Structural basis for catalytic activation by the human ZNF451 SUMO E3 ligase | Zendy

Laurent Cappadocia | Zendy; Andrea Pichler | Zendy; Christopher D. Lima | Zendy

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Structural basis for catalytic activation by the human ZNF451 SUMO E3 ligase

Author(s) -

Laurent Cappadocia,

Andrea Pichler,

Christopher D. Lima

Publication year - 2015

Publication title -

nature structural and molecular biology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 9.448

H-Index - 270

eISSN - 1545-9993

pISSN - 1545-9985

DOI - 10.1038/nsmb.3116

Subject(s) - ubiquitin ligase , thioester , dna ligase , ubiquitin , chemistry , sumo protein , sumo enzymes , tandem , structural motif , biochemistry , enzyme , microbiology and biotechnology , stereochemistry , biology , gene , materials science , composite material

E3 protein ligases enhance transfer of ubiquitin-like (Ubl) proteins from E2 conjugating enzymes to substrates by stabilizing the thioester-charged E2~Ubl in a closed configuration optimally aligned for nucleophilic attack. Here, we report biochemical and structural data that define the N-terminal domain of the Homo sapiens ZNF451 as the catalytic module for SUMO E3 ligase activity. The ZNF451 catalytic module contains tandem SUMO-interaction motifs (SIMs) bridged by a Pro-Leu-Arg-Pro (PLRP) motif. The first SIM and PLRP motif engage thioester-charged E2~SUMO while the next SIM binds a second molecule of SUMO bound to the back side of E2. We show that ZNF451 is SUMO2 specific and that SUMO modification of ZNF451 may contribute to activity by providing a second molecule of SUMO that interacts with E2. Our results are consistent with ZNF451 functioning as a bona fide SUMO E3 ligase.

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