Bacterial base excision repair enzyme Fpg recognizes bulky N7-substituted-FapydG lesion via unproductive binding mode. - Archive ouverte HAL
Article Dans Une Revue Chemistry & Biology / Chemistry and Biology; CHEMISTRY & BIOLOGY Année : 2008

Bacterial base excision repair enzyme Fpg recognizes bulky N7-substituted-FapydG lesion via unproductive binding mode.

Résumé

Fpg is a bacterial base excision repair enzyme that removes oxidized purines from DNA. This work shows that Fpg and its eukaryote homolog Ogg1 recognize with high affinity FapydG and bulky N7-benzyl-FapydG (Bz-FapydG). The comparative crystal structure analysis of stable complexes between Fpg and carbocyclic cFapydG or Bz-cFapydG nucleoside-containing DNA provides the molecular basis of the ability of Fpg to bind both lesions with the same affinity and to differently process them. To accommodate the steric hindrance of the benzyl group, Fpg selects the adequate rotamer of the extrahelical Bz-cFapydG formamido group, forcing the bulky group to go outside the binding pocket. Contrary to the binding mode of cFapydG, the particular recognition of Bz-cFapydG leads the BER enzymes to unproductive complexes which would hide the lesion and slow down its repair by the NER machinery.
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Dates et versions

hal-00408047 , version 1 (28-07-2009)

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Citer

Franck Coste, Matthias Ober, Yann-Vaï Le Bihan, Maria Angeles Izquierdo, Nadège Hervouet, et al.. Bacterial base excision repair enzyme Fpg recognizes bulky N7-substituted-FapydG lesion via unproductive binding mode.. Chemistry & Biology / Chemistry and Biology; CHEMISTRY & BIOLOGY, 2008, 15 (7), pp.706-17. ⟨10.1016/j.chembiol.2008.05.014⟩. ⟨hal-00408047⟩
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