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7YWA

Structure of DinI in complex with RecA filament

Summary for 7YWA
Entry DOI10.2210/pdb7ywa/pdb
EMDB information34151
DescriptorDNA damage-inducible protein I, Protein RecA, DNA (5'-D(P*TP*TP*TP*TP*TP*T)-3'), ... (5 entities in total)
Functional Keywordssos response, filament, dna repair, dna binding protein-dna complex, dna binding protein/dna
Biological sourceEscherichia coli
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Total number of polymer chains4
Total formula weight87865.79
Authors
Gao, B.,Feng, Y. (deposition date: 2022-08-22, release date: 2022-12-21, Last modification date: 2024-07-03)
Primary citationGao, B.,Liang, L.,Su, L.,Wen, A.,Zhou, C.,Feng, Y.
Structural basis for regulation of SOS response in bacteria.
Proc.Natl.Acad.Sci.USA, 120:e2217493120-e2217493120, 2023
Cited by
PubMed Abstract: In response to DNA damage, bacterial RecA protein forms filaments with the assistance of DinI protein. The RecA filaments stimulate the autocleavage of LexA, the repressor of more than 50 SOS genes, and activate the SOS response. During the late phase of SOS response, the RecA filaments stimulate the autocleavage of UmuD and λ repressor CI, leading to mutagenic repair and lytic cycle, respectively. Here, we determined the cryo-electron microscopy structures of RecA filaments in complex with DinI, LexA, UmuD, and λCI by helical reconstruction. The structures reveal that LexA and UmuD dimers bind in the filament groove and cleave in an intramolecular and an intermolecular manner, respectively, while λCI binds deeply in the filament groove as a monomer. Despite their distinct folds and oligomeric states, all RecA filament binders recognize the same conserved protein features in the filament groove. The SOS response in bacteria can lead to mutagenesis and antimicrobial resistance, and our study paves the way for rational drug design targeting the bacterial SOS response.
PubMed: 36598938
DOI: 10.1073/pnas.2217493120
PDB entries with the same primary citation
Experimental method
ELECTRON MICROSCOPY (3.26 Å)
Structure validation

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