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Literature DB >> 24874422

Cardiomyocyte maturation: It takes a village to raise a kid.

Alejandra Negro¹, Manfred Boehm².

Abstract

Entities: Chemical Disease Gene Species

Mesh：

Year: 2014 PMID： 24874422 PMCID： PMC4214074 DOI： 10.1016/j.yjmcc.2014.05.012

Source DB: PubMed Journal: J Mol Cell Cardiol ISSN： 0022-2828 Impact factor: 5.000

× No keyword cloud information.

37 in total

1. Mesp1 acts as a master regulator of multipotent cardiovascular progenitor specification.

Authors: Antoine Bondue; Gaëlle Lapouge; Catherine Paulissen; Claudio Semeraro; Michelina Iacovino; Michael Kyba; Cédric Blanpain
Journal: Cell Stem Cell Date: 2008-07-03 Impact factor: 24.633

2. Autonomous and growth factor-induced hypertrophy in cultured neonatal mouse cardiac myocytes. Comparison with rat.

Authors: X F Deng; D G Rokosh; P C Simpson
Journal: Circ Res Date: 2000-10-27 Impact factor: 17.367

3. Stage-specific optimization of activin/nodal and BMP signaling promotes cardiac differentiation of mouse and human pluripotent stem cell lines.

Authors: Steven J Kattman; Alec D Witty; Mark Gagliardi; Nicole C Dubois; Maryam Niapour; Akitsu Hotta; James Ellis; Gordon Keller
Journal: Cell Stem Cell Date: 2011-02-04 Impact factor: 24.633

4. Production of de novo cardiomyocytes: human pluripotent stem cell differentiation and direct reprogramming.

Authors: Paul W Burridge; Gordon Keller; Joseph D Gold; Joseph C Wu
Journal: Cell Stem Cell Date: 2012-01-06 Impact factor: 24.633

5. Triiodothyronine promotes cardiac differentiation and maturation of embryonic stem cells via the classical genomic pathway.

Authors: Yee-Ki Lee; Kwong-Man Ng; Yau-Chi Chan; Wing-Hon Lai; Ka-Wing Au; Chung-Yee Jenny Ho; Lai-Yung Wong; Chu-Pak Lau; Hung-Fat Tse; Chung-Wah Siu
Journal: Mol Endocrinol Date: 2010-07-28

Review 6. Concise review: maturation phases of human pluripotent stem cell-derived cardiomyocytes.

Authors: Claire Robertson; David D Tran; Steven C George
Journal: Stem Cells Date: 2013-05 Impact factor: 6.277

7. Cardiomyocytes derived from human embryonic stem cells in pro-survival factors enhance function of infarcted rat hearts.

Authors: Michael A Laflamme; Kent Y Chen; Anna V Naumova; Veronica Muskheli; James A Fugate; Sarah K Dupras; Hans Reinecke; Chunhui Xu; Mohammad Hassanipour; Shailaja Police; Chris O'Sullivan; Lila Collins; Yinhong Chen; Elina Minami; Edward A Gill; Shuichi Ueno; Chun Yuan; Joseph Gold; Charles E Murry
Journal: Nat Biotechnol Date: 2007-08-26 Impact factor: 54.908

8. Human cardiovascular progenitor cells develop from a KDR+ embryonic-stem-cell-derived population.

Authors: Lei Yang; Mark H Soonpaa; Eric D Adler; Torsten K Roepke; Steven J Kattman; Marion Kennedy; Els Henckaerts; Kristina Bonham; Geoffrey W Abbott; R Michael Linden; Loren J Field; Gordon M Keller
Journal: Nature Date: 2008-04-23 Impact factor: 49.962

Cardiomyocyte maturation: It takes a village to raise a kid.

1. Mesp1 acts as a master regulator of multipotent cardiovascular progenitor specification.

2. Autonomous and growth factor-induced hypertrophy in cultured neonatal mouse cardiac myocytes. Comparison with rat.

3. Stage-specific optimization of activin/nodal and BMP signaling promotes cardiac differentiation of mouse and human pluripotent stem cell lines.

4. Production of de novo cardiomyocytes: human pluripotent stem cell differentiation and direct reprogramming.

5. Triiodothyronine promotes cardiac differentiation and maturation of embryonic stem cells via the classical genomic pathway.

Review 6. Concise review: maturation phases of human pluripotent stem cell-derived cardiomyocytes.

7. Cardiomyocytes derived from human embryonic stem cells in pro-survival factors enhance function of infarcted rat hearts.

8. Human cardiovascular progenitor cells develop from a KDR+ embryonic-stem-cell-derived population.

9. Cardiac differentiation of pluripotent stem cells.

10. Functional differences in engineered myocardium from embryonic stem cell-derived versus neonatal cardiomyocytes.

Review 1. Implementing genome-driven personalized cardiology in clinical practice.

2. Telocytes and putative stem cells in ageing human heart.