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Results: 1 to 20 of 93

Similar articles for PubMed (Select 24476887)

1.

Stimulus-triggered fate conversion of somatic cells into pluripotency.

Obokata H, Wakayama T, Sasai Y, Kojima K, Vacanti MP, Niwa H, Yamato M, Vacanti CA.

Nature. 2014 Jan 30;505(7485):641-7. doi: 10.1038/nature12968. Retraction in: Obokata H, Wakayama T, Sasai Y, Kojima K, Vacanti MP, Niwa H, Yamato M, Vacanti CA. Nature. 2014 Jul 3;511(7507):112.

2.

Bidirectional developmental potential in reprogrammed cells with acquired pluripotency.

Obokata H, Sasai Y, Niwa H, Kadota M, Andrabi M, Takata N, Tokoro M, Terashita Y, Yonemura S, Vacanti CA, Wakayama T.

Nature. 2014 Jan 30;505(7485):676-80. doi: 10.1038/nature12969. Retraction in: Obokata H, Sasai Y, Niwa H, Kadota M, Andrabi M, Takata N, Tokoro M, Terashita Y, Yonemura S, Vacanti CA, Wakayama T. Nature. 2014 Jul 3;511(7507):112.

3.

Reprogramming of somatic cells after fusion with induced pluripotent stem cells and nuclear transfer embryonic stem cells.

Sumer H, Jones KL, Liu J, Heffernan C, Tat PA, Upton KR, Verma PJ.

Stem Cells Dev. 2010 Feb;19(2):239-46. doi: 10.1089/scd.2009.0142.

PMID:
19637940
4.

A reprogrammable mouse strain from gene-targeted embryonic stem cells.

Stadtfeld M, Maherali N, Borkent M, Hochedlinger K.

Nat Methods. 2010 Jan;7(1):53-5. doi: 10.1038/nmeth.1409. Epub 2009 Dec 13.

5.

Pluripotent stem cells induced from mouse somatic cells by small-molecule compounds.

Hou P, Li Y, Zhang X, Liu C, Guan J, Li H, Zhao T, Ye J, Yang W, Liu K, Ge J, Xu J, Zhang Q, Zhao Y, Deng H.

Science. 2013 Aug 9;341(6146):651-4. doi: 10.1126/science.1239278. Epub 2013 Jul 18.

6.

The H3K27 demethylase Utx regulates somatic and germ cell epigenetic reprogramming.

Mansour AA, Gafni O, Weinberger L, Zviran A, Ayyash M, Rais Y, Krupalnik V, Zerbib M, Amann-Zalcenstein D, Maza I, Geula S, Viukov S, Holtzman L, Pribluda A, Canaani E, Horn-Saban S, Amit I, Novershtern N, Hanna JH.

Nature. 2012 Aug 16;488(7411):409-13. doi: 10.1038/nature11272.

PMID:
22801502
7.

Characterization of Oct4-GFP spermatogonial stem cell line and its application in the reprogramming studies.

Youn H, Kim SH, Choi KA, Kim S.

J Cell Biochem. 2013 Apr;114(4):920-8. doi: 10.1002/jcb.24431.

PMID:
23097321
8.

Generation of induced pluripotent stem cells by efficient reprogramming of adult bone marrow cells.

Kunisato A, Wakatsuki M, Kodama Y, Shinba H, Ishida I, Nagao K.

Stem Cells Dev. 2010 Feb;19(2):229-38. doi: 10.1089/scd.2009.0149.

PMID:
19558219
9.

Direct reprogramming of fibroblasts into epiblast stem cells.

Han DW, Greber B, Wu G, Tapia N, Araúzo-Bravo MJ, Ko K, Bernemann C, Stehling M, Schöler HR.

Nat Cell Biol. 2011 Jan;13(1):66-71. doi: 10.1038/ncb2136. Epub 2010 Dec 5.

PMID:
21131959
10.

Chemically induced pluripotent stem cells (CiPSCs): a transgene-free approach.

