杂交Spag6l小鼠的产生和通过杂交到Hprt-Cre系对基因的破坏。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-04-14 DOI:10.1002/dvg.23512
Yonghong Man, Wei Li, Yi Tian Yap, Alivia Kearney, Siu-Pok Yee, Jerome F. Strauss III, Pamela Harding, Shizheng Song, Ling Zhang, Zhibing Zhang
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引用次数: 0

摘要

小鼠精子相关抗原6样(SPAG6L)是一种轴丝中心器蛋白,对室管膜细胞、肺纤毛和精子鞭毛的正常功能至关重要。积累的证据揭示了SPAG6L的多种生物学功能,包括纤毛/鞭毛生物发生和极化、神经发生和神经元迁移。传统的Spag6l敲除小鼠死于脑积水,这阻碍了对该基因在体内功能的进一步研究。为了克服传统敲除小鼠寿命短的限制,我们通过在Spag6l基因外显子3的基因组侧翼插入两个loxP位点,开发了一种条件等位基因。通过将悬浮的Spag6l小鼠与在体内普遍表达Cre重组酶的Hrpt-Cre系杂交,获得了在全球缺失Spag6l的突变小鼠。纯合突变型Spag6l小鼠在出生后第一周内表现出正常外观,但在1周后观察到体型缩小,所有小鼠都出现脑积水,并在4周内死亡 周龄。表型反映了传统的Spag6l敲除小鼠的表型。新建立的Floxy-Spag6l模型为进一步研究Spag6l基因在个体细胞类型和组织中的作用提供了有力的工具。
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Generation of floxed Spag6l mice and disruption of the gene by crossing to a Hprt-Cre line

Mouse sperm-associated antigen 6 like (SPAG6L) is an axoneme central apparatus protein, essential for the normal function of the ependymal cell and lung cilia, and sperm flagella. Accumulated evidence has disclosed multiple biological functions of SPAG6L, including ciliary/flagellar biogenesis and polarization, neurogenesis, and neuronal migration. Conventional Spag6l knockout mice died of hydrocephalus, which impedes further investigation of the function of the gene in vivo. To overcome the limitation of the short lifespan of conventional knockout mice, we developed a conditional allele by inserting two loxP sites in the genome flanking exon 3 of the Spag6l gene. By crossing the floxed Spag6l mice to a Hrpt-Cre line which expresses Cre recombinase ubiquitously in vivo, mutant mice that are missing SPAG6L globally were obtained. Homozygous mutant Spag6l mice showed normal appearance within the first week after birth, but reduced body size was observed after 1 week, and all developed hydrocephalus and died within 4 weeks of age. The phenotype mirrored that of the conventional Spag6l knockout mice. The newly established floxed Spag6l model provides a powerful tool to further investigate the role of the Spag6l gene in individual cell types and tissues.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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