| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 2202966 | Seminars in Cell & Developmental Biology | 2010 | 7 Pages |
During protein synthesis, the orderly progression of folding, modification, and assembly is paramount to function and vis-à-vis cellular viability. Accordingly, sophisticated quality control mechanisms have evolved to monitor protein maturation throughout the cell. Proteins failing at any step are segregated and degraded as a preventative measure against potential toxicity. Although protein quality control is generally poorly understood, recent research advances in endoplasmic reticulum-associated degradation (ERAD) pathways have provided the most detailed view so far. The discovery of distinct substrate processing sites established a biochemical basis for genetic profiles of model misfolded proteins. Detailed mechanisms for substrate recognition were recently uncovered. For some proteins, sequential glycan trimming steps set a time window for folding. Proteins still unfolded at the final stage expose a specific degradation signal recognized by the ERAD machinery. Through this mechanism, the system does not in fact know that a molecule is “misfolded”. Instead, it goes by the premise that proteins past due have veered off their normal folding pathways and therefore aberrant.
