Abstract
AbstractI outline a streamlined method to create single copy large genomic insert transgenes using Recombination-Mediated Cassette Exchange (RMCE) that relies solely on drug selection yielding a homozygous fluorescent protein (FP) marked transgene in 3 generations (8 days) at high efficiency (>1 insertion per 2 injected P0 animals). Landing sites for this approach are available on four chromosomes in several configurations which yield lines marked in distinct cell types. An array of vectors permit creating transgenes using a variety of selection methods (HygR, NeoR, PuroR, unc-119(+)) that yield lines expressing different colored FP tagged lines (BFP, GFP, mNG, andScarlet). Although these transgenes retain a plasmid backbone and a selection marker, the inclusion of these sequences typically does not alter the expression of several cell specific promoters tested. However, in certain orientations promoters exhibits crosstalk with adjacent transcription units. In cases where crosstalk is problematic, theloxP-flanked fluorescent marker, plasmid backbone andhygRgene can be excised by crossing through germline Cre expressing lines also created using this technique. Finally, genetic and molecular reagents designed to facilitate customization of both targeting vectors and landing sites are also described. Together, the rRMCE toolbox provides a platform for developing further innovative uses of RMCE to create complex genetically engineered tools.
Publisher
Cold Spring Harbor Laboratory
Cited by
2 articles.
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