Deshaies, Raymond
- Reichermeier, Kurt Michael (2020) Quantitative Characterization of Composition and Regulation of Cullin-RING Ubiquitin Ligases; 10.7907/0WX7-2Q56
- Blythe, Emily Elizabeth (2019) Characterization of Adaptor Binding and Substrate Processing by VCP/p97; 10.7907/9K4M-0C48
- Yu, Helen (2019) Subunit Selective Degradation of WIZ, a Lenalidomide- and Pomalidomide-Dependent Substrate of E3 Ubiquitin Ligase CRL4CRBN; 10.7907/Z7PK-NH81
- Mosadeghi, Ruzbeh (2015) Mechanistic Dissection of the Cop9 Signalosome’s Deneddylation Activity on Cullin-RING Ligases; 10.7907/Z9P26W3G
- Kolawa, Natalie J. (2013) Proteomic Analysis of the Cdc48/Ubx Network Identifies a Role for Ubx2 in the Regulation of Lipid Biosynthesis; 10.7907/FN9G-KV67
- Chang, Kuang-Jung (2012) A Role for Protein Kinase Dbf2-Mob1 in Mitotic Exit; 10.7907/Z92F7KFT
- Pierce, Nathan William (2012) Sequential Processivity and CAND1 Regulate SCF Ubiquitin Ligases; 10.7907/ME1H-AK32
- Gomez, Tara Adele (2011) Mutational Analysis of Ubiquitin Shuttle Receptor Docking Sites on the 26S Proteasome; 10.7907/K9K3-0105
- Ghaboosi, Nazli (2007) Genetic Inhibition of the Ubiquitin-Proteasome Pathway: Insights Into Proteasomal Targeting; 10.7907/PNPS-JR40
- Cope, Gregory Allan (2006) Regulation of SCF Ubiquitin Ligases by Jab1/Csn5 and the Cop9 Signalosome; 10.7907/43JP-NQ47
- Graumann, Johannes (2006) Implementation of Multidimensional Protein Identification Technology and its Application to the Characterization of Protein Complexes in Bakers Yeast; 10.7907/J3V1-QQ44
- Ambroggio, Xavier Ignacio (2005) Structural and Functional Studies of Jamm Domain Proteins and Their Role in the Ubiquitin System; 10.7907/EVW4-CC51
- Mah, Angie Siu Yee (2005) Regulation of Protein Kinase Dbf2 in Mitotic Exit; 10.7907/NS1Z-3K87
- Azzam, Ramzi Issam (2004) The Role of Net1 Phosphorylation in Regulating CDC14 Release During Mitotic Exit; 10.7907/W73K-KK96
- Sakamoto, Kathleen Miho (2004) Targeting Proteins for Ubiquitination and Degradation in the Treatment of Human Disease; 10.7907/2RN6-TE18