One of the most exciting and dynamic fields in protein structure-function study is to look into the functional innovations encoded in intrinsically disordered regions (IDR). At the end of this project, we have mechanistically characterized the evolutionary basis of a novel motif located in an IDR region in C53 protein, and it is critical for regulating a novel ER-phagy. We have demonstrated that the competition between two ubiquitin-like molecules, UFM1 and ATG8 creates a molecular switch in the master regulator C53 in the IDR region, thus initiating ER-phagy.
This mechanism is essential to prevent cells from “eating” healthy cellular components, and this mechanism is conserved across different species, these findings will be of interest to broader scientific audiences working on proteinstasis, autophagy, ER-stress, and also to evolutionary biologists.
Further, as fungi and some eukaryotic parasites have lost the UFMylation pathway at a more recent time in evolution, these organisms must have evolved analogous mechanisms to maintain the ER homeostasis. Thus, identifying such mechanisms in fungi, but also in parasites affecting plants, animals, and even humans would open up potential translational avenues for discover new drugs, which could have potential social-economic impact and suggests a wider social implication.