I just took a look at the wikipedia article for ubiquitin and it says it is actually possible for ubiquitin to get added to the N-terminus. It says it may also be possible for it to get added to cysteine, threonine, and serine. But addition to lysine is what is common or typical.

Same question here. How does this marker gets the signal from the target protein

​@@bhapree4407 The short answer: We are not entirely sure. The long answer: We are not entirely sure, but one piece of the puzzle that research has uncovered is something called "degrons" which are portions of a protein that alter the rate at which said protein is degraded either through the ubiquitin-proteasome pathway or a different protein-degradation pathway. As such, degrons are classified as either "ubiquitin-independent" or "ubiquitin-dependent" depending on whether or not the degron regulates protein degradation via the ubiquitin-proteasome pathway. The rate of protein degradation increases when degrons are added to a protein and decreases when degrons are removed from a protein. Degrons can be certain amino acid sequences, motifs, certain secondary structures and many other things. Some degrons lead to faster protein degradation than others. The exact mechanism by which ubiquitin-dependent degrons regulate protein degradation via the ubiquitin-proteasome pathway and why different degrons lead to different rates of ubiquitylation is poorly understood and an area of active research. Degrons are just one piece of the complex puzzle, and it is suspected that there are many other factors involved in the regulation of ubiquitylation besides the presence of ubiquitin-dependent degrons in a protein that have not yet been discovered.

thanks!

The lysine is located in the target protein, whereas glycine is part of the carboxyl terminal group of the ubiqitin. They are the two partners that form the isopeptide bond.

Melina Zamani lyللل

Leonardo This occurs mostly when we have proteins which didn’t fold well or when we need to switch off a signalling pathway. Autophagy is the one linked to metabolism AFAIK.

Polo Wambo so autophagy breaks muscle protein into aminoacids so the gluconeogenesis can occur?

@@biru5051 both produce peptides at the end, which can be used for metabolism, but I think autophagy is switched on when there is low energy in the cell

thanks!

Not it is interesting