dystrophin基因第45 ~54外显子缺失连接片段的克隆和测序(英文) 被引量：2

Cloning and sequencing of junction fragment with exons 45-54 deletion of dystrophin gene

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摘要目的通过对dystrophin基因第45-54外显子缺失后连接片段的克隆和测序分析，探讨dystrophin基因缺失的发生机理。方法先以外显子PCR反应检测证实1例杜氏肌营养不良症（Duchenne muscular dystrophy，DMD）患者第45～54外显子缺失，然后在第44和第54内含子上用PCR步移方法寻找断裂位点，最后用靠近断裂位点处设计的引物，以PCR法直接扩增dystrophin基因的缺失连接片段并测序，测序结果和正常内含子序列作对比分析。结果对扩增连接片段的PCR产物测序获得2716bp有效序列。本例基因缺失片段长达402kb。5’端断裂点位于第44内含子长散在元件（long interspersed elements，LINE）L1序列内，邻近基质附着区（matrix attachment region，MAR），3’端断裂位点在第54内含子较可能形成MAR的一个次级区域内，附近有拓扑异构酶Ⅱ识别位点，断裂点两旁存在6bp的回文序列。连接片段通过4bp的微小同源序列AGAG连接断裂点两端。结论由L1重复序列、断裂点附近拓扑异构酶Ⅱ酶切位点、MARs以及微小同源序列的非同源末端连接修复等综合因素引起的非同源基因重组可能是导致此一大片段基因缺失的重要原因。 Objective To study the mechanisms of dystrophin gene deletion, the junction fragment with exons 45-54 deletion were cloned and sequenced. Methods A Duehenne muscular dystrophy （DMD） patient with exons 45-54 deletion has been substantiated by PCR amplification of the exons. Then we used a PCR-based gonome-walking method for localizing the breakpoints in introns 44 and 54. At last, the deletion-junction fragment was directly amplified by PCR approach with forward and reverse primers annealing to a DNA sequence as close as possible to the breakpoints in introns 45 and 54. The sequencing result of the deletion-junction fragment was compared with the normal intronie sequences. Results A total of 2716 bp sequence containing the junction fragment was obtained. The 5＇ breakpoint was located in LINE/L1 element of intron 44 and close to a matrix attachment region （MAR）. The 3＇ breakpoint was located in the minor potential MAR with topoisomerase Ⅱ cleavage sites around. Beside the 3＇ breakpoint there was a 6 bp palindromic sequence. A 4 bp mierohomologous sequence （AGAG） was in the joint of the deletion-junction fragment. Conclusion The nonhomologous recombination caused by L1 repeated element, topoisomerase Ⅱ cleavage sites, MARs and the nonhomologous end joining of mierohomologous sequence may be the important factors in this huge gene fragment deletion.

作者钟敏潘速跃陆兵勋李伟

机构地区南方医科大学南方医院神经内科

出处《中华医学遗传学杂志》 CAS CSCD 北大核心 2006年第2期138-141,共4页 Chinese Journal of Medical Genetics

基金广东省自然科学基金(001032)~~

关键词肌营养不良症连接片段基因缺失 Duchenne muscular dystrophy junction fragment gene deletion

分类号 R346 [医药卫生—基础医学]

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参考文献14

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共引文献7

1盛文利,陈江瑛,朱良付,刘焯霖.DMD基因内含子的重复序列与内含子不稳定性和基因缺失的关联[J].中山大学学报（医学科学版）,2005,26(1):11-15. 被引量：2
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3钟敏,潘速跃,陆兵勋,姜立,李伟.Dystrophin基因3～5号外显子缺失连接片段的克隆和测序[J].南方医科大学学报,2006,26(6):757-759. 被引量：1
4钟敏,潘速跃,陆兵勋.假肥大型肌营养不良患者dystrophin基因缺失断裂点的分子结构特点[J].中华神经科杂志,2007,40(8):521-524. 被引量：1
5赵敏,王小华,李铁臣,赵跃华.白血病Flt3基因编码的近膜区点突变的检测和内含子14缺失的分析[J].白血病．淋巴瘤,2011,20(7):401-403.
6潘速跃,张成,刘焯霖,陈国俊,盛文利,卢锡林.Dystrophin基因第51内含子全序列的测序及序列特点分析[J].中华医学遗传学杂志,2002,19(1):26-29.
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同被引文献30

1钟敏,潘速跃,陆兵勋,姜立,李伟.Dystrophin基因3～5号外显子缺失连接片段的克隆和测序[J].南方医科大学学报,2006,26(6):757-759. 被引量：1
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7McNaughton JC, Cockburn DJ, Hughes G, et al. Is gene deletion in eukaryotes sequence-dependent? A study of nine deletion junctions and nineteen other deletion breakpoints in intron7 of the human dystrophin gene. Gene, 1998, 222:41-51.
8Toffolatti L, Cardazzo B, Nobile C, et al. Investigating the mechanism of chromosomal deletion: characterization of 39 deletion breakpoints in introns 47 and 48 of the human dystrophin gene. Genomics, 2002, 80:523-530.
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引证文献2

1钟敏,潘速跃,陆兵勋,李伟.克隆缺失连接片段——一种基于PCR技术的缺失型假肥大型肌营养不良症的携带者检测[J].中华医学遗传学杂志,2008,25(6):642-645.
2钟敏,潘速跃,李伟.连接片段在Duchenne型肌营养不良症携带者检测中的应用[J].南方医科大学学报,2015,35(9):1308-1311.

1钟敏,潘速跃,陆兵勋.假肥大型肌营养不良患者dystrophin基因缺失断裂点的分子结构特点[J].中华神经科杂志,2007,40(8):521-524. 被引量：1
2潘速跃,张成,刘焯霖,陈国俊,卢锡林.Dystrophin基因51号外显子缺失连接片段的克隆和测序[J].Acta Genetica Sinica,2002,29(2):105-110. 被引量：2
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4钟敏,潘速跃,陆兵勋,李伟.克隆缺失连接片段——一种基于PCR技术的缺失型假肥大型肌营养不良症的携带者检测[J].中华医学遗传学杂志,2008,25(6):642-645.
5黄榕,张金凤,徐俊.Duchenne肌营养不良患儿抗肌萎缩蛋白基因突变的检测[J].中华儿科杂志,2009,47(1):68-69.
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7李新,邓琦,李青,茫烈,李玉明.RetroNectin对急性白血病患者自然杀伤细胞增殖和活性的影响[J].中华医学杂志,2012,92(30):2123-2127. 被引量：3
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