DEG_Cend_FEM1B_2

The genome can be subject to various types of damage, such as germline mutations, replication errors and more. The mRNA molecules can also be mis-processed or translated erroneously. In addition, protein molecules can suffer chemical damage (e.g. hydrolysis) as they age. Protein quality control is a vital cellular process that ensures the proper folding, assembly, and function of proteins. It involves various surveillance mechanisms that detect misfolded or damaged proteins and either facilitate their refolding or target them for degradation via protein degradation pathways such as the ubiquitin-proteasome system, thereby maintaining cellular homeostasis (Yeh,2021).

C-terminal degrons (C-degrons, also known as destabilizing C-terminal ends, DesCEnds) are short amino acid sequences located at the C-terminus of proteins that play a crucial role in regulating protein stability and degradation. These degrons are recognized by specific E3 ubiquitin ligases, such as the TRIM7, DCAF12, FEM1B and KLHDC2 E3 ligases, which target the protein for ubiquitination and subsequent proteasomal degradation.

C-degron pathways have been implicated in various biological processes, including protein quality surveillance, cell cycle regulation, antiviral defence, and signal transduction. Dysregulation of C-degron pathways can lead to the accumulation of abnormal or misfolded proteins, contributing to the development of human diseases such as neurodegenerative disorders (Chen,2021).

C-terminal degrons can be present in full length proteins internally, in which case they must be activated by proteolytic cleavage. On the other hand, they can be natively present at the C-termini of other proteins or even introduced by premature translation termination.

Within the cullin2-RING E3 ligase complex, cullins play a role as a scaffold protein and they recruit various substrates. These protein-degron interactions precisely mediate a diverse range of cellular events from cell cycle, through DNA replication to signal transduction. Impairing the proteolysis events were shown to cause severe diseases ranging from autoimmunity to cancer (Rape,2018). FEM1 proteins, including FEM1A/B/C, act as the receptors to specifically recognize C degrons (Yan,2021; Chen,2021; Zhao,2021). Although they share a similar architecture (N- and C-terminal ankyrin domain, tetratricopeptide repeats and von Hippel–Lindau box), they were shown to selectively bind somewhat different C-degrons.

The FEM1 name originates for the nematode worm Caenorhabditis elegans: Most individuals are hermaphrodites but the sex-determining protein fem-1 is essential for male sexual fate (P17221; Spence,1990).