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Literature DB >> 19226213

Porcine skin-derived stem cells can serve as donor cells for nuclear transfer.

Yanhong Hao¹, David Wax, Zhisheng Zhong, Clifton Murphy, Jason W Ross, August Rieke, Melissa Samuel, Lee Spate, Paul Dyce, Julang Li, Peter Sutovsky, Randall S Prather.

Abstract

Although transgenic animal production through somatic cell nuclear transfer (SCNT) has been successful, the process is still inefficient. One major limitation is the use of somatic donor cells that have a finite life span. Identification and isolation of a cell type capable of rapid proliferation while possessing immortal or prolonged life span in culture and is capable of being genetically modified would be very valuable for utilization in the production of genetically modified pigs. Here we report the birth of live piglets after cloning by using porcine skin-derived stem cells (SSC) as a donor cell type. In the present study, cell cycle analysis indicates that the porcine SSC proliferate rapidly in vitro. The porcine SSC are capable of producing live offspring and can be genetically modified with positive selection. Utilization of porcine SSC may prove to be an excellent cell type for genetic modification followed by nuclear transfer for the production of transgenic pigs.

Entities: Species

Mesh：

Year: 2009 PMID： 19226213 PMCID： PMC2936952 DOI： 10.1089/clo.2008.0063

Source DB: PubMed Journal: Cloning Stem Cells ISSN： 1536-2302

19 in total

1. Generation of mice from wild-type and targeted ES cells by nuclear cloning.

Authors: W M Rideout; T Wakayama; A Wutz; K Eggan; L Jackson-Grusby; J Dausman; R Yanagimachi; R Jaenisch
Journal: Nat Genet Date: 2000-02 Impact factor: 38.330

2. Stem cells with multilineage potential derived from porcine skin.

Authors: Paul W Dyce; Hai Zhu; Jesse Craig; Julang Li
Journal: Biochem Biophys Res Commun Date: 2004-04-09 Impact factor: 3.575

3. Visualization of sperm accessory structures in the mammalian spermatids, spermatozoa, and zygotes by immunofluorescence, confocal, and immunoelectron microscopy.

Authors: Peter Sutovsky
Journal: Methods Mol Biol Date: 2004

4. Production of nuclear transfer-derived swine that express the enhanced green fluorescent protein.

Authors: K W Park; H T Cheong; L Lai; G S Im; B Kühholzer; A Bonk; M Samuel; A Rieke; B N Day; C N Murphy; D B Carter; R S Prather
Journal: Anim Biotechnol Date: 2001-11 Impact factor: 2.282

5. Mice cloned from embryonic stem cells.

Authors: T Wakayama; I Rodriguez; A C Perry; R Yanagimachi; P Mombaerts
Journal: Proc Natl Acad Sci U S A Date: 1999-12-21 Impact factor: 11.205

6. Hybrid vigor, fetal overgrowth, and viability of mice derived by nuclear cloning and tetraploid embryo complementation.

Authors: K Eggan; H Akutsu; J Loring; L Jackson-Grusby; M Klemm; W M Rideout; R Yanagimachi; R Jaenisch
Journal: Proc Natl Acad Sci U S A Date: 2001-05-01 Impact factor: 11.205

7. Production of alpha-1,3-galactosyltransferase knockout pigs by nuclear transfer cloning.

Authors: Liangxue Lai; Donna Kolber-Simonds; Kwang-Wook Park; Hee-Tae Cheong; Julia L Greenstein; Gi-Sun Im; Melissa Samuel; Aaron Bonk; August Rieke; Billy N Day; Clifton N Murphy; David B Carter; Robert J Hawley; Randall S Prather
Journal: Science Date: 2002-01-03 Impact factor: 47.728

8. Glass needle-mediated microinjection of macromolecules and transgenes into primary human mesenchymal stem cells.

Authors: Tamara V Tsulaia; Nicole L Prokopishyn; Aqing Yao; N D Victor Carsrud; M Clara Carou; David B Brown; Brian R Davis; Judith Yannariello-Brown
Journal: J Biomed Sci Date: 2003 May-Jun Impact factor: 8.410

9. Transgenic pig expressing the enhanced green fluorescent protein produced by nuclear transfer using colchicine-treated fibroblasts as donor cells.

Authors: Liangxue Lai; Kwang-Wook Park; Hee-Tae Cheong; Birgit Kühholzer; Melissa Samuel; Aaron Bonk; Gi-Sun Im; August Rieke; Billy N Day; Clifton N Murphy; David B Carter; Randall S Prather
Journal: Mol Reprod Dev Date: 2002-07 Impact factor: 2.609

10. In vitro development of preimplantation porcine nuclear transfer embryos cultured in different media and gas atmospheres.

Authors: Gi-Sun Im; Liangxue Lai; Zhonghua Liu; Yanhong Hao; David Wax; Aaron Bonk; Randall S Prather
Journal: Theriogenology Date: 2004-04-15 Impact factor: 2.740

10 in total

1. Conservation of somatic tissue derived from collared peccaries (Pecari tajacu Linnaeus, 1758) using direct or solid-surface vitrification techniques.

Authors: Alana Azevedo Borges; Gabriela Liberalino Lima; Luiza Bento de Queiroz Neta; Maria Valéria de Oliveira Santos; Moacir Franco de Oliveira; Alexandre Rodrigues Silva; Alexsandra Fernandes Pereira
Journal: Cytotechnology Date: 2017-03-04 Impact factor: 2.058

Review 2. The multi-potentiality of skin-derived stem cells in pigs.

Authors: Ming-Tao Zhao; R S Prather
Journal: Theriogenology Date: 2010-08-05 Impact factor: 2.740

Review 3. Emerging applications of sperm, embryo and somatic cell cryopreservation in maintenance, relocation and rederivation of swine genetics.

Authors: H Men; E M Walters; H Nagashima; R S Prather
Journal: Theriogenology Date: 2012-08-13 Impact factor: 2.740

10. The proliferation role of LH on porcine primordial germ cell-like cells (pPGCLCs) through ceRNA network construction.

Authors: Ming-Yu Zhang; Yu Tian; Shu-Er Zhang; Hong-Chen Yan; Wei Ge; Bao-Quan Han; Zi-Hui Yan; Shun-Feng Cheng; Wei Shen
Journal: Clin Transl Med Date: 2021-10