Anna L. Keyte, Martha Alonzo-Johnsen, Mary R. Hutson
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引用次数: 39
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Abstract
The cardiac neural crest cells (CNCCs) have played an important role in the evolution and development of the vertebrate cardiovascular system: from reinforcement of the developing aortic arch arteries early in vertebrate evolution, to later orchestration of aortic arch artery remodeling into the great arteries of the heart, and finally outflow tract septation in amniotes. A critical element necessary for the evolutionary advent of outflow tract septation was the co-evolution of the cardiac neural crest cells with the second heart field. This review highlights the major transitions in vertebrate circulatory evolution, explores the evolutionary developmental origins of the CNCCs from the third stream cranial neural crest, and explores candidate signaling pathways in CNCC and outflow tract evolution drawn from our knowledge of DiGeorge Syndrome. Birth Defects Research (Part C) 102:309–323, 2014. © 2014 Wiley Periodicals, Inc.
心脏神经嵴的进化和发育起源:建立一个分离的流出道
心脏神经嵴细胞(CNCCs)在脊椎动物心血管系统的进化和发展中起着重要的作用:从脊椎动物进化早期发展中的主动脉弓动脉的强化,到后来主动脉弓动脉重构到心脏大动脉的协调,最后在羊膜中流出道分离。心脏神经嵴细胞与第二心野的共同进化是流出道分离发生的关键因素。这篇综述强调了脊椎动物循环进化的主要转变,从第三流颅神经嵴探索了CNCC的进化发育起源,并从我们对diggeorge综合征的了解中探索了CNCC和流出道进化的候选信号通路。出生缺陷研究(C辑)(2):309 - 323,2014。©2014 Wiley期刊公司
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