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利用细菌人工染色体生成转基因小鼠:转基因效率、整合及表达结果

Generating transgenic mice from bacterial artificial chromosomes: transgenesis efficiency, integration and expression outcomes.

作者信息

Van Keuren Margaret L, Gavrilina Galina B, Filipiak Wanda E, Zeidler Michael G, Saunders Thomas L

机构信息

Transgenic Animal Model Core, University of Michigan Medical School, 2560 MSRB II, Ann Arbor, MI 48109, USA.

出版信息

Transgenic Res. 2009 Oct;18(5):769-85. doi: 10.1007/s11248-009-9271-2. Epub 2009 Apr 26.

DOI:10.1007/s11248-009-9271-2
PMID:19396621
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3016422/
Abstract

Transgenic mice are widely used in biomedical research to study gene expression, developmental biology, and gene therapy models. Bacterial artificial chromosome (BAC) transgenes direct gene expression at physiological levels with the same developmental timing and expression patterns as endogenous genes in transgenic animal models. We generated 707 transgenic founders from 86 BAC transgenes purified by three different methods. Transgenesis efficiency was the same for all BAC DNA purification methods. Polyamine microinjection buffer was essential for successful integration of intact BAC transgenes. There was no correlation between BAC size and transgenic rate, birth rate, or transgenic efficiency. A narrow DNA concentration range generated the best transgenic efficiency. High DNA concentrations reduced birth rates while very low concentrations resulted in higher birth rates and lower transgenic efficiency. Founders with complete BAC integrations were observed in all 47 BACs for which multiple markers were tested. Additional founders with BAC fragment integrations were observed for 65% of these BACs. Expression data was available for 79 BAC transgenes and expression was observed in transgenic founders from 63 BACs (80%). Consistent and reproducible success in BAC transgenesis required the combination of careful DNA purification, the use of polyamine buffer, and sensitive genotyping assays.

摘要

转基因小鼠在生物医学研究中被广泛用于研究基因表达、发育生物学和基因治疗模型。细菌人工染色体(BAC)转基因在生理水平上指导基因表达,其发育时间和表达模式与转基因动物模型中的内源基因相同。我们从通过三种不同方法纯化的86个BAC转基因中产生了707只转基因奠基小鼠。所有BAC DNA纯化方法的转基因效率相同。多胺显微注射缓冲液对于完整BAC转基因的成功整合至关重要。BAC大小与转基因率、出生率或转基因效率之间没有相关性。较窄的DNA浓度范围产生了最佳的转基因效率。高DNA浓度降低了出生率,而极低浓度导致较高的出生率和较低的转基因效率。在测试了多个标记的所有47个BAC中都观察到了具有完整BAC整合的奠基小鼠。在这些BAC中的65%还观察到了具有BAC片段整合的其他奠基小鼠。有79个BAC转基因的表达数据可用,并且在来自63个BAC(80%)的转基因奠基小鼠中观察到了表达。BAC转基因的一致且可重复的成功需要仔细的DNA纯化、多胺缓冲液的使用和灵敏的基因分型检测相结合。

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