密集基因图谱扫描发现阅读障碍相关基因座位于 4q13、16p12、17q22,提示 7q36 存在新的基因座。
Dense-map genome scan for dyslexia supports loci at 4q13, 16p12, 17q22; suggests novel locus at 7q36.
机构信息
Department of Medical Genetics, University of British Columbia, Vancouver, BC, Canada.
出版信息
Genes Brain Behav. 2013 Feb;12(1):56-69. doi: 10.1111/gbb.12003. Epub 2012 Dec 7.
Analysis of genetic linkage to dyslexia was performed using 133,165 array-based SNPs genotyped in 718 persons from 101 dyslexia-affected families. Results showed five linkage peaks with lod scores >2.3 (4q13.1, 7q36.1-q36.2, 7q36.3, 16p12.1, and 17q22). Of these five regions, three have been previously implicated in dyslexia (4q13.1, 16p12.1, and 17q22), three have been implicated in attention-deficit hyperactivity disorder (ADHD, which highly co-occurs with dyslexia; 4q13.1, 7q36.3, 16p12.1) and four have been implicated in autism (a condition characterized by language deficits; 7q36.1-q36.2, 7q36.3, 16p12.1, and 17q22). These results highlight the reproducibility of dyslexia linkage signals, even without formally significant lod scores, and suggest dyslexia predisposing genes with relatively major effects and locus heterogeneity. The largest lod score (2.80) occurred at 17q22 within the MSI2 gene, involved in neuronal stem cell lineage proliferation. Interestingly, the 4q13.1 linkage peak (lod 2.34) occurred immediately upstream of the LPHN3 gene, recently reported both linked and associated with ADHD. Separate analyses of larger pedigrees revealed lods >2.3 at 1-3 regions per family; one family showed strong linkage (lod 2.9) to a known dyslexia locus (18p11) not detected in our overall data, demonstrating the value of analyzing single large pedigrees. Association analysis identified no SNPs with genome-wide significance, although a borderline significant SNP (P = 6 × 10(-7)) occurred at 5q35.1 near FGF18, involved in laminar positioning of cortical neurons during development. We conclude that dyslexia genes with relatively major effects exist, are detectable by linkage analysis despite genetic heterogeneity, and show substantial overlapping predisposition with ADHD and autism.
对 718 名受影响的家庭成员中的 133,165 个基于阵列的 SNP 进行了阅读障碍的遗传连锁分析。结果显示有五个连锁峰,其 lod 分数大于 2.3(4q13.1、7q36.1-q36.2、7q36.3、16p12.1 和 17q22)。在这五个区域中,有三个区域以前与阅读障碍有关(4q13.1、16p12.1 和 17q22),三个区域与注意力缺陷多动障碍(ADHD)有关(ADHD 与阅读障碍高度共发生;4q13.1、7q36.3、16p12.1),四个区域与自闭症有关(自闭症的特征是语言缺陷;7q36.1-q36.2、7q36.3、16p12.1 和 17q22)。这些结果突出了阅读障碍连锁信号的可重复性,即使没有正式显著的 lod 分数,也表明了具有相对较大影响和基因座异质性的阅读障碍易感基因。最大 lod 分数(2.80)发生在 17q22 内的 MSI2 基因,该基因参与神经元干细胞谱系增殖。有趣的是,4q13.1 连锁峰(lod 2.34)位于最近报告的与 ADHD 有关和连锁的 LPHN3 基因的上游。对较大家系的单独分析显示,每个家系有 1-3 个区域的 lod >2.3;一个家系显示出与已知阅读障碍基因座(18p11)的强连锁(lod 2.9),而该基因座在我们的整体数据中未被检测到,这表明分析单个大的家系是有价值的。关联分析未发现具有全基因组意义的 SNP,尽管在 5q35.1 附近的 FGF18 处存在一个边界显著的 SNP(P = 6×10(-7)),该 SNP 参与了皮层神经元在发育过程中的层状定位。我们得出的结论是,存在具有相对较大影响的阅读障碍基因,尽管存在遗传异质性,但可以通过连锁分析来检测,并且与 ADHD 和自闭症有很大的重叠易感性。
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