Division of Pediatric Surgery, Department of Surgery, University of Wisconsin SMPH Madison, Madison, Wisconsin.
Division of Pediatric Surgery, Department of Surgery, University of Wisconsin SMPH Madison, Madison, Wisconsin.
J Surg Res. 2014 Apr;187(2):386-93. doi: 10.1016/j.jss.2013.10.046. Epub 2013 Oct 29.
Hprt-Cre doubles the prevalence of homozygous null embryos per litter versus heterozygous breedings without decreasing litter size. Resulting mutant embryos are genotypically and phenotypically equivalent between strategies. We set out to confirm the effectiveness of this approach with other alleles and hypothesized that it would increase efficiency in generating compound mutants.
Null mutants for Cyp26b1, Pitx2, and Shh were generated with Hprt-Cre from conditional alleles as were double and triple allelic combinations of Fgfr2IIIb, Raldh2, and Cyp26b1. Embryos were genotyped and phenotyped by whole mount photography, histology, and immunohistochemistry.
Fifty percent of Hprt-Cre litters were homozygous null for Cyp26b1 (15/29) and Pitx2 (75/143), with phenotypic and genotypic equivalence to mutants from standard heterozygous breedings. In multi-allele breedings, mutant embryos constituted half of litters without significant embryo loss. In contrast, Shh breedings yielded a smaller ratio of embryos carrying two recombined alleles (6 of 16), with a significant litter size reduction because of early embryonic lethality (16 live embryos from 38 deciduae).
Hprt-Cre can be used to efficiently generate large numbers of mutant embryos with a number of alleles. Compound mutant generation was equally efficient. However, efficiency is reduced for genes whose protein product potentially interacts with the Hprt pathway (e.g., Shh).
与杂合繁殖相比,Hprt-Cre 使每个窝产的纯合缺失胚胎的出现频率增加了一倍,而窝产仔数没有减少。两种策略产生的突变胚胎在基因型和表型上是等效的。我们着手用其他等位基因来验证这种方法的有效性,并假设它会提高生成复合突变体的效率。
使用 Hprt-Cre 从条件性等位基因中生成 Cyp26b1、Pitx2 和 Shh 的 null 突变体,以及 Fgfr2IIIb、Raldh2 和 Cyp26b1 的双等位基因和三等位基因组合的突变体。通过全胚胎摄影、组织学和免疫组织化学对胚胎进行基因分型和表型分析。
50%的 Hprt-Cre 窝产仔中 Cyp26b1(15/29)和 Pitx2(75/143)为纯合缺失,表型和基因型与标准杂合繁殖的突变体等效。在多等位基因繁殖中,突变体胚胎构成了一半的窝产仔数,而没有明显的胚胎丢失。相比之下,Shh 繁殖的结果是携带两个重组等位基因的胚胎比例较小(16/16),由于早期胚胎致死,窝产仔数显著减少(38 个蜕膜中有 16 个活胚胎)。
Hprt-Cre 可用于高效地生成大量具有多个等位基因的突变体胚胎。复合突变体的生成效率同样很高。然而,对于其蛋白产物可能与 Hprt 途径相互作用的基因(如 Shh),效率会降低。