利用细菌人工染色体介导的基因转移分析小鼠癫痫易感性的数量性状位点。

Analysis of a quantitative trait locus for seizure susceptibility in mice using bacterial artificial chromosome-mediated gene transfer.

作者信息

Ferraro Thomas N, Golden Gregory T, Dahl John P, Smith George G, Schwebel Candice L, MacDonald Ross, Lohoff Falk W, Berrettini Wade H, Buono Russell J

机构信息

Center for Neurobiology and Behavior, Department of Psychiatry, University of Pennsylvania, Philadelphia, PennsylvaniaResearch Service, Veteran's Affairs Medical Center, Coatesville, PennsylvaniaDepartment of Neurology, University of Cincinnati, Cincinnati, Ohio, U.S.A.

出版信息

Epilepsia. 2007 Sep;48(9):1667-1677. doi: 10.1111/j.1528-1167.2007.01126.x. Epub 2007 May 23.

DOI:10.1111/j.1528-1167.2007.01126.x

PMID:17521350

Abstract

PURPOSE

Previous quantitative trait loci (QTL) mapping studies from our laboratory identified a 6.6 Mb segment of distal chromosome 1 that contains a gene (or genes) having a strong influence on the difference in seizure susceptibility between C57BL/6 (B6) and DBA/2 (D2) mice. A gene transfer strategy involving a bacterial artificial chromosome (BAC) DNA construct that contains several candidate genes from the critical interval was used to test the hypothesis that a strain-specific variation in one (or more) of the genes is responsible for the QTL effect.

METHODS

Fertilized oocytes from a seizure-sensitive congenic strain (B6.D2-Mtv7a/Ty-27d) were injected with BAC DNA and three independent founder lines of BAC-transgenic mice were generated. Seizure susceptibility was quantified by measuring maximal electroshock seizure threshold (MEST) in transgenic mice and nontransgenic littermates.

RESULTS

Seizure testing documented significant MEST elevation in all three transgenic lines compared to littermate controls. Allele-specific RT-PCR analysis confirmed gene transcription from genome-integrated BAC DNA and copy-number-dependent phenotypic effects were observed.

CONCLUSIONS

Results of this study suggest that the gene(s) responsible for the major chromosome 1 seizure QTL is found on BAC RPCI23-157J4 and demonstrate the utility of in vivo gene transfer for studying quantitative trait genes in mice. Further characterization of this transgenic model will provide new insight into mechanisms of seizure susceptibility.

摘要

目的

我们实验室之前的数量性状基因座（QTL）定位研究确定了1号染色体远端的一个6.6 Mb片段，该片段包含一个对C57BL/6（B6）和DBA/2（D2）小鼠癫痫易感性差异有强烈影响的基因。采用一种基因转移策略，涉及一种细菌人工染色体（BAC）DNA构建体，该构建体包含来自关键区间的几个候选基因，以检验以下假设：一个（或多个）基因中的品系特异性变异是导致QTL效应的原因。

方法

将BAC DNA注射到癫痫敏感近交系（B6.D2-Mtv7a/Ty-27d）的受精卵中，产生了三个独立的BAC转基因小鼠奠基系。通过测量转基因小鼠和非转基因同窝仔鼠的最大电休克惊厥阈值（MEST）来量化癫痫易感性。

结果

癫痫测试表明，与同窝对照相比，所有三个转基因系的MEST均显著升高。等位基因特异性RT-PCR分析证实了基因组整合的BAC DNA的基因转录，并观察到了拷贝数依赖性的表型效应。

结论

本研究结果表明，负责1号染色体主要癫痫QTL的基因位于BAC RPCI23-157J4上，并证明了体内基因转移在研究小鼠数量性状基因方面的实用性。对该转基因模型的进一步表征将为癫痫易感性机制提供新的见解。

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利用细菌人工染色体介导的基因转移分析小鼠癫痫易感性的数量性状位点。

Analysis of a quantitative trait locus for seizure susceptibility in mice using bacterial artificial chromosome-mediated gene transfer.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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