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一个亚效等位基因揭示了“内翻”基因在小鼠骨骼发育中的重要作用。

A hypomorphic allele reveals an important role of inturned in mouse skeletal development.

作者信息

Chang Rachel, Petersen Juliette R, Niswander Lee A, Liu Aimin

机构信息

Department of Biology, Eberly College of Science, The Pennsylvania State University, University Park, Pennsylvania.

Department of Pediatrics, University of Colorado Anschutz Medical Campus, Aurora, Colorado.

出版信息

Dev Dyn. 2015 Jun;244(6):736-47. doi: 10.1002/dvdy.24272. Epub 2015 May 25.

DOI:10.1002/dvdy.24272
PMID:25774014
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4449324/
Abstract

BACKGROUND

Cilia are important for Hedgehog signaling in vertebrates and many genes that encode proteins involved in ciliogenesis have been studied for their roles in embryonic development. Null mutations in many of these genes cause early embryonic lethality, hence an understanding of their roles in postnatal development is limited.

RESULTS

The Inturned (Intu) gene is required for ciliogenesis and here we report a recessive hypomorphic mutation, resulting in substitution of a conserved hydrophobic residue (I813N) near the C-terminus, that sheds light on later functions of Intu. Mice homozygous for this Double-thumb (Intu(Dtm)) allele exhibit polydactyly, retarded growth, and reduced survival. There is a moderate loss of cilia in Intu(Dtm/Dtm) mutants, and Intu(I813N) exhibits compromised ability to increase ciliogenesis in cultured Intu null mutant cells. Intu(Dtm) mutants show rib defects and delay of endochondral ossification in long bones, digits, vertebrae, and the sternum. These skeletal defects correlate with a decrease in Hh signaling. However, patterning of the neural tube and planar cell polarity appear to be normal.

CONCLUSIONS

This hypomorphic Intu allele highlights an important role of Intu in mouse skeletal development.

摘要

背景

纤毛对于脊椎动物中的刺猬信号通路很重要,并且许多编码参与纤毛发生的蛋白质的基因已被研究其在胚胎发育中的作用。这些基因中的许多基因的无效突变会导致早期胚胎致死,因此对它们在出生后发育中的作用的了解有限。

结果

内翻(Intu)基因是纤毛发生所必需的,在这里我们报告了一种隐性次等位基因突变,导致C末端附近一个保守的疏水残基(I813N)被取代,这揭示了Intu的后期功能。纯合子双拇指(Intu(Dtm))等位基因的小鼠表现出多指、生长迟缓以及存活率降低。Intu(Dtm/Dtm)突变体中纤毛有适度缺失,并且Intu(I813N)在培养的Intu无效突变体细胞中增加纤毛发生的能力受损。Intu(Dtm)突变体表现出肋骨缺陷以及长骨、指骨、椎骨和胸骨中软骨内骨化延迟。这些骨骼缺陷与Hh信号通路的减少相关。然而,神经管的模式形成和平面细胞极性似乎是正常的。

结论

这种次等位基因Intu突出了Intu在小鼠骨骼发育中的重要作用。

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