Repeated, episodic bouts of skeletal muscle contraction undertaken frequently as structured
exercise training are a potent stimulus for physiological adaptation in many organs …

Cultured meat has recently achieved mainstream prominence due to the emergence of
societal and industrial interest. In contrast to animal-based production of traditional meat, the …

Skeletal muscle tissue demonstrates global hypermethylation with age. However,
methylome changes across the time-course of differentiation in aged human muscle derived …

Key points We have recently identified that a HECT domain E3 ubiquitin ligase, named
UBR5, is altered epigenetically (via DNA methylation) after human skeletal muscle …

Physical stimuli are crucial for the structural and functional maturation of tissues both in vivo
and in vitro. In tissue engineering applications, bioreactors have become fundamental and …

Understanding the role of mechanical loading and exercise in skeletal muscle (SkM) is
paramount for delineating the molecular mechanisms that govern changes in muscle mass …

Skeletal muscle (SkM) is a major site of training-induced changes in substrate metabolism
through increased adenosine triphosphate turnover and mitochondrial oxidative capacity …

Skeletal muscle is a highly adaptable tissue, displaying features of hypertrophy (growth) and
atrophy (loss), as a result of both internal and external stimuli. The mechanisms …

The challenges to accommodate multiple tissue formation metrics in conventional
bioreactors have resulted in an increased interest to explore novel bioreactor designs …

Recent evidence has shown that skeletal muscle tissue exhibits a memory of a range of
stimuli, enhancing the response to the stimuli if it has been previously encountered. Some …