An Algorithm for Bounding Error in Estimates of Genome Copy Number Variations Using SNP Array Technology

机译：利用SNP阵列技术估算基因组拷贝数变异的边界误差算法

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Noise strongly affects measurements of chromosomal changes provided using the modern single nucleotide polymorphism (SNP) array technology. This makes difficulties in the estimation of genome copy number variations (CNVs) essential for human life. We propose an efficient algorithm for computing the confidence upper and lower boundary limits in order to guarantee an existence of genomic changes with a required probability. The algorithm is designed to approximate the breakpoint jitter probability with the discrete skew Laplace distribution. We test some SNP-based measurements by the upper and lower confidence bound masks and show special cases when the estimated chromosomal change may not exist and the breakpoint locations cannot be estimated with sufficient accuracy.

机译：噪声强烈影响使用现代单核苷酸多态性（SNP）阵列技术提供的染色体变化的测量。这给估计人类生命必不可少的基因组拷贝数变异（CNV）带来了困难。我们提出了一种用于计算置信上限和下限的有效算法，以保证以所需的概率存在基因组变化。该算法旨在通过离散偏斜拉普拉斯分布来近似断点抖动概率。我们通过上下置信区间掩码测试了一些基于SNP的测量，并显示了可能不存在估计的染色体变化并且无法以足够的精度估计断点位置的特殊情况。

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《Mexican International Conference on Artificial Intelligence》|2016年|220-225|共6页
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Jorge Muoz; Yuriy S. Shmaliy; Roberto Olivera;
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Confidende bound mask; copy number variations; jitter probability; skew Laplace distribution;

机译：置信界掩码;拷贝数变化;抖动概率;偏拉普拉斯分布;

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4. An Algorithm for Bounding Error in Estimates of Genome Copy Number Variations Using SNP Array Technology [C] . Jorge Mu??oz, Yuriy S. Shmaliy, Roberto Olivera Mexican International Conference on Artificial Intelligence . 2016

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An Algorithm for Bounding Error in Estimates of Genome Copy Number Variations Using SNP Array Technology

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