斑马鱼sip1a和sip1b对于正常的轴向和神经模式形成至关重要。
Zebrafish sip1a and sip1b are essential for normal axial and neural patterning.
作者信息
Delalande Jean-Marie, Guyote Meaghann E, Smith Chelsey M, Shepherd Iain T
机构信息
Department of Biology, Emory University, Atlanta, Georgia 30322, USA.
出版信息
Dev Dyn. 2008 Apr;237(4):1060-9. doi: 10.1002/dvdy.21485.
Abstract
Smad-interacting protein-1 (SIP1) has been implicated in the development of Mowat-Wilson syndrome whose patients exhibit Hirschsprung disease, an aganglionosis of the large intestine, as well as other phenotypes. We have identified and cloned two sip1 orthologues in zebrafish. Both sip1 orthologues are expressed maternally and have dynamic zygotic expression patterns that are temporally and spatially distinct. We have investigated the function of both orthologues using translation and splice-blocking morpholino antisense oligonucleotides. Knockdown of the orthologues causes axial and neural patterning defects consistent with the previously described function of SIP1 as an inhibitor of BMP signaling. In addition, knockdown of both genes leads to a significant reduction/loss of the post-otic cranial neural crest. This results in a subsequent absence of neural crest precursors in the posterior pharyngeal arches and a loss of enteric precursors in the intestine.
摘要
Smad相互作用蛋白1(SIP1)与Mowat-Wilson综合征的发生有关,该综合征患者表现出先天性巨结肠(一种大肠神经节缺失症)以及其他表型。我们在斑马鱼中鉴定并克隆了两个sip1直系同源基因。这两个sip1直系同源基因均在母源表达,并且具有动态的合子表达模式,在时间和空间上有所不同。我们使用翻译阻断和剪接阻断吗啉代反义寡核苷酸研究了这两个直系同源基因的功能。敲低这些直系同源基因会导致轴突和神经模式缺陷,这与先前描述的SIP1作为BMP信号抑制剂的功能一致。此外,两个基因的敲低都会导致耳后颅神经嵴显著减少/缺失。这导致随后咽后弓中神经嵴前体的缺失以及肠道中肠前体的缺失。
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