Rad23 interaction with the proteasome is regulated by phosphorylation of its ubiquitin-like (UbL) domain

Ruei Yue Liang, Li Chen, Bo Ting Ko, Yu Han Shen, Yen Te Li, Bo Rong Chen, Kuan Ting Lin, Kiran Madura, Show Mei Chuang

Research output: Contribution to journalArticlepeer-review

34 Scopus citations


Rad23 was identified as a DNA repair protein, although a role in protein degradation has been described. The protein degradation function of Rad23 contributes to cell cycle progression, stress response, endoplasmic reticulum proteolysis, and DNA repair. Rad23 binds the proteasome through a UbL (ubiquitin-like) domain and contains UBA (ubiquitin-associated) motifs that bind multiubiquitin chains. These domains allow Rad23 to function as a substrate shuttle-factor. This property is shared by structurally similar proteins (Dsk2 and Ddi1) and is conserved among the human and mouse counterparts of Rad23. Despite much effort, the regulation of Rad23 interactions with ubiquitinated substrates and the proteasome is unknown. We report here that Rad23 is extensively phosphorylated in vivo and in vitro. Serine residues in UbL are phosphorylated and influence Rad23 interaction with proteasomes. Replacement of these serine residues with acidic residues, to mimic phosphorylation, reduced proteasome binding. We reported that when UbL is overexpressed, it can compete with Rad23 for proteasome interaction and can inhibit substrate turnover. This effect is not observed with UbL containing acidic substitutions, consistent with results that phosphorylation inhibits interaction with the proteasome. Loss of both Rad23 and Rpn10 caused pleiotropic defects that were suppressed by overexpressing either Rad23 or Rpn10. Rad23 bearing a UbL domain with acidic substitutions failed to suppress rad23Δ rpn10Δ, confirming the importance of regulated Rad23/proteasome binding. Strikingly, threonine 75 in human HR23B also regulates interaction with the proteasome, suggesting that phosphorylation is a conserved mechanism for controlling Rad23/proteasome interaction.

Original languageEnglish (US)
Pages (from-to)4049-4060
Number of pages12
JournalJournal of molecular biology
Issue number24
StatePublished - Dec 2014

All Science Journal Classification (ASJC) codes

  • Structural Biology
  • Molecular Biology


  • Rad23
  • UbL
  • degradation
  • phosphorylation
  • proteasome


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