise.

47. Skeletal Muscle Hypertrophy with Concurrent Exercise Training: Contrary Evidence for an Interference Effect.

48. Improving human skeletal muscle myosin heavy chain fiber typing efficiency.

50. Skeletal muscle architectural adaptations to marathon run training.

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