Abstract
DNA-peptide (DpCs) and DNA-protein cross-links (DPCs) are DNA lesions formed when polypeptides and nuclear proteins become covalently trapped on DNA strands. DNA-protein cross-links are of enormous size and hence pose challenges to cell survival by blocking DNA replication, transcription, and repair. However, DPCs can undergo proteolytic degradation via various pathways to give shorter polypeptide chains (DpCs). The resulting DpC lesions are efficiently bypassed by translesion synthesis (TLS) DNA polymerases like κ, η, δ, etc., although polymerase bypass efficiency as well as correct base insertion depends heavily on size, sequence context, and position of peptides in DpCs. This chapter explores various synthetic methods to generate these lesions including detailed experimental procedures for the construction of DpCs and DPCs via reductive amination and oxime ligation. Further we describe biochemical experiments to investigate the effects of these lesions on DNA polymerase activity and fidelity.
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