Skeletal muscle exhibits remarkable plasticity to adapt to stimuli such as mechanical
loading. The mechanisms that regulate skeletal muscle hypertrophy due to mechanical …

In this issue, Burke et al. discuss the utility of the rodent synergist ablation (SA) model for
examining mechanisms associated with skeletal muscle hypertrophy. In this invited …

Exercise is a potent stimulus for combatting skeletal muscle ageing. To study the effects of
exercise on muscle in a preclinical setting, we developed a combined endurance …

Roberts et al. have provided an insightful counterpoint to our review article on the utility of
the synergist ablation model. The purpose of this review is to provide some further dialogue …

Molecular control of recovery after exercise in muscle is temporally dynamic. A time course
of biopsies around resistance exercise (RE) combined with-omics is necessary to better …

Skeletal muscle exhibits remarkable plasticity to adapt to stimuli such as mechanical
loading. The mechanisms that regulate skeletal muscle hypertrophy due to mechanical …

In cell biology, ribosomal RNA (rRNA) 2′ O-methyl (2′-O-Me) is the most prevalent
posttranscriptional chemical modification contributing to ribosome heterogeneity. The …

Abstract MicroRNA-1 (miR-1) is the most abundant miRNA in adult skeletal muscle. To
determine the function of miR-1 in adult skeletal muscle, we generated an inducible, skeletal …

The use of the synergist ablation model to induce muscle hypertrophy has a long and 27
storied history in skeletal muscle research. First reported in the American Journal of 28 …