Author
Listed:
- Daichi Baba
(Yokohama City University)
- Nobuo Maita
(Yokohama City University
Japan Biological Informatics Consortium)
- Jun-Goo Jee
(RIKEN Genomic Sciences Center
National Institutes of Health)
- Yasuhiro Uchimura
(Kumamoto University)
- Hisato Saitoh
(Kumamoto University)
- Kaoru Sugasawa
(Discovery Research Institute, RIKEN
SORST, Japan Science and Technology Agency)
- Fumio Hanaoka
(Discovery Research Institute, RIKEN
SORST, Japan Science and Technology Agency
Osaka University)
- Hidehito Tochio
(Yokohama City University)
- Hidekazu Hiroaki
(Yokohama City University)
- Masahiro Shirakawa
(Yokohama City University
RIKEN Genomic Sciences Center
Kyoto University
CREST, Japan Science and Technology Corporation)
Abstract
Members of the small ubiquitin-like modifier (SUMO) family can be covalently attached to the lysine residue of a target protein through an enzymatic pathway similar to that used in ubiquitin conjugation1, and are involved in various cellular events that do not rely on degradative signalling via the proteasome or lysosome2,3,4,5. However, little is known about the molecular mechanisms of SUMO-modification-induced protein functional transfer. During DNA mismatch repair, SUMO conjugation of the uracil/thymine DNA glycosylase TDG promotes the release of TDG from the abasic (AP) site created after base excision, and coordinates its transfer to AP endonuclease 1, which catalyses the next step in the repair pathway6. Here we report the crystal structure of the central region of human TDG conjugated to SUMO-1 at 2.1 Å resolution. The structure reveals a helix protruding from the protein surface, which presumably interferes with the product DNA and thus promotes the dissociation of TDG from the DNA molecule. This helix is formed by covalent and non-covalent contacts between TDG and SUMO-1. The non-covalent contacts are also essential for release from the product DNA, as verified by mutagenesis.
Suggested Citation
Daichi Baba & Nobuo Maita & Jun-Goo Jee & Yasuhiro Uchimura & Hisato Saitoh & Kaoru Sugasawa & Fumio Hanaoka & Hidehito Tochio & Hidekazu Hiroaki & Masahiro Shirakawa, 2005.
"Crystal structure of thymine DNA glycosylase conjugated to SUMO-1,"
Nature, Nature, vol. 435(7044), pages 979-982, June.
Handle:
RePEc:nat:nature:v:435:y:2005:i:7044:d:10.1038_nature03634
DOI: 10.1038/nature03634
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