毒物基因组学和Tox21项目中高通量筛选的交叉:NIEHS的观点。

B Alex Merrick, Richard S Paules, Raymond R Tice
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引用次数: 32

摘要

人类接触到成千上万种毒理学数据不充分的化学物质。计算毒理学、机器人高通量筛选(HTS)和全基因组表达的进展已被整合到Tox21项目中,以更好地预测化学品的毒理学效应。Tox21是美国政府机构于2008年启动的一项合作项目,旨在将化学危害评估从传统的动物毒理学转变为使用体外分析和较低生物模型的特定靶点、基于机制的生物观察。HTS使用生物计算方法在体外检测中探测数千种化学物质,以预测不利的人类健康结果的基因通路反应模式。1999年,NIEHS开始探索毒物基因组学在毒理学中的应用,NextGen测序的最新进展将大大提高从hhs平台获得的生物学内容。我们预计毒物基因组学和高通量技术的新技术的交叉将是Tox21的创新发展。将审查“21世纪Tox21”的目标、优先事项、进展和挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Intersection of toxicogenomics and high throughput screening in the Tox21 program: an NIEHS perspective.

Intersection of toxicogenomics and high throughput screening in the Tox21 program: an NIEHS perspective.

Intersection of toxicogenomics and high throughput screening in the Tox21 program: an NIEHS perspective.

Intersection of toxicogenomics and high throughput screening in the Tox21 program: an NIEHS perspective.

Humans are exposed to thousands of chemicals with inadequate toxicological data. Advances in computational toxicology, robotic high throughput screening (HTS), and genome-wide expression have been integrated into the Tox21 program to better predict the toxicological effects of chemicals. Tox21 is a collaboration among US government agencies initiated in 2008 that aims to shift chemical hazard assessment from traditional animal toxicology to target-specific, mechanism-based, biological observations using in vitro assays and lower organism models. HTS uses biocomputational methods for probing thousands of chemicals in in vitro assays for gene-pathway response patterns predictive of adverse human health outcomes. In 1999, NIEHS began exploring the application of toxicogenomics to toxicology and recent advances in NextGen sequencing should greatly enhance the biological content obtained from HTS platforms. We foresee an intersection of new technologies in toxicogenomics and HTS as an innovative development in Tox21. Tox21 goals, priorities, progress, and challenges will be reviewed.

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