Toxicogenomics: An Overview with Special Reference to Genetic and Genomic Approaches to the Identification of Toxic Effects

General, Applied and Systems Toxicology Pub Date : 2011-09-15 DOI:10.1002/9780470744307.GAT200

M. Banerjee, A. Giri

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引用次数: 1

Abstract

Toxicology, the study of poisons, has been explored widely since ages immemorial. However, only recently, workers have begun to apply the state-of-the-art “omics” technologies to study toxicological problems. This has led to exciting possibilities in the field of toxicology and holds promise to revolutionize the study of poisons and their effects in ways more than one. However, with all these advantages, this new technique also has the disadvantage of being exorbitantly costly as well as low in reproducibility. Hence, the results obtained from toxicogenomic techniques need to be vindicated by classical cytogenetic and molecular biology methods before reaching any tangible conclusion. This article gives a glimpse of the genomic and genetic components used extensively in contemporary toxicological studies and elucidates how an appropriate interaction between the two approaches can help workers to generate high-quality data and reach proper conclusions by avoiding possible pitfalls. Keywords: chromosomal aberrations; microarray; micronucleus; miRNA; toxicogenomics; toxicology; single nucleotide polymorphism

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毒物基因组学:概述与特别参考遗传和基因组方法鉴定毒性作用

毒理学，对毒物的研究，自古以来就被广泛探索。然而，直到最近，工作人员才开始应用最先进的“组学”技术来研究毒理学问题。这为毒理学领域带来了令人兴奋的可能性，并有望以不止一种方式彻底改变毒素及其影响的研究。然而，尽管有这些优点，这种新技术也有成本过高和可重复性低的缺点。因此，在得出任何切实的结论之前，需要通过经典的细胞遗传学和分子生物学方法来验证从毒物基因组学技术获得的结果。本文简要介绍了当代毒理学研究中广泛使用的基因组和遗传成分，并阐明了两种方法之间的适当相互作用如何帮助工作人员产生高质量的数据，并通过避免可能的陷阱得出适当的结论。关键词:染色体畸变;微阵列;微核;microrna的;toxicogenomics;毒理学;单核苷酸多态性

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General, Applied and Systems Toxicology

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