|
  
- 积分
- 536
- 威望
- 536
- 包包
- 1170
|
Nat Methods. 2009 Oct 18.【Epub ahead of print】2 E7 q+ T% ?' b
# f$ A7 E4 M7 c) Q3 V8 S8 }
# @8 x: I& V# P! B% j9 FA chemical platform for improved induction of human iPSCs.9 v" P! A% d; M
% g" ^+ a" P! u3 I
Lin T, Ambasudhan R, Yuan X, Li W, Hilcove S, Abujarour R, Lin X, Hahm HS, Hao E, Hayek A, Ding S.
4 V/ N& k( g) O" `Department of Chemistry, The Scripps Research Institute, La Jolla, California, USA.. M; Q" R6 J" O: O- S; p; S
# H3 ~- Z/ x! T4 v5 t- t9 lThe slow kinetics and low efficiency of reprogramming methods to generate human induced pluripotent stem cells (iPSCs) impose major limitations on their utility in biomedical applications. Here we describe a chemical approach that dramatically improves (200-fold) the efficiency of iPSC generation from human fibroblasts, within seven days of treatment. This will provide a basis for developing safer, more efficient, nonviral methods for reprogramming human somatic cells.
j# I( @1 l4 E2 N$ B" V' K; E' S& f$ Q) e: y5 m
PMID: 1983816: w/ `( E! \& s. | i3 \( j+ B
l2 I( N7 e8 p4 f" j& [5 M |
附件: 你需要登录才可以下载或查看附件。没有帐号?注册
-
总评分: 威望 + 10
包包 + 10
查看全部评分
|
发表于 2009-10-21 20:20
发表于 2009-10-22 15:52