Masuda S, Wu J, Hishida T, Pandian GN, Sugiyama H, Izpisua Belmonte JC.

J Mol Cell Biol. 2013 Oct;5(5):354-5. doi: 10.1093/jmcb/mjt034. Epub 2013 Sep 6.

11.

Low pH reprograms somatic murine cells into pluripotent stem cells: a novel technique with therapeutic implications.

Williams JS, Xiao Y, Brownell I.

Cancer Biol Ther. 2014 Jun 1;15(6):675-7. doi: 10.4161/cbt.28414. Epub 2014 Mar 11. Review.

12.

Reprogramming in vivo produces teratomas and iPS cells with totipotency features.

Abad M, Mosteiro L, Pantoja C, Cañamero M, Rayon T, Ors I, Graña O, Megías D, Domínguez O, Martínez D, Manzanares M, Ortega S, Serrano M.

Nature. 2013 Oct 17;502(7471):340-5. doi: 10.1038/nature12586. Epub 2013 Sep 11.

PMID:
24025773
13.

DNA synthesis is required for reprogramming mediated by stem cell fusion.

Tsubouchi T, Soza-Ried J, Brown K, Piccolo FM, Cantone I, Landeira D, Bagci H, Hochegger H, Merkenschlager M, Fisher AG.

Cell. 2013 Feb 14;152(4):873-83. doi: 10.1016/j.cell.2013.01.012.

14.

Efficient hematopoietic redifferentiation of induced pluripotent stem cells derived from primitive murine bone marrow cells.

Pfaff N, Lachmann N, Kohlscheen S, Sgodda M, Araúzo-Bravo MJ, Greber B, Kues W, Glage S, Baum C, Niemann H, Schambach A, Cantz T, Moritz T.

Stem Cells Dev. 2012 Mar 20;21(5):689-701. doi: 10.1089/scd.2011.0010. Epub 2011 Aug 24.

PMID:
21732815
15.

Replacement of Oct4 by Tet1 during iPSC induction reveals an important role of DNA methylation and hydroxymethylation in reprogramming.

Gao Y, Chen J, Li K, Wu T, Huang B, Liu W, Kou X, Zhang Y, Huang H, Jiang Y, Yao C, Liu X, Lu Z, Xu Z, Kang L, Chen J, Wang H, Cai T, Gao S.

Cell Stem Cell. 2013 Apr 4;12(4):453-69. doi: 10.1016/j.stem.2013.02.005. Epub 2013 Mar 14.

16.

Linking incomplete reprogramming to the improved pluripotency of murine embryonal carcinoma cell-derived pluripotent stem cells.

Chang G, Miao YL, Zhang Y, Liu S, Kou Z, Ding J, Chen DY, Sun QY, Gao S.

PLoS One. 2010 Apr 26;5(4):e10320. doi: 10.1371/journal.pone.0010320.

17.

Stress management: a new path to pluripotency.

Pera MF.

Cell Stem Cell. 2014 Mar 6;14(3):273-4. doi: 10.1016/j.stem.2014.02.009.

18.

MicroRNA-302 increases reprogramming efficiency via repression of NR2F2.

Hu S, Wilson KD, Ghosh Z, Han L, Wang Y, Lan F, Ransohoff KJ, Burridge P, Wu JC.

Stem Cells. 2013 Feb;31(2):259-68. doi: 10.1002/stem.1278.

19.

A germ cell-specific gene, Prmt5, works in somatic cell reprogramming.

Nagamatsu G, Kosaka T, Kawasumi M, Kinoshita T, Takubo K, Akiyama H, Sudo T, Kobayashi T, Oya M, Suda T.

J Biol Chem. 2011 Mar 25;286(12):10641-8. doi: 10.1074/jbc.M110.216390. Epub 2011 Jan 26.

20.

Single-gene transgenic mouse strains for reprogramming adult somatic cells.

Carey BW, Markoulaki S, Beard C, Hanna J, Jaenisch R.

Nat Methods. 2010 Jan;7(1):56-9. doi: 10.1038/nmeth.1410. Epub 2009 Dec 13.

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