基于支持向量回归的交叉杂交信号估计

First International Multi-Symposiums on Computer and Computational Sciences (IMSCCS'06) Pub Date : 2006-06-20 DOI:10.1109/IMSCCS.2006.58

Yijun Sun, Li Liu, M. Popp, W. Farmerie

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引用次数: 1

摘要

微阵列技术是一种强大的生物技术工具，它允许研究人员同时评估数千个基因的表达，如果不是整个表达的基因组，一个有机体。基因表达的测量是通过标记mRNA从实验样品的差异杂交确定的DNA探针贴在阵列上。这些测量的准确性受到标记样品和探针之间结合特异性的影响。因此，评估交叉杂交水平对于获得基因表达的准确测量是至关重要的。在本文中，我们提出了一个基于支持向量回归的预测器，利用DNA探针的核苷酸含量作为估计交叉杂交水平的手段。给出了三个微阵列数据集的实验结果。我们的结果表明，当测量到的荧光信号值小于交叉杂交预测的值时，我们可以识别基因。在这些情况下，我们不考虑基因的表达

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Estimation Of Cross-Hybridization Signals Using Support Vector Regression

Microarray technology is a powerful biotechnology tool which allows researchers to simultaneously evaluate the expression of thousands of genes, if not the entire expressed genome, of an organism. Measures of gene expression are determined by the differential hybridization of labeled mRNA from experimental samples to DNA probes affixed to the array. The accuracy of these measurements is influenced by the binding specificity between the labeled samples and the probes. Evaluating the level of cross-hybridization is therefore critically important in obtaining accurate measures of gene expression. In this paper we present a support vector regression based predictor that utilizes the nucleotide content of the DNA probes as a means for estimating the level of cross-hybridization. Experimental results from three microarray data sets are presented. Our results indicate that we can identify genes when the measured fluorescent signal values are less than those predicted from cross-hybridization. In these cases we do not consider the genes to be expressed

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First International Multi-Symposiums on Computer and Computational Sciences (IMSCCS'06)

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