An iterative searching and ranking algorithm for prioritising pharmacogenomics genes.

Q4 Pharmacology, Toxicology and Pharmaceutics International Journal of Computational Biology and Drug Design Pub Date : 2013-01-01 Epub Date: 2013-02-21 DOI:10.1504/IJCBDD.2013.052199

Rong Xu, Quanqiu Wang

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Abstract

Pharmacogenomics (PGx) studies are to identify genetic variants that may affect drug efficacy and toxicity. A machine understandable drug-gene relationship knowledge is important for many computational PGx studies and for personalised medicine. A comprehensive and accurate PGx-specific gene lexicon is important for automatic drug-gene relationship extraction from the scientific literature, rich knowledge source for PGx studies. In this study, we present a bootstrapping learning technique to rank 33,310 human genes with respect to their relevance to drug response. The algorithm uses only one seed PGx gene to iteratively extract and rank co-occurred genes using 20 million MEDLINE abstracts. Our ranking method is able to accurately rank PGx-specific genes highly among all human genes. Compared to randomly ranked genes (precision: 0.032, recall: 0.013, F1: 0.018), the algorithm has achieved significantly better performance (precision: 0.861, recall: 0.548, F1: 0.662) in ranking the top 2.5% of genes.

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药物基因组学基因优先排序的迭代搜索和排序算法。

药物基因组学（PGx）研究旨在确定可能影响药物疗效和毒性的基因变异。机器可理解的药物基因关系知识对于许多计算 PGx 研究和个性化医疗非常重要。科学文献是 PGx 研究的丰富知识来源，而全面准确的 PGx 特定基因词典对于从科学文献中自动提取药物基因关系非常重要。在本研究中，我们提出了一种引导学习技术，根据 33,310 个人类基因与药物反应的相关性对其进行排序。该算法仅使用一个种子 PGx 基因，利用 2,000 万份 MEDLINE 摘要迭代提取共同出现的基因并对其进行排序。我们的排序方法能够在所有人类基因中准确地将 PGx 特异性基因排序到较高的位置。与随机排序的基因相比（精确度：0.032，召回率：0.013，F1：0.018），该算法在对前 2.5%的基因进行排序时取得了明显更好的性能（精确度：0.861，召回率：0.548，F1：0.662）。

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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来源期刊

International Journal of Computational Biology and Drug Design Pharmacology, Toxicology and Pharmaceutics-Drug Discovery

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1.00

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