Ubiquitin recognition by FAAP20 expands the complex interface beyond the canonical UBZ domain.

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2014-12-16

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Abstract

FAAP20 is an integral component of the Fanconi anemia core complex that mediates the repair of DNA interstrand crosslinks. The ubiquitin-binding capacity of the FAAP20 UBZ is required for recruitment of the Fanconi anemia complex to interstrand DNA crosslink sites and for interaction with the translesion synthesis machinery. Although the UBZ-ubiquitin interaction is thought to be exclusively encapsulated within the ββα module of UBZ, we show that the FAAP20-ubiquitin interaction extends beyond such a canonical zinc-finger motif. Instead, ubiquitin binding by FAAP20 is accompanied by transforming a disordered tail C-terminal to the UBZ of FAAP20 into a rigid, extended β-loop that latches onto the complex interface of the FAAP20 UBZ and ubiquitin, with the invariant C-terminal tryptophan emanating toward I44(Ub) for enhanced binding specificity and affinity. Substitution of the C-terminal tryptophan with alanine in FAAP20 not only abolishes FAAP20-ubiquitin binding in vitro, but also causes profound cellular hypersensitivity to DNA interstrand crosslink lesions in vivo, highlighting the indispensable role of the C-terminal tail of FAAP20, beyond the compact zinc finger module, toward ubiquitin recognition and Fanconi anemia complex-mediated DNA interstrand crosslink repair.

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10.1093/nar/gku1153

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Wojtaszek, Jessica L, Su Wang, Hyungjin Kim, Qinglin Wu, Alan D D'Andrea and Pei Zhou (2014). Ubiquitin recognition by FAAP20 expands the complex interface beyond the canonical UBZ domain. Nucleic Acids Res, 42(22). pp. 13997–14005. 10.1093/nar/gku1153 Retrieved from https://hdl.handle.net/10161/13468.

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Scholars@Duke

Zhou

Pei Zhou

Professor of Biochemistry

The Zhou lab focuses on the elucidation of the structure and dynamics of protein–protein and protein–ligand interactions and their functions in various cellular processes. Our current efforts are directed at enzymes and protein complexes involved in bacterial membrane biosynthesis, translesion DNA synthesis, co-transcriptional regulation, and host-pathogen interactions. Our investigations of these important cellular machineries have led to the development of novel antibiotics and cancer therapeutics, as well as the establishment of new biotechnology adventures.

 

The Zhou lab integrates a variety of biochemical and biophysical tools, including NMR, X-ray crystallography, cryo-EM, and enzymology. The lab has played a major role in the development and application of innovative NMR technologies, including high-resolution, high-dimensional spectral reconstruction techniques.


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