Department of Molecular and Human Genetics, Baylor College of Medicine, One Baylor Plaza, Houston, TX, 77030-3411, USA.
Institute of Computer Science, Warsaw University of Technology, Warsaw, 00-665, Poland.
Genome Med. 2017 Sep 21;9(1):83. doi: 10.1186/s13073-017-0472-7.
Exon-targeted microarrays can detect small (<1000 bp) intragenic copy number variants (CNVs), including those that affect only a single exon. This genome-wide high-sensitivity approach increases the molecular diagnosis for conditions with known disease-associated genes, enables better genotype-phenotype correlations, and facilitates variant allele detection allowing novel disease gene discovery.
We retrospectively analyzed data from 63,127 patients referred for clinical chromosomal microarray analysis (CMA) at Baylor Genetics laboratories, including 46,755 individuals tested using exon-targeted arrays, from 2007 to 2017. Small CNVs harboring a single gene or two to five non-disease-associated genes were identified; the genes involved were evaluated for a potential disease association.
In this clinical population, among rare CNVs involving any single gene reported in 7200 patients (11%), we identified 145 de novo autosomal CNVs (117 losses and 28 intragenic gains), 257 X-linked deletion CNVs in males, and 1049 inherited autosomal CNVs (878 losses and 171 intragenic gains); 111 known disease genes were potentially disrupted by de novo autosomal or X-linked (in males) single-gene CNVs. Ninety-one genes, either recently proposed as candidate disease genes or not yet associated with diseases, were disrupted by 147 single-gene CNVs, including 37 de novo deletions and ten de novo intragenic duplications on autosomes and 100 X-linked CNVs in males. Clinical features in individuals with de novo or X-linked CNVs encompassing at most five genes (224 bp to 1.6 Mb in size) were compared to those in individuals with larger-sized deletions (up to 5 Mb in size) in the internal CMA database or loss-of-function single nucleotide variants (SNVs) detected by clinical or research whole-exome sequencing (WES). This enabled the identification of recently published genes (BPTF, NONO, PSMD12, TANGO2, and TRIP12), novel candidate disease genes (ARGLU1 and STK3), and further confirmation of disease association for two recently proposed disease genes (MEIS2 and PTCHD1). Notably, exon-targeted CMA detected several pathogenic single-exon CNVs missed by clinical WES analyses.
Together, these data document the efficacy of exon-targeted CMA for detection of genic and exonic CNVs, complementing and extending WES in clinical diagnostics, and the potential for discovery of novel disease genes by genome-wide assay.
外显子靶向微阵列可检测小(<1000 bp)的基因内拷贝数变异(CNVs),包括仅影响单个外显子的变异。这种全基因组高灵敏度方法增加了已知疾病相关基因的分子诊断能力,促进了更好的基因型-表型相关性,并有助于检测变异等位基因,从而发现新的疾病基因。
我们回顾性分析了贝勒遗传学实验室 63127 名患者的临床染色体微阵列分析(CMA)数据,包括 2007 年至 2017 年使用外显子靶向阵列检测的 46755 名个体。鉴定出含有单个基因或 2 至 5 个非疾病相关基因的小 CNVs;评估涉及的基因是否存在潜在的疾病相关性。
在该临床人群中,在 7200 名患者(11%)报告的涉及任何单个基因的罕见 CNVs 中,我们鉴定出 145 个新生常染色体 CNVs(117 个缺失和 28 个内含子增益)、257 个男性 X 连锁缺失 CNVs 和 1049 个遗传性常染色体 CNVs(878 个缺失和 171 个内含子增益);111 个已知疾病基因可能因新生常染色体或 X 连锁(男性)单基因 CNVs 而受到破坏。91 个基因,要么最近被提议为候选疾病基因,要么尚未与疾病相关,因 147 个单基因 CNVs 而受到破坏,包括 37 个新生缺失和 10 个新生内含子重复在常染色体上,以及 100 个男性 X 连锁 CNVs。将包含最多五个基因(224 bp 至 1.6 Mb)的新生或 X 连锁 CNVs 个体的临床特征与内部 CMA 数据库中较大缺失(最大 5 Mb)或临床或研究全外显子组测序(WES)检测到的功能丧失单核苷酸变异(SNVs)个体的临床特征进行比较。这使得能够鉴定最近发表的基因(BPTF、NONO、PSMD12、TANGO2 和 TRIP12)、新的候选疾病基因(ARGLU1 和 STK3),并进一步确认两个最近提出的疾病基因(MEIS2 和 PTCHD1)的疾病相关性。值得注意的是,外显子靶向 CMA 检测到了临床 WES 分析遗漏的几个致病性单外显子 CNVs。
这些数据共同证明了外显子靶向 CMA 在检测基因和外显子 CNVs 方面的有效性,补充和扩展了临床诊断中的 WES,并通过全基因组检测具有发现新疾病基因的潜力。
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