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== Structural highlights == | == Structural highlights == | ||
The <scene name='69/695713/Uba1/1'>monomeric structure</scene> of Uba1 consists of six structural domains (IAD, AAD, FCCH, SCCH, 4HB, and UFD), four of which pack together to create a central canyon. <ref> Lee I, Schindelin H. Structural Insights into E1-Catalyzed Ubiquitin Activation and Transfer to Conjugating Enzymes. Cell 134, 268–278 (2008). </ref> | The <scene name='69/695713/Uba1/1'>monomeric structure</scene> of Uba1 consists of six structural domains (IAD, AAD, FCCH, SCCH, 4HB, and UFD), four of which pack together to create a central canyon. <ref> Lee I, Schindelin H. Structural Insights into E1-Catalyzed Ubiquitin Activation and Transfer to Conjugating Enzymes. Cell 134, 268–278 (2008). </ref> | ||
| - | The canyon is divided into two distinct clefts (left and right) by the SCCH/AAD linker fragment. | + | The canyon is divided into two distinct clefts (left and right) by the SCCH/AAD linker fragment.<ref> Lee I, Schindelin H. Structural Insights into E1-Catalyzed Ubiquitin Activation and Transfer to Conjugating Enzymes. Cell 134, 268–278 (2008). </ref> Ubiquitin binds to the cysteine located on the right cleft of Uba1 which allows for Ubiquitin to orient itself relative to the active site located on the left cleft.<ref> Lee I, Schindelin H. Structural Insights into E1-Catalyzed Ubiquitin Activation and Transfer to Conjugating Enzymes. Cell 134, 268–278 (2008). </ref> The structure of <scene name='69/695713/Uba1_monomeric_ub/2'>Ubiquitin bound to Uba1</scene> results in a change in conformation that buries a significant portion of Uba1 exposed surface area.<ref> Lee I, Schindelin H. Structural Insights into E1-Catalyzed Ubiquitin Activation and Transfer to Conjugating Enzymes. Cell 134, 268–278 (2008). </ref> The catalytic cysteine located on the SCCH domain of Uba1 forms a thioester with the C-terminus of Ubiquitin, forming a <scene name='69/695713/Uba1_monomeric_ub_catcys_hi/1'>thioester complex</scene>.<ref> Lee I, Schindelin H. Structural Insights into E1-Catalyzed Ubiquitin Activation and Transfer to Conjugating Enzymes. Cell 134, 268–278 (2008). </ref> It is suggested that a significant conformation change occurs when Ubiquitin binds to Uba1 due to the large distance (~35 Å) between the catalytic cysteine residue and the adenylation active site.<ref> Lee I, Schindelin H. Structural Insights into E1-Catalyzed Ubiquitin Activation and Transfer to Conjugating Enzymes. Cell 134, 268–278 (2008). </ref> <ref>Walden H, Podgorski MS, Huang DT, Miller DW, Howard RJ, Minor DL Jr, Holton JM, Schulman BA. The structure of the APPBP1-UBA3-NEDD8-ATP complex reveals the basis for selective ubiquitin-like protein activation by an E1. Molecular Cell 12, 1427–1437 (2003).</ref> |
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== References == | == References == | ||
<references/> | <references/> | ||
| - | 1.Lee I, Schindelin H. Structural Insights into E1-Catalyzed Ubiquitin Activation and Transfer to Conjugating Enzymes. Cell 134, 268–278 (2008). | ||
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| - | 2.Walden H, Podgorski MS, Huang DT, Miller DW, Howard RJ, Minor DL Jr, Holton JM, Schulman BA. The structure of the APPBP1-UBA3-NEDD8-ATP complex reveals the basis for selective ubiquitin-like protein activation by an E1. Molecular Cell 12, 1427–1437 (2003). | ||
| - | <references> | ||
Revision as of 21:11, 24 February 2015
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