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标题: [求文献]Direct Transdifferentiation of Stem/Progenitor Spermatogonia Into Reproduct [打印本页]

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作者: 芷瞻    时间: 2009-7-30 12:59     标题: [求文献]Direct Transdifferentiation of Stem/Progenitor Spermatogonia Into Reproduct


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+ v9 G3 v: s- QStem Cells：精原干细胞可直接诱导为各种终端细胞
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% i& o2 N6 P9 I* u, q9 F# U8 aStem Cells. 2009 Apr 16;27(7):1666-1675.
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Direct Transdifferentiation of Stem/Progenitor Spermatogonia Into Reproductive and Nonreproductive Tissues of All Germ Layers.4 m+ a' n" ~' `: y) ]# K( D

3 z) d% d5 q" _4 S& ISimon L, Ekman GC, Kostereva N, Zhang Z, Hess RA, Hofmann MC, Cooke PS.
& I  I, F% p9 H, h% ^8 YDepartment of Veterinary Biosciences,University of Illinois, Urbana, Illinois, USA.( `, v+ X# }& _4 Y6 U

6 ?6 N" F7 I6 ^$ w) m/ V/ m  w/ F$ xPluripotent stem cells have great clinical potential for tissue regeneration/repair in humans. The use of embryonic stem (ES) cells is ethically controversial, leading to searches for other sources of pluripotent stem cells. Testicular spermatogonial stem cells (SSCs) produce the spermatogenic lineage. Under in vitro conditions, SSCs have the ability to give rise to pluripotent ES-like cells. We hypothesized that stem/progenitor spermatogonia could directly transdifferentiate into different tissue types if they were recombined with inductive mesenchymes from fetal/neonatal organs using a tissue separation/recombination methodology and grown in vivo. Green fluorescent protein transgenic mice were used to track cell lineages. Our results indicate that stem/progenitor spermatogonia recombined with the appropriate mesenchyme can directly transdifferentiate in vivo into tissues of all germ layers, including prostatic, uterine, and skin epithelium. In addition, transdifferentiated tissue expressed molecular, histological, and functional markers of the appropriate epithelium. The ability of stem/progenitor spermatogonia to directly generate various epithelia emphasizes their clinical potential, and if adult human SSCs have similar properties, this may have applications in human regenerative medicine. STEM CELLS 2009;27:1666-1675.
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PMID: 19544441

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作者: cortex    时间: 2009-7-30 17:00

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+ {& F# E9 m' ?! h& X查到原文，请下载！
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[attach]1696[/attach]

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作者: 芷瞻    时间: 2009-7-30 19:20

2# cortex
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9 y" w/ A: [5 O2 v非常感谢！

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作者: wemin    时间: 2009-7-31 22:45

也下载，谢谢！

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作者: douhw    时间: 2009-8-1 14:06

谢谢！

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作者: hualin840518    时间: 2009-8-3 12:57

very good !

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作者: diudiusasa    时间: 2009-8-11 08:13

thank you

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作者: dengyanfei    时间: 2009-8-24 14:54

怎一个谢字了得

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作者: z233444    时间: 2009-10-26 17:51

回复 2# cortex ' ~' ^- R- h- w5 ?3 e1 }# g
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! \3 k) ~, d4 z+ N$ A3 H& A6 A    非常感谢！这篇文章非常好！

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作者: franklinhg    时间: 2009-11-25 00:28

不简单的 谢谢

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作者: aidiulgy9517    时间: 2010-3-17 15:27

thanks lots!

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作者: 58062782    时间: 2010-3-18 08:58

谢谢

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作者: zccharles    时间: 2011-11-19 22:01

谢谢,不过谁知道这个技术具体比体细胞去分化好在哪里吗?因为我想除非没有办法谁会去取自己的SSC呢~~

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