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Mechanism of ubiquitin activation revealed by the structure of a bacterial MoeB–MoaD complex

Michael W. Lake, Margot M. Wuebbens, K. V. Rajagopalan and Hermann Schindelin
Additional contact information
Michael W. Lake: State University of New York at Stony Brook
Margot M. Wuebbens: Duke University Medical Center
K. V. Rajagopalan: Duke University Medical Center
Hermann Schindelin: State University of New York at Stony Brook

Nature, 2001, vol. 414, issue 6861, 325-329

Abstract: Abstract The activation of ubiquitin and related protein modifiers1,2 is catalysed by members of the E1 enzyme family that use ATP for the covalent self-attachment of the modifiers to a conserved cysteine. The Escherichia coli proteins MoeB and MoaD are involved in molybdenum cofactor (Moco) biosynthesis, an evolutionarily conserved pathway3,4. The MoeB- and E1-catalysed reactions are mechanistically similar, and despite a lack of sequence similarity, MoaD and ubiquitin display the same fold including a conserved carboxy-terminal Gly-Gly motif5. Similar to the E1 enzymes, MoeB activates the C terminus of MoaD to form an acyl-adenylate. Subsequently, a sulphurtransferase converts the MoaD acyl-adenylate to a thiocarboxylate that acts as the sulphur donor during Moco biosynthesis6,7. These findings suggest that ubiquitin and E1 are derived from two ancestral genes closely related to moaD and moeB3,5. Here we present the crystal structures of the MoeB–MoaD complex in its apo, ATP-bound, and MoaD-adenylate forms, and highlight the functional similarities between the MoeB– and E1–substrate complexes. These structures provide a molecular framework for understanding the activation of ubiquitin, Rub, SUMO and the sulphur incorporation step during Moco and thiamine biosynthesis.

Date: 2001
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DOI: 10.1038/35104586

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