Abstract

Porcine embryonic fibroblasts (PEFs) have been used extensively as donor nuclei for the production of cloned pigs via somatic cell nuclear transfer (SCNT). Somatic cell nuclear transfer of gene-targeted PEFs has been the only way to produce gene-targeted pigs, given the lack of germ-line-competent porcine embryonic stem cells. Unlike other primary-cultured cells, such as murine embryonic fibroblasts, a single porcine PEF is unable to proliferate under normal conditions in which a certain number of PEFs (likely over 100) can grow normally. This limitation greatly hampers re-cloning of gene-modified PEFs, which is required for SCNT. Herein, we demonstrate the cultivation of a single PEF transfectant carrying the pEGFP-N1 plasmid with intact normal PEFs (>100) in a Terasaki microtest plate, which resulted in stimulation of the growth of the former cell (doubling time = 2.6 days). In contrast, when a single cell was cultured, it could typically divide only once and never divided more than twice. When a single transfectant was seeded in a well of a 96-well plate together with 5 × 10(4) untransfected PEFs and was subsequently selected in the presence of G418, we obtained a pure cell population of single-cell origin. Thus, this method should be useful for the purification of target recombinant pig clones from mosaic populations that cannot be cultured as a single cell or for which suitable cell growth-promoting conditions are unclear.

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