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轴丝蛋白Tektin-t缺乏的小鼠由于内臂动力蛋白功能受损而表现出雄性不育和不动纤毛综合征。

Mice deficient in the axonemal protein Tektin-t exhibit male infertility and immotile-cilium syndrome due to impaired inner arm dynein function.

作者信息

Tanaka Hiromitsu, Iguchi Naoko, Toyama Yoshiro, Kitamura Kouichi, Takahashi Tohru, Kaseda Kazuhiro, Maekawa Mamiko, Nishimune Yoshitake

机构信息

Department of Science for Laboratory Animal Experimentation, Research Institute for Microbial Diseases, Osaka University, 3-1 Yamadaoka, Suita, Osaka 565-0871, Japan.

出版信息

Mol Cell Biol. 2004 Sep;24(18):7958-64. doi: 10.1128/MCB.24.18.7958-7964.2004.

DOI:10.1128/MCB.24.18.7958-7964.2004
PMID:15340058
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC515054/
Abstract

The haploid germ cell-specific Tektin-t protein is a member of the Tektin family of proteins that form filaments in flagellar, ciliary, and axonemal microtubules. To investigate the physiological role of Tektin-t, we generated mice with a mutation in the tektin-t gene. The homozygous mutant males were infertile, while the females were fully fertile. Sperm morphology and function were abnormal, with frequent bending of the sperm flagella and marked defects in motility. In vitro fertilization assays showed that the defective spermatozoa were able to fertilize eggs. Electron microscopic examination showed that the dynein inner arm structure was disrupted in the sperm flagella of tektin-t-deficient mice. Furthermore, homozygous mutant mice had functionally defective tracheal cilia, as evidenced by altered dynein arm morphology. These results indicate that Tektin-t participates in dynein inner arm formation or attachment and that the loss of Tektin-t results in impaired motility of both flagella and cilia. Therefore, the tektin-t gene is one of the causal genes for immotile-cilium syndrome/primary ciliary dyskinesia.

摘要

单倍体生殖细胞特异性的Tektin-t蛋白是Tektin蛋白家族的成员之一,该家族蛋白可在鞭毛、纤毛和轴丝微管中形成细丝。为了研究Tektin-t的生理作用,我们构建了Tektin-t基因发生突变的小鼠。纯合突变雄性小鼠不育,而雌性小鼠完全可育。精子形态和功能异常,精子鞭毛频繁弯曲,运动能力存在明显缺陷。体外受精试验表明,有缺陷的精子能够使卵子受精。电子显微镜检查显示,Tektin-t基因缺陷小鼠的精子鞭毛中动力蛋白内臂结构遭到破坏。此外,纯合突变小鼠的气管纤毛功能存在缺陷,动力蛋白臂形态改变证明了这一点。这些结果表明,Tektin-t参与动力蛋白内臂的形成或附着,Tektin-t的缺失导致鞭毛和纤毛运动能力受损。因此,Tektin-t基因是不动纤毛综合征/原发性纤毛运动障碍的致病基因之一。

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