Efficient and Reliable Production of Vectors for the Study of the Repair, Mutagenesis, and Phenotypic Consequences of Defined DNA Damage Lesions in Mammalian Cells Lucy Petrova Christine Gran Magnar Bjoras Paul W. Doetsch 10.1371/journal.pone.0158581 https://plos.figshare.com/articles/dataset/Efficient_and_Reliable_Production_of_Vectors_for_the_Study_of_the_Repair_Mutagenesis_and_Phenotypic_Consequences_of_Defined_DNA_Damage_Lesions_in_Mammalian_Cells/3917040 <div><p>Mammalian cells are constantly and unavoidably exposed to DNA damage from endogenous and exogenous sources, frequently to the detriment of genomic integrity and biological function. Cells acquire a large number of chemically diverse lesions per day, and each can have a different genetic fate and biological consequences. However, our knowledge of how and when specific lesions are repaired or how they may compromise the fidelity of DNA replication or transcription and lead to deleterious biological endpoints in mammalian cells is limited. Studying individual lesions requires technically challenging approaches for the targeted introduction of defined lesions into relevant DNA sequences of interest. Here, we present a systematic analysis of factors influencing yield and an improved, efficient and reliable protocol for the production of mammalian expression phagemid vectors containing defined DNA base modifications in any sequence position of either complementary DNA strand. We applied our improved protocol to study the transcriptional mutagenesis-mediated phenotypic consequences of the common oxidative lesion 5-hydroxyuracil, placed in the G12 mutational hotspot of the KRAS oncogene. 5-OHU induced sustained oncogenic signaling in Neil1<sup>-/-</sup>Neil2<sup>-/-</sup> mouse cells. The resulting advance in technology will have broad applicability for investigation of single lesion DNA repair, mutagenesis, and DNA damage responses in mammalian cells.</p></div> 2016-06-30 18:10:15 Reliable Production DNA damage responses Defined DNA Damage Lesions DNA strand expression phagemid vectors DNA sequences genomic integrity 5- OHU lesion DNA repair DNA damage transcriptional mutagenesis-mediated phenotypic consequences G 12 DNA base modifications DNA replication oxidative lesion 5- hydroxyuracil Phenotypic Consequences sequence position exogenous sources Mammalian Cells Mammalian cells KRAS oncogene