Error-free bypass of 2-hydroxyadenine by human DNA polymerase with Proliferating Cell Nuclear Antigen and Replication Protein A in different sequence contexts
Copyright policy )Error-free bypass of 2-hydroxyadenine by human DNA polymerase with Proliferating Cell Nuclear Antigen and Replication Protein A in different sequence contexts
1,2-dihydro-2-oxoadenine (2-OH-A), a common DNA lesion produced by reactive oxygen species, is a strong replicative block for several DNA polymerases (DNA pols). We have previously shown that various bases can be misincorporated opposite the 2-OH-A lesion and the type of mispairs varies with either the sequence context or the type of DNA pol tested. Here, we have analysed the ability of the human pol family X member DNA pol lambda, to bypass the 2-OH-A lesion. DNA pol lambda can perform error-free bypass of 2-OH-A when this lesion is located in a random sequence, whereas in a repeated sequence context, even though bypass was also largely error-free, misincorporation of dGMP could be observed. The fidelity of translesion synthesis of 2-OH-A in a repeated sequence by DNA pol lambda was enhanced by the auxiliary proteins Proliferating Cell Nuclear Antigen (PCNA) and Replication Protein A (RP-A). We also found that the DNA pol lambda active site residue tyrosine 505 determined the nucleotide selectivity opposite 2-OH-A. Our data show, for the first time, that the 2-OH-A lesion can be efficiently and faithfully bypassed by a human DNA pol lambda in combination with PCNA and RP-A.
- National Research Council Italy
- University of Zurich Switzerland
- National Research Council Sri Lanka
- RERO - Library Network of Western Switzerland Switzerland
Guanine, Base Sequence, Nucleic Acid Enzymes, riparazione del DNA, DNA, 10226 Department of Molecular Mechanisms of Disease, Catalysis, 1311 Genetics, DNA polimerasi, Amino Acid Substitution, Proliferating Cell Nuclear Antigen, Replication Protein A, 570 Life sciences; biology, Humans, Tyrosine, danno ossidativo, DNA Polymerase beta, DNA Damage
Guanine, Base Sequence, Nucleic Acid Enzymes, riparazione del DNA, DNA, 10226 Department of Molecular Mechanisms of Disease, Catalysis, 1311 Genetics, DNA polimerasi, Amino Acid Substitution, Proliferating Cell Nuclear Antigen, Replication Protein A, 570 Life sciences; biology, Humans, Tyrosine, danno ossidativo, DNA Polymerase beta, DNA Damage
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