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Liu Y
Liu Y
Tanzania
Publications
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Research Article
Culture of Pig Induced Pluripotent Stem Cells without Direct Feeder Contact in Serum Free Media
Author(s): Yang JY, Liu Y, Yu P, Lu Y, Hutcheson JM, Lau VW, Li X, Dove CR, Stice SL and West FDYang JY, Liu Y, Yu P, Lu Y, Hutcheson JM, Lau VW, Li X, Dove CR, Stice SL and West FD
Background: Reprogramming pig somatic cells into induced pluripotent stem cells (iPSCs) have promising applications in basic biology, disease model development and xenotransplantation. In the mouse, embryonic stem cell (ESC) technology has revolutionized the field enabling gene targeting, complex screening strategies and the creation of animals that show unique characteristics of interest. Recent breakthroughs utilizing induced pluripotent stem cell technology in the pig have made it possible to produce pig pluripotent stem cells that resemble germline chimeric competent mouse ESCs. However, an optimal culture system for piPSC expansion has yet to be developed. Most reports have maintained piPSCs in undefined systems that use xenoproducts and feeder layers, which are potential sources of contamination. Methods: In this study, new lines of pig iPSCs (piPSC) were generated from pig fibr.. View More»
DOI: 10.4172/2157-7633.1000174