Replication past the Butadiene Diepoxide-Derived DNA Adduct S-[4-(N6-Deoxyadenosinyl)-2,3-dihydroxybutyl]glutathione by DNA Polymerases

Cho, Sung-Hee; Guengerich, F. Peter

doi:10.1021/tx400145e

Cited by 14 publications

(34 citation statements)

References 51 publications

(140 reference statements)

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“…As observed previously for C5-thymine lesions (36), hPol was more efficient than hPol . Higher catalytic efficiency of hPol than hPol is consistent with previous reports for other bulky nucleobase lesions such as exocyclic adducts (35,(71)(72)(73) and DNA-glutathione conjugates (74). Unlike C5-thymine-peptide lesions, which induce high numbers of frameshift and base substitution mutations upon primer extension in the presence of hPol and hPol (36), C7-G conjugated DPCs were not miscoding.…”

supporting

confidence: 90%

Bypass of DNA-Protein Cross-links Conjugated to the 7-Deazaguanine Position of DNA by Translesion Synthesis Polymerases

Wickramaratne

Mukherjee

et al. 2016

Journal of Biological Chemistry

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DNA-protein cross-links (DPCs) are bulky DNA lesions that form both endogenously and following exposure to bis-electrophiles such as common antitumor agents. The structural and biological consequences of DPCs have not been fully elucidated due to the complexity of these adducts. The most common site of DPC formation in DNA following treatment with bis-electrophiles such as nitrogen mustards and cisplatin is the N7 position of guanine, but the resulting conjugates are hydrolytically labile and thus are not suitable for structural and biological studies. In this report, hydrolytically stable structural mimics of N7-guanine-conjugated DPCs were generated by reductive amination reactions between the Lys and Arg side chains of proteins/peptides and aldehyde groups linked to 7-deazaguanine residues in DNA. These model DPCs were subjected to in vitro replication in the presence of human translesion synthesis DNA polymerases. DPCs containing full-length proteins (11-28 kDa) or a 23-mer peptide blocked human polymerases and . DPC conjugates to a 10-mer peptide were bypassed with nucleotide insertion efficiency 50 -100-fold lower than for native G. Both human polymerase (hPol) and hPol inserted the correct base (C) opposite the 10-mer peptide cross-link, although small amounts of T were added by hPol . Molecular dynamics simulation of an hPol ternary complex containing a template-primer DNA with dCTP opposite the 10-mer peptide DPC revealed that this bulky lesion can be accommodated in the polymerase active site by aligning with the major groove of the adducted DNA within the ternary complex of polymerase and dCTP.

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supporting

confidence: 90%

Bypass of DNA-Protein Cross-links Conjugated to the 7-Deazaguanine Position of DNA by Translesion Synthesis Polymerases

Wickramaratne

Mukherjee

et al. 2016

Journal of Biological Chemistry

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“…Previous investigations have revealed that the ability of DNA polymerases to bypass DNA-peptide conjugates is dependent on the lesion size, the attachment site within the DNA, and polymerase identity (10,(21)(22)(23)(24)(25)(26)(27)(28)(29). Lloyd and co-workers (26) have reported that human polymerase (hpol) and its Escherichia coli orthologue pol IV were able to catalyze error-free primer extension past DNA templates containing tetra-and dodecapeptides conjugated to the N 2 position of guanine via a trimethylene linker.…”

Section: Dna-protein Cross-links (Dpcs)mentioning

confidence: 99%

“…Yamanaka et al (27) proposed that small major groove DPC adducts have sufficient conformational flexibility to be accommodated within the active site of TLS polymerases without disturbing primer-template-enzyme interactions, although the corresponding minor groove adducts block replication. More recently, Guengerich and co-workers (29) reported that human polymerases and , as well as bacterial polymerases pol T7 and DPO4, were capable of replicating DNA containing S- [4-(N 6 -deoxyadenosinyl)-2,3-dihydroxybutyl] glutathione adducts (N 6 -dA-(OH) 2 butyl-GlyCys-␥Glu). However, to our knowledge, no systematic studies have been performed to examine replication bypass of DPCs conjugated to pyrimidine bases on DNA, despite their potential significance in vivo.…”

Section: Dna-protein Cross-links (Dpcs)mentioning

confidence: 99%

“…In the resulting primer-template complexes, the 3Ј-primer terminus is positioned immediately prior to the lesion site (Ϫ1 primer, Scheme 2A). Initial single nucleotide incorporation assays were conducted to determine what nucleotides can be inserted opposite the adducted site by human translesion synthesis polymerases, hpol and , which were selected due to their documented ability to catalyze replication past other bulky DNA lesions (26,29). The resulting primer-template duplexes were incubated with recombinant polymerases in the presence of individual dNTPs for 0 -90 min.…”

Section: Synthesis Of Primer-template Duplexes Containingmentioning

confidence: 99%

“…Multiple nucleotide insertions observed in the single nucleotide incorporation experiments (Fig. 1) may be due to the low fidelity of these two TLS polymerases (29,41,42).…”

Section: Synthesis Of Primer-template Duplexes Containingmentioning

confidence: 99%

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Error-prone Translesion Synthesis Past DNA-Peptide Cross-links Conjugated to the Major Groove of DNA via C5 of Thymidine

Wickramaratne

Boldry²,

Buehler

et al. 2015

Journal of Biological Chemistry

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Background: DNA-protein conjugates can be induced by reactive oxygen species and proteolytically cleaved to the corresponding peptide conjugates. Results: Polymerase bypass past C5-dT peptide conjugates catalyzed by human polymerases and gives rise to base substitutions and deletions. Conclusion: Replication past C5-T peptide conjugates is mutagenic. Significance: This study provides the first evidence for error-prone replication of DPCs cross-linked to pyrimidines in DNA.

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Detection and Characterization of 1,2‐Dibromoethane‐Derived DNA Crosslinks Formed with O⁶‐Alkylguanine‐DNA Alkyltransferase

et al. 2013

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Replication past the Butadiene Diepoxide-Derived DNA Adduct S-[4-(N⁶-Deoxyadenosinyl)-2,3-dihydroxybutyl]glutathione by DNA Polymerases

Cited by 14 publications

References 51 publications

Bypass of DNA-Protein Cross-links Conjugated to the 7-Deazaguanine Position of DNA by Translesion Synthesis Polymerases

Bypass of DNA-Protein Cross-links Conjugated to the 7-Deazaguanine Position of DNA by Translesion Synthesis Polymerases

Error-prone Translesion Synthesis Past DNA-Peptide Cross-links Conjugated to the Major Groove of DNA via C5 of Thymidine

Detection and Characterization of 1,2‐Dibromoethane‐Derived DNA Crosslinks Formed with O⁶‐Alkylguanine‐DNA Alkyltransferase

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Replication past the Butadiene Diepoxide-Derived DNA Adduct S-[4-(N6-Deoxyadenosinyl)-2,3-dihydroxybutyl]glutathione by DNA Polymerases

Cited by 14 publications

References 51 publications

Bypass of DNA-Protein Cross-links Conjugated to the 7-Deazaguanine Position of DNA by Translesion Synthesis Polymerases

Bypass of DNA-Protein Cross-links Conjugated to the 7-Deazaguanine Position of DNA by Translesion Synthesis Polymerases

Error-prone Translesion Synthesis Past DNA-Peptide Cross-links Conjugated to the Major Groove of DNA via C5 of Thymidine

Detection and Characterization of 1,2‐Dibromoethane‐Derived DNA Crosslinks Formed with O6‐Alkylguanine‐DNA Alkyltransferase

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Product

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Replication past the Butadiene Diepoxide-Derived DNA Adduct S-[4-(N⁶-Deoxyadenosinyl)-2,3-dihydroxybutyl]glutathione by DNA Polymerases

Detection and Characterization of 1,2‐Dibromoethane‐Derived DNA Crosslinks Formed with O⁶‐Alkylguanine‐DNA Alkyltransferase