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本文引用的文献

1
Wnt signaling regulates left-right axis formation in the node of mouse embryos.Wnt 信号通路调控小鼠胚胎节点中左右轴的形成。
Dev Biol. 2013 Aug 15;380(2):222-32. doi: 10.1016/j.ydbio.2013.05.011. Epub 2013 May 21.
2
Zic3 is required in the migrating primitive streak for node morphogenesis and left-right patterning.Zic3 对于原条的迁移、节结形态发生和左右模式形成是必需的。
Hum Mol Genet. 2013 May 15;22(10):1913-23. doi: 10.1093/hmg/ddt001. Epub 2013 Jan 8.
3
Fluid flow and interlinked feedback loops establish left-right asymmetric decay of Cerl2 mRNA.流体流动和相互关联的反馈回路建立了 Cerl2 mRNA 的左右不对称衰减。
Nat Commun. 2012;3:1322. doi: 10.1038/ncomms2319.
4
Zic3 is required in the extra-cardiac perinodal region of the lateral plate mesoderm for left-right patterning and heart development.Zic3 在侧板中胚层的心脏旁节区对于左右模式形成和心脏发育是必需的。
Hum Mol Genet. 2013 Mar 1;22(5):879-89. doi: 10.1093/hmg/dds494. Epub 2012 Nov 25.
5
How was the notochord born?脊索是如何产生的?
Evol Dev. 2012 Jan-Feb;14(1):56-75. doi: 10.1111/j.1525-142X.2011.00522.x.
6
Cilia at the node of mouse embryos sense fluid flow for left-right determination via Pkd2.小鼠胚胎节点处的纤毛通过 Pkd2 感受流体流动以进行左右确定。
Science. 2012 Oct 12;338(6104):226-31. doi: 10.1126/science.1222538. Epub 2012 Sep 13.
7
Two rotating cilia in the node cavity are sufficient to break left-right symmetry in the mouse embryo.两个旋转纤毛在节点腔内足以打破小鼠胚胎的左右对称性。
Nat Commun. 2012 Jan 10;3:622. doi: 10.1038/ncomms1624.
8
Normal bias in the direction of fetal rotation depends on blastomere composition during early cleavage in the mouse.正常的胎儿旋转偏向取决于小鼠早期卵裂时的卵裂球组成。
PLoS One. 2010 Mar 10;5(3):e9610. doi: 10.1371/journal.pone.0009610.
9
Tbx6 regulates left/right patterning in mouse embryos through effects on nodal cilia and perinodal signaling.Tbx6通过影响节点纤毛和节点周围信号传导来调节小鼠胚胎的左右模式形成。
PLoS One. 2008 Jun 25;3(6):e2511. doi: 10.1371/journal.pone.0002511.
10
Long-range action of Nodal requires interaction with GDF1.Nodal的远程作用需要与GDF1相互作用。
Genes Dev. 2007 Dec 15;21(24):3272-82. doi: 10.1101/gad.1623907.

T(Wis)/T(Wis)突变小鼠胚胎中左右轴缺陷的性质和程度。

Nature and extent of left/right axis defects in T(Wis) /T(Wis) mutant mouse embryos.

作者信息

Concepcion Daniel, Papaioannou Virginia E

机构信息

Department of Genetics and Development, Columbia University Medical Center, New York, New York.

出版信息

Dev Dyn. 2014 Aug;243(8):1046-53. doi: 10.1002/dvdy.24144. Epub 2014 May 26.

DOI:10.1002/dvdy.24144
PMID:24801048
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4238287/
Abstract

BACKGROUND

Mutations in the T-box gene Brachyury have well known effects on invagination of the endomesodermal layer during gastrulation, but the gene also plays a role in the determination of left/right axis determination that is less well studied. Previous work has implicated node morphology in this effect. We use the T(Wis) allele of Brachyury to investigate the molecular and morphological effects of the T locus on axis determination in the mouse.

RESULTS

Similar to embryos mutant for the T allele, T(Wis) /T(Wis) embryos have a high incidence of ventral and/or reversed heart looping. In addition, heterotaxia between the direction of heart looping and the direction of embryo turning is common. Scanning electron microscopy reveals defects in node morphology including irregularity, smaller size, and a decreased number of cilia, although the cilia appear morphologically normal. Molecular analysis shows a loss of perinodal expression of genes involved in Nodal signaling, namely Cer2, Gdf1, and Nodal itself. There is also loss of Dll1 expression, a key component of the Notch signaling pathway, in the presomitic mesoderm.

CONCLUSIONS

Morphological abnormalities of the node as well as disruptions of the molecular cascade of left/right axis determination characterize T(Wis) /T(Wis) mutants. Decreased Notch signaling may account for both the morphological defects and the absence of expression of genes in the Nodal signaling pathway.

摘要

背景

T 盒基因 Brachyury 的突变对原肠胚形成过程中内胚层和中胚层的内陷具有众所周知的影响,但该基因在左右轴确定中也发挥作用,而这方面的研究较少。先前的研究表明节点形态与这种影响有关。我们利用 Brachyury 的 T(Wis)等位基因来研究 T 基因座对小鼠轴确定的分子和形态学影响。

结果

与 T 等位基因突变的胚胎相似,T(Wis)/T(Wis)胚胎腹侧和/或心脏反转环化的发生率很高。此外,心脏环化方向与胚胎旋转方向之间的内脏反位很常见。扫描电子显微镜显示节点形态存在缺陷,包括不规则、尺寸较小和纤毛数量减少,尽管纤毛在形态上看起来正常。分子分析表明,参与 Nodal 信号传导的基因(即 Cer2、Gdf1 和 Nodal 自身)在节点周围的表达缺失。在体节形成前的中胚层中,Notch 信号通路的关键成分 Dll1 的表达也缺失。

结论

T(Wis)/T(Wis)突变体的特征是节点的形态异常以及左右轴确定分子级联的破坏。Notch 信号传导减少可能是形态缺陷和 Nodal 信号通路中基因表达缺失的原因。