New kernel methods for phenotype prediction from genotype data.

Ritsuko Onuki, T. Shibuya, M. Kanehisa
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引用次数: 6

Abstract

Phenotype prediction from genotype data is one of the most important issues in computational genetics. In this work, we propose a new kernel (i.e., an SVM: Support Vector Machine) method for phenotype prediction from genotype data. In our method, we first infer multiple suboptimal haplotype candidates from each genotype by using the HMM (Hidden Markov Model), and the kernel matrix is computed based on the predicted haplotype candidates and their emission probabilities from the HMM. We validated the performance of our method through experiments on several datasets: One is an artificially constructed dataset via a program GeneArtisan, others are a real dataset of the NAT2 gene from the international HapMap project, and a real dataset of genotypes of diseased individuals. The experiments show that our method is superior to ordinary naive kernel methods (i.e., not based on haplotype prediction), especially in cases of strong LD (linkage disequilibrium).
从基因型数据预测表型的新核心方法。
从基因型数据预测表型是计算遗传学中最重要的问题之一。在这项工作中,我们提出了一种新的核(即SVM:支持向量机)方法,用于从基因型数据中预测表型。该方法首先利用隐马尔可夫模型(HMM)从每个基因型中推断出多个次优候选单倍型,然后根据预测的候选单倍型及其在隐马尔可夫模型中的发射概率计算核矩阵。我们通过几个数据集的实验验证了我们方法的性能:一个是通过GeneArtisan程序人工构建的数据集,另一个是来自国际HapMap项目的NAT2基因的真实数据集,以及患病个体的真实基因型数据集。实验表明,我们的方法优于普通的朴素核方法(即不基于单倍型预测),特别是在强LD(连锁不平衡)的情况下。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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