Glycolysis is an ancient metabolic activity ... its bioenergetic function important for growth and its signalling function crucial for cell fate decisions. When we inhibited glycolysis, we clearly saw ...

Historically, metabolism has been seen as a passive executioner of cell signaling. Previously we showed that a glucose metabolizing Hexosamine Biosynthesis Pathway (HBP) plays an important role in ...

Cells manage a wide range of functions in their tiny package ... cells rely on for the energy required to sustain growth, metabolism, and reproduction (Figure 1). Cellular nutrients come ...

Glycolysis is an ancient metabolic activity ... its bioenergetic function important for growth and its signalling function crucial for cell fate decisions. When we inhibited glycolysis, we ...

Glycolysis is an ancient metabolic activity ... its bioenergetic function is important for growth and its signaling function crucial for cell fate decisions. When we inhibited glycolysis, we clearly ...

Mitochondria play a crucial role in acquiring pluripotency and determining cell fate. The mitochondrial ... in somatic cell reprogramming, Nature Metabolism (2025). DOI: 10.1038 ...

Cell biology revolves around a crucial concept: cells require nutrients for their survival, just as our bodies rely on nutrition (food) to support proper tissue and overall organismal functions. This ...

Regulation of ERBB function ... the ultimate fate of that receptor will differ. Down-regulation fates include dephosphorylation, recycling, routing to another area of the cell, degradation ...

Glycolysis is an ancient metabolic activity ... its bioenergetic function is important for growth and its signaling function crucial for cell fate decisions. When we inhibited glycolysis, we ...

Glycolysis is an ancient metabolic activity ... its bioenergetic function important for growth and its signalling function crucial for cell fate decisions. When we inhibited glycolysis, we clearly saw ...