| scholarly article | Q13442814 |
| P2093 | author name string | Peter S Brzovic | |
| Rachel E Klevit | |||
| Jonathan N Pruneda | |||
| Kate E Stoll | |||
| Laura J Bolton | |||
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| P433 | issue | 10 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 1624-1633 | |
| P577 | publication date | 2011-02-21 | |
| P1433 | published in | Biochemistry | Q764876 |
| P1476 | title | Ubiquitin in motion: structural studies of the ubiquitin-conjugating enzyme∼ubiquitin conjugate | |
| P478 | volume | 50 |
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| Q89967592 | How to Inactivate Human Ubiquitin E3 Ligases by Mutation |
| Q47682400 | In silico modeling of the cryptic E2∼ubiquitin-binding site of E6-associated protein (E6AP)/UBE3A reveals the mechanism of polyubiquitin chain assembly |
| Q34335192 | Inhibition of proliferation and survival of diffuse large B-cell lymphoma cells by a small-molecule inhibitor of the ubiquitin-conjugating enzyme Ubc13-Uev1A. |
| Q36381884 | Insights into Ubiquitination from the Unique Clamp-like Binding of the RING E3 AO7 to the E2 UbcH5B. |
| Q35779031 | Interdomain dynamics and coactivation of the mRNA decapping enzyme Dcp2 are mediated by a gatekeeper tryptophan. |
| Q94600140 | Legionella effector MavC targets the Ube2N~Ub conjugate for noncanonical ubiquitination |
| Q34345185 | Loop 7 of E2 enzymes: an ancestral conserved functional motif involved in the E2-mediated steps of the ubiquitination cascade |
| Q28067393 | Mechanism and disease association of E2-conjugating enzymes: lessons from UBE2T and UBE2L3 |
| Q27679532 | Mechanism of ubiquitin ligation and lysine prioritization by a HECT E3 |
| Q27671855 | Mechanism of ubiquitylation by dimeric RING ligase RNF4 |
| Q90371314 | Mechanistic insights revealed by a UBE2A mutation linked to intellectual disability |
| Q28072740 | Molecular basis for specificity of the Met1-linked polyubiquitin signal |
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| Q89925905 | Protein Engineering in the Ubiquitin System: Tools for Discovery and Beyond |
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| Q91782038 | Single-Domain Antibodies as Crystallization Chaperones to Enable Structure-Based Inhibitor Development for RBR E3 Ubiquitin Ligases |
| Q27678872 | Structural Insights into the Conformation and Oligomerization of E2∼Ubiquitin Conjugates |
| Q33773468 | Structural Studies of HHARI/UbcH7∼Ub Reveal Unique E2∼Ub Conformational Restriction by RBR RING1. |
| Q33987001 | Structural and functional insights to ubiquitin-like protein conjugation. |
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| Q28829129 | Structural mechanism for the recognition and ubiquitination of a single nucleosome residue by Rad6-Bre1 |
| Q27670947 | Structure of a RING E3 ligase and ubiquitin-loaded E2 primed for catalysis |
| Q36291328 | Structure of an E3:E2~Ub complex reveals an allosteric mechanism shared among RING/U-box ligases. |
| Q27682346 | Structure of the autophagic E2 enzyme Atg10 |
| Q37607318 | The FA Core Complex Contains a Homo-dimeric Catalytic Module for the Symmetric Mono-ubiquitination of FANCI-FANCD2. |
| Q40291384 | The molecular basis of lysine 48 ubiquitin chain synthesis by Ube2K. |
| Q93249807 | The ubiquitin ligase SspH1 from Salmonella uses a modular and dynamic E3 domain to catalyze substrate ubiquitylation |
| Q34170749 | The ubiquitin-associated domain of cellular inhibitor of apoptosis proteins facilitates ubiquitylation |
| Q26739716 | Ubc13: the Lys63 ubiquitin chain building machine |
| Q24310659 | Ubiquitin Ser65 phosphorylation affects ubiquitin structure, chain assembly and hydrolysis |
| Q96171834 | Ubiquitin transfer by a RING E3 ligase occurs from a closed E2~ubiquitin conformation |
| Q39149390 | Ubiquitin-like Protein Conjugation: Structures, Chemistry, and Mechanism |
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