小鼠Col2a1基因中的一个错义突变会导致先天性脊柱骨骺发育不良、听力丧失和视网膜劈裂。

A missense mutation in the mouse Col2a1 gene causes spondyloepiphyseal dysplasia congenita, hearing loss, and retinoschisis.

作者信息

Donahue Leah Rae, Chang Bo, Mohan Subburaman, Miyakoshi Nao, Wergedal Jon E, Baylink David J, Hawes Norman L, Rosen Clifford J, Ward-Bailey Patricia, Zheng Qing Y, Bronson Roderick T, Johnson Kenneth R, Davisson Muriel T

机构信息

The Jackson Laboratory, Bar Harbor, Maine 04609, USA.

出版信息

J Bone Miner Res. 2003 Sep;18(9):1612-21. doi: 10.1359/jbmr.2003.18.9.1612.

DOI:10.1359/jbmr.2003.18.9.1612

PMID:12968670

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2862909/

Abstract

UNLABELLED

A missense mutation in the mouse Col2a1 gene has been discovered, resulting in a mouse phenotype with similarities to human spondyloepiphyseal dysplasia (SED) congenita. In addition, SED patients have been identified with a similar molecular mutation in human COL2A1. This mouse model offers a useful tool for molecular and biological studies of bone development and pathology.

INTRODUCTION

A new mouse autosomal recessive mutation has been discovered and named spondyloepiphyseal dysplasia congenita (gene symbol sedc).

MATERIALS AND METHODS

Homozygous sedc mice can be identified at birth by their small size and shortened trunk. Adults have shortened noses, dysplastic vertebrae, femora, and tibias, plus retinoschisis and hearing loss. The mutation was mapped to Chr15, and Col2a1 was identified as a candidate gene.

RESULTS

Sequence analyses revealed that the affected gene is Col2a1, which has a missense mutation at exon 48 causing an amino acid change of arginine to cysteine at position 1417. Two human patients with spondyloepiphyseal dysplasia (SED) congenita have been reported with the same amino acid substitution at position 789 in the human COL2A1 gene.

CONCLUSIONS

Thus, sedc/sedc mice provide a valuable model of human SED congenita with molecular and phenotypic homology. Further biochemical analyses, molecular modeling, and cell culture studies using sedc/sedc mice could provide insight into mechanisms of skeletal development dependent on Col2a1 and its role in fibril formation and cartilage template organization.

摘要

未标注

在小鼠Col2a1基因中发现了一个错义突变，导致小鼠表现出与人类先天性脊柱骨骺发育不良（SED）相似的表型。此外，已在人类COL2A1中鉴定出患有类似分子突变的SED患者。该小鼠模型为骨骼发育和病理学的分子及生物学研究提供了一个有用的工具。

引言

发现了一种新的小鼠常染色体隐性突变，并将其命名为先天性脊柱骨骺发育不良（基因符号sedc）。

材料与方法

纯合sedc小鼠在出生时可通过体型小和躯干缩短来识别。成年小鼠有缩短的鼻子、发育不良的椎骨、股骨和胫骨，还有视网膜劈裂和听力丧失。该突变被定位到15号染色体，Col2a1被鉴定为候选基因。

结果

序列分析显示受影响的基因是Col2a1，其在第48外显子有一个错义突变，导致1417位的精氨酸变为半胱氨酸。已报道两名先天性脊柱骨骺发育不良（SED）患者在人类COL2A1基因的789位有相同的氨基酸替换。

结论

因此，sedc/sedc小鼠提供了一个具有分子和表型同源性的人类先天性SED的有价值模型。使用sedc/sedc小鼠进行进一步的生化分析、分子建模和细胞培养研究，可深入了解依赖于Col2a1的骨骼发育机制及其在纤维形成和软骨模板组织中的作用。

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