Contiguous 2,2,4-triamino-5(2H)-oxazolone obstructs DNA synthesis by DNA polymerases {alpha}, {beta}, {eta}, {iota}, {kappa}, REV1 and Klenow Fragment exo-, but not by DNA polymerase {zeta}

In this study, we analysed translesion synthesis (TLS) across two contiguous Oz molecules (OzOz) using Klenow Fragment exo– (KF exo–) and DNA polymerases (Pols) α, β, , , , and REV1. We found that KF exo– and Pols α, β, and REV1 inserted one nucleotide opposite the 3' Oz of OzOz and stalled at the subsequent extension, and that Pol incorporated no nucleotide. Pol only inefficiently elongated the primer up to full-length across OzOz; the synthesis of most DNA strands stalled at the 3' or 5' Oz of OzOz. Surprisingly, however, Pol efficiently extended the primer up to full-length across OzOz, unlike the other DNA polymerases, but catalysed error-prone nucleotide incorporation. We therefore believe that Pol is required for efficient TLS of OzOz. These results show that OzOz obstructs DNA synthesis by DNA polymerases except Pol .
Source: Journal of Biochemistry - Category: Biochemistry Authors: Tags: Regular Papers Source Type: research
More News: Biochemistry | Study