密度很重要：用于检测拷贝数变异和拷贝数中性异常的阵列平台比较。

Density matters: comparison of array platforms for detection of copy-number variation and copy-neutral abnormalities.

机构信息

Department of Human Genetics, Emory University School of Medicine, Atlanta, Georgia, USA.

出版信息

Genet Med. 2013 Sep;15(9):706-12. doi: 10.1038/gim.2013.36. Epub 2013 Apr 4.

DOI:10.1038/gim.2013.36

PMID:23558256

Abstract

PURPOSE

A combination of oligonucleotide and single-nucleotide polymorphism probes on the same array platform can detect copy-number abnormalities and copy-neutral aberrations such as uniparental disomy and long stretches of homozygosity. The single-nucleotide polymorphism probe density in commercially available platforms varies widely, which may affect the detection of copy-neutral abnormalities.

METHODS

We evaluated the ability of array platforms with low (Oxford Gene Technology CytoSure ISCA uniparental disomy), mid-range (Agilent custom array), and high (Affymetrix CytoScan HD) single-nucleotide polymorphism probe density to detect copy-number variation, mosaicism, uniparental isodisomy, and absence of heterozygosity in 50 clinical samples.

RESULTS

All platforms reliably detected copy-number variation, mosaicism, and uniparental isodisomy; however, absence-of-heterozygosity detection varied significantly. The low-density array called absence-of-heterozygosity regions not confirmed by the other platforms and also overestimated the length of true absence-of-heterozygosity regions. Furthermore, the low- and mid-density platforms failed to detect some small absence-of-heterozygosity regions that were identified by the high-density platform.

CONCLUSION

Variation in single-nucleotide polymorphism density can lead to major discrepancies in the detection of and confidence in copy-neutral abnormalities. Although suitable for uniparental disomy detection, copy-number plus single-nucleotide polymorphism arrays with 30,000 or fewer unique single-nucleotide polymorphism probes miscall absence-of-heterozygosity regions due to identity by descent.

摘要

目的

寡核苷酸和单核苷酸多态性探针在同一阵列平台上的组合可以检测拷贝数异常和拷贝中性异常，如单亲二体和大片段纯合。商业上可用的平台中单核苷酸多态性探针的密度差异很大，这可能会影响拷贝中性异常的检测。

方法

我们评估了低（Oxford Gene Technology CytoSure ISCA 单亲二体）、中（Agilent 定制阵列）和高（Affymetrix CytoScan HD）单核苷酸多态性探针密度的阵列平台检测 50 个临床样本中的拷贝数变异、嵌合体、单亲同二体和杂合性缺失的能力。

结果

所有平台都可靠地检测到拷贝数变异、嵌合体和单亲同二体；然而，杂合性缺失的检测差异很大。低密度阵列称其他平台未确认的杂合性缺失区域，并高估了真正的杂合性缺失区域的长度。此外，低和中密度平台未能检测到一些由高密度平台识别的小的杂合性缺失区域。

结论

单核苷酸多态性密度的变化可能导致拷贝中性异常的检测和置信度存在重大差异。尽管适合单亲二体检测，但 30,000 个或更少独特单核苷酸多态性探针的拷贝数加单核苷酸多态性阵列由于同源性而错误地调用杂合性缺失区域。

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密度很重要：用于检测拷贝数变异和拷贝数中性异常的阵列平台比较。

Density matters: comparison of array platforms for detection of copy-number variation and copy-neutral abnormalities.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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