Abstract

Abstract Our interests lie in humanizing specific regions of the mouse genome using large segments of human DNA with extents of 10s to 100s of kilobase pairs. To that end, we have undertaken a series of projects to transfer large segments of human DNA, from human BAC clones, into the orthologous region of corresponding mouse BAC clones using— (1), traditional recombineering methods; (2), recombinase-mediated cassette exchange (RCME); and (3), a novel technology that we call trans- or trimolecular-recombineering. In each instance the goal is to place human DNA within the larger context of homologous BAC-derived mouse arms in E. coli. Completed constructs will be used to drive homologous recombination in mouse embryonic stem (ES) cells with positive selection imparted at each end of the transferred human segment using dual, recombinase recognition site-flanked, selectable marker cassettes. Properly targeted ES cells will be used to develop viable mouse strains carrying the humanized segments. Selection cassettes will be removed by crossing to mouse strains with germline expression of the appropriate recombinases. All experiments have been designed to maintain a fixed genetic background from community-standard C57BL/6 strains. Our poster presentation details the specifics of our projects and describes progress to date. This research is supported by National Cancer Institute Grant Number 5P30CA034196-28. Citation Format: Tiffany Leidy-Davis, David E. Bergstrom. Interspecific recombination between orthologous human and mouse BAC clones in E. coli: Exploring scalable humanization of cancer-relevant genes in the mouse genome. [abstract]. In: Proceedings of the AACR Special Conference: The Translational Impact of Model Organisms in Cancer; Nov 5-8, 2013; San Diego, CA. Philadelphia (PA): AACR; Mol Cancer Res 2014;12(11 Suppl):Abstract nr A06.

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