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3RB4

Dpo4 extension ternary complex with 3'-terminal primer G base opposite the 3-methylcytosine (m3c) lesion

Summary for 3RB4
Entry DOI10.2210/pdb3rb4/pdb
Related3RAQ 3RAX 3RB0 3RB3
DescriptorDNA polymerase IV, DNA (5'-D(*GP*TP*TP*GP*GP*AP*TP*GP*GP*TP*AP*GP*(DDG))-3'), DNA (5'-D(*C*CP*TP*AP*AP*CP*(ME6)P*CP*TP*AP*CP*CP*AP*TP*CP*CP*AP*AP*CP*C)-3'), ... (6 entities in total)
Functional Keywordsdna damage, dna repair, dna replication, dna-binding, dna-directed dna polymerase, magnesium, metal-binding, mutator protein, nucleotidyltransferase, transferase, transferase-dna complex, lesion bypass, dna polymerase, y-family polymerase, dntp binding, 3-methylcytosine, transferase/dna
Biological sourceSulfolobus solfataricus
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Cellular locationCytoplasm (Probable): Q97W02
Total number of polymer chains6
Total formula weight99204.72
Authors
Rechkoblit, O.,Patel, D.J. (deposition date: 2011-03-28, release date: 2011-06-15, Last modification date: 2023-09-13)
Primary citationRechkoblit, O.,Delaney, J.C.,Essigmann, J.M.,Patel, D.J.
Implications for damage recognition during Dpo4-mediated mutagenic bypass of m1G and m3C lesions.
Structure, 19:821-832, 2011
Cited by
PubMed Abstract: DNA is susceptible to alkylation damage by a number of environmental agents that modify the Watson-Crick edge of the bases. Such lesions, if not repaired, may be bypassed by Y-family DNA polymerases. The bypass polymerase Dpo4 is strongly inhibited by 1-methylguanine (m1G) and 3-methylcytosine (m3C), with nucleotide incorporation opposite these lesions being predominantly mutagenic. Further, extension after insertion of both correct and incorrect bases, introduces additional base substitution and deletion errors. Crystal structures of the Dpo4 ternary extension complexes with correct and mismatched 3'-terminal primer bases opposite the lesions reveal that both m1G and m3C remain positioned within the DNA template/primer helix. However, both correct and incorrect pairing partners exhibit pronounced primer terminal nucleotide distortion, being primarily evicted from the DNA helix when opposite m1G or misaligned when pairing with m3C. Our studies provide insights into mechanisms related to hindered and mutagenic bypass of methylated lesions and models associated with damage recognition by repair demethylases.
PubMed: 21645853
DOI: 10.1016/j.str.2011.03.020
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (2.805 Å)
Structure validation

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