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Orphan quality control by an SCF ubiquitin ligase directed to pervasive C-degrons.

Ka-Yiu Edwin KongSusmitha ShankarFrank RühleAnton Khmelinskii
Published in: Nature communications (2023)
Selective protein degradation typically involves substrate recognition via short linear motifs known as degrons. Various degrons can be found at protein termini from bacteria to mammals. While N-degrons have been extensively studied, our understanding of C-degrons is still limited. Towards a comprehensive understanding of eukaryotic C-degron pathways, here we perform an unbiased survey of C-degrons in budding yeast. We identify over 5000 potential C-degrons by stability profiling of random peptide libraries and of the yeast C‑terminome. Combining machine learning, high-throughput mutagenesis and genetic screens reveals that the SCF ubiquitin ligase targets ~40% of degrons using a single F-box substrate receptor Das1. Although sequence-specific, Das1 is highly promiscuous, recognizing a variety of C-degron motifs. By screening for full-length substrates, we implicate SCF Das1 in degradation of orphan protein complex subunits. Altogether, this work highlights the variety of C-degron pathways in eukaryotes and uncovers how an SCF/C-degron pathway of broad specificity contributes to proteostasis.
Keyphrases
  • high throughput
  • machine learning
  • amino acid
  • quality control
  • binding protein
  • disease activity
  • transcription factor
  • crispr cas
  • dna methylation
  • deep learning
  • big data
  • human health