User:Anconne/sandbox

KDEL Receptor
KDEL receptors initiate the mechanism by which proteins are transported from the Golgi to the ER. These proteins were originally from the ER and they escaped into the cis-Golgi. Once the KDEL signal sequence is recognized by KDEL receptors, which are commonly located in the cis-Golgi, COPII, and COPI vesicles. These receptors are recycled during each transport cycle. KDEL receptor binding is dependent on pH, in which the ligand (target protein) binds strongly to the receptor in the cis-Golgi due to the unique low pH (6, is strongest binding) characteristic of the biochemical environment of the cis-Golgi network. As the vesicle that contains the KDEL receptor reaches the ER, the receptor is inactive due to the high pH (7.2-7.4) of the ER, resulting in the release of the target protein/ligand. A study conducted by Becker et al. demonstrated through experimentation and simulation that KDEL receptors/cargo clustering at the cell surface is caused by the transport of cargo-synchronized receptors from and to the plasma membrane. The video on the right demonstrates an experiment conducted by Becker et al. demonstrating the dynamics of the KDEL receptor clustering's time dependence with a full experiment from start to finish (60 minutes). Within the paper, the authors note the importance of understanding the mechanism of action of the receptor clustering and dynamic reorganization because of its potential understanding to use for designing targeted therapeutics.